Page 1 V Series...
Page 2 Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual. Printing Date Reference No. Revised Contents February, 2004 2200NE0 First edition...
Page 3 Notes: 1. This manual may not, in whole or in part, be printed or reproduced without the prior written consent of Hakko Electronics Co., Ltd. 2. The information in this manual is subject to change without prior notice. 3. Windows and Excel are registered trademarks of Microsoft Corporation in the United States and other countries.
Page 4: Notes On Safe Use Of Monitouch
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.” Indicates an imminently hazardous situation which, if not avoided, will result in death or DANGER serious injury.
Page 5 Operation with the cover attached may result in accident, fire, malfunction, or trouble. • Do not attempt to repair MONITOUCH at your site. Ask Hakko or the designated contractor for repair. • Do not disassemble or modify MONITOUCH. Otherwise, it may cause a malfunction.
Page 6 [General Notes] • 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 high-voltage and large-current carrying cables. Otherwise, malfunction may occur due to noise. •...
Page 7: Table Of Contents
Contents Preface Notes on Safe Use of MONITOUCH Before Connecting to PLC Types of Connection..........................1-1 Interface............................... 1-5 Wiring (1 : 1 Connection) ........................1-8 V-SFT Setting (1 : 1 Connection) ...................... 1-10 Allen-Bradley PLC Available PLCs ............................ 2-1 Communication Setting ........................2-1 Available Memory ..........................
Page 8 Hitachi PLC Available PLCs ..........................10-1 Communication Setting ........................10-1 HIDIC-H: Switch Setting ........................10-2 Available Memory ..........................10-2 Wiring ..............................10-4 IDEC PLC Available PLCs ..........................11-1 Communication Setting ........................11-1 Available Memory ..........................11-1 Wiring ..............................11-2 KEYENCE PLC Available PLCs ..........................
Page 9 SAIA PLC Available PLCs ..........................20-1 Communication Setting ........................20-1 S-BUS Configuration ......................... 20-1 Available Memory ..........................20-1 Wiring ..............................20-2 SAMSUNG PLC Available PLCs ..........................21-1 Communication Setting ........................21-1 Available Memory ..........................21-1 Wiring ..............................21-2 SHARP PLC Available PLCs ..........................
Page 10 Yamatake PLC Available PLCs ..........................31-1 Communication Setting ........................31-1 Available Memory ..........................31-1 Wiring ..............................31-2 Yaskawa Electric PLC Available PLCs ..........................32-1 Communication Setting ........................32-1 Available Memory ..........................32-2 Wiring ..............................32-3 Yokogawa Electric PLC Available PLCs ..........................33-1 Communication Setting ........................
Page 11 Appendix 7 V-Link V-Link ............................App7-1 Wiring ............................App7-2 V-SFT Setting ..........................App7-4 Protocol ............................App7-5 NAK: Error Codes......................... App7-9 1-byte Character Code List......................App7-10 Connection Compatibility List V712/V710/V708/V706+DU-01......................List-1 V706 ..............................List-3...
Page 12: Before Connecting To Plc
1. Before Connecting to PLC Before Connecting to PLC Types of Connection There are four types of connection between MONITOUCH(es) and PLC(s). 1 : 1 Connection Outline One set of the V7 series is connected to one PLC (1 : 1 connection). The wiring diagrams and the description of settings for connection to PLCs in 1 : 1 connections can be found from Chapter 2 onward.
Page 13 1. Before Connecting to PLC 1 : n Connection (Multi-drop) Outline One V7 series is connected to multiple PLCs. (Maximum connectable PLCs: 31) V7 series Maximum length (V7 series to the terminating PLC) = 500 m RS-422/RS-485 connection PLC1 PLC2 PLC3 PLCn (n = 1 to 31)
Page 14 The connection between the master station and the PLC is the same as the one for 1 : 1 connection. • Use the RS-485 2-wire connection between stations of the V7 series. Please use Hakko Electronics’ multi-link 2 master cable (V6-MLT) for connection between the master station (Local Port 1) and the slave station (Local Port 2).
Page 15 1. Before Connecting to PLC n : 1 Connection (Multi-link) Outline • One PLC is connected to multiple V7 series. (Maximum connectable V series: 31) V7 series No. 1 V7 series No. 2 V7 series No. 3 V7 series No. “n” (n = 1 to 31)
Page 16: Interface
1. Before Connecting to PLC Interface CN1 (D-sub 25-pin) (V7 series and V706 + DU-01) CN1 (D-sub 25-pin, female) Pin No. Signal Name Contents Frame ground RS-232C send data RS-232C receive data RS-232C RS request to send RS-232C CS clear to send Not used Signal ground Not used...
Page 17 1. Before Connecting to PLC MJ2 (V706 only) Pin No. Signal Name Contents Not used Not used RS-422 + send data Not used Not used −SD RS-422 − send data 1 2 3 4 5 6 7 8 Externally supplied +5 V +5 V Max.
Page 18 One method uses an adaptor MJ2-PLC for connection between MJ2 and the D-sub 25-pin connector plus a PLC communication cable. For connection of a PLC communication cable, refer to the CN1 pin arrangement. Example: Connecting to MITSUBISHI A1SJ71UC24-R2 V series PLC communication cable D-sub 25-pin (male) D-sub 9-pin (male) MJ2-PLC •...
Page 19: Wiring (1 : 1 Connection)
The metal shell of the modular jack 2 on the V706 is used as SG (signal ground). Connect the shielded cable to the metal shell of modular jack 2. • Twisted pairs of 0.3 mm sq. or above are recommended. V706 V Series RJ-45 8-pin D-sub 25-pin (male) To the PLC’s RS-232C port...
Page 20 The metal shell of the modular jack 2 on the V706 is used as SG (signal ground). Connect the shielded cable to the metal shell of modular jack 2. • To use a terminal block for connection, use Hakko Electronics’ “TC485” optionally available. When using TC485 on the V706, the option unit DU-01 must be installed.
Page 21: V-Sft Setting (1 : 1 Connection)
1-10 1. Before Connecting to PLC V-SFT Setting (1 : 1 Connection) For serial communications, the following settings on the V-SFT editor are required. The settings in the [Select PLC Type] and [Comm. Parameter] dialogs are shown on the Main Menu screen of the V7 series.
Page 22 1-11 1. Before Connecting to PLC Choose the action to be taken against communication errors. [Comm. Err. 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).
Page 23 1-12 1. Before Connecting to PLC System Memory [Read Area] and [Write Area] must be secured for communications between the V7 series and the PLC. • Setting Procedure [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.
Page 24 1-13 1. Before Connecting to PLC • SCRN_No. (n + 2) Screen number command 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 Screen number System reserved (setting [0]) Use example: To specify a screen number from the PLC: When “D0”...
Page 25 1-14 1. Before Connecting to PLC [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.
Page 26: Allen-Bradley Plc
2. Allen-Bradley PLC Allen-Bradley PLC Available PLCs Select PLC Type Unit/Port Connection 1785-KE RS-232C [Wiring Diagram 1] PLC-5 PLC-5 RS-232C [Wiring Diagram 2] 1770-KF2 RS-422 [Wiring Diagram 6] CPU (processor module) RS-232C [Wiring Diagram 3] RS-232C channel SLC500 SLC 5/03 and later RS-232C [Wiring Diagram 4] 1747-KE RS-422...
Page 27: Available Memory
2. Allen-Bradley PLC SLC500 Series Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port Parity Even Even − − RS-232C Transmission mode − RS-422 Channel 0 not supported Data length Transmission code Stop bit −...
Page 28: Plc-5 Series: Switch Setting
2. Allen-Bradley PLC SLC500 Series, Micro Logix 1000 Memory TYPE Remarks (integer) (bit) T.ACC (timer/current value) T.PRE (timer/set value) C.ACC (counter/current value) C.PRE (counter/set value) (input) (output) (status) (timer/control) (counter/control) (control) R.LEN (control/data length) R.POS (control/data position) (BCD) (ASCII) (FLOAT) (STRING) PLC-5 Series: Switch Setting 1785-KE...
Page 29 2. Allen-Bradley PLC SW3 (Network link communication speed) Adjust to the settings of the network you are using. Setting Contents Data highway (57.6 kbps) Link communication speed (19.2 kbps) Local/remote selection SW4 (Reserved) Setting Contents For extension, always OFF 1770-KF2 SW1 (Protocol) Setting Contents...
Page 30: Slc500 Series, Micro Logix 100: Transmission Parameter Setting
2. Allen-Bradley PLC SW7 (Network link selection) Switch Setting Contents Peer transmission link SW8 (RS-232C/RS-422 selection) Switch Setting Contents RS-232C RS-422 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.
Page 31: Wiring
2. Allen-Bradley PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 15-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 32 2. Allen-Bradley PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) D-sub 9-pin (female) Signal Signal Pin No. Pin No. Pin No. Name Name SHELL *1 Pin No. 1 of CN1 is used as FG. The metal shell of the modular jack 2 on the * Use shielded twist-pair cables.
Page 33 2. Allen-Bradley PLC Wiring Diagram 5 V706 V Series D-sub 9-pin (male) RJ-45 8-pin D-sub 25-pin (male) Signal Signal Pin No. Pin No. Pin No. Name Name SHELL A•B’s RS-232C Ladder transfer Micro cable Logix 1000 *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 34 2. Allen-Bradley PLC Wiring Diagram 7 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name RXD+ TXD+ *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 35 2-10 2. Allen-Bradley PLC Please use this page freely.
Page 36: Automationdirect Plc
3. Automationdirect PLC Automationdirect PLC Available PLCs Select PLC Type Unit/Port Connection D4-430 RS-232C [Wiring Diagram 1] D4-440 Port 1 on a CPU unit RS-422 [Wiring Diagram 5] Direct LOGIC D4-450 Port 3 on a CPU unit RS-485 [Wiring Diagram 6] Port 2 on a CPU unit RS-232C [Wiring Diagram 2] D2-240...
Page 37: Available Memory
(global inputs) (global outputs) (timer/contact) (counter/contact) Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No.
Page 38 3. Automationdirect PLC Wiring Diagram 2 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Modular connector 6-pin Name Signal Pin No. SHELL Name 654321 *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 39 3. Automationdirect PLC Wiring Diagram 4 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 15-pin (male) Name Signal Pin No. SHELL Name * Use shielded twist-pair cables. *1 Pin No. 1 of CN1 is used as FG.
Page 40 3. Automationdirect PLC Wiring Diagram 6 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name TXD3+ TXD3− RXD3+ RXD3− In case SU-6M, it is possible *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 41 3. Automationdirect PLC Please use this page freely.
Page 42: Baldor Plc
4. Baldor PLC Baldor PLC Available PLCs Select PLC Type Unit/Port Connection NextMove (Comms Data Array) Mint RS-232C [Wiring Diagram 1] Optimum (Comms Data Array) Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 43: Wiring
4. Baldor PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (female) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 44: Delta Plc
5. DELTA PLC DELTA PLC Available PLCs Select PLC Type Unit/Port Connection DVP series DVP series RS-485 Communication port RS-485 [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 45: Wiring
5. DELTA PLC Wiring Wiring diagram with the PLC is shown below. RS-485 Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name SHELL * Use shielded twist-pair cables. *1 Pin No. 1 of CN1 is used as FG.
Page 46: Fanuc Plc
6. FANUC PLC FANUC PLC Available PLCs Select PLC Type Unit/Port Connection Power Mate-Model H/D Port on the CPU unit (JD14) RS-422 [Wiring Diagram 2] Power Mate JD42 RS-232C [Wiring Diagram 1] Power Mate i Model H/D JD40 RS-422 [Wiring Diagram 3] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item...
Page 47: Wiring
6. FANUC PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal JD42 Pin No. Pin No. Name Half-pitch 20-pin Signal SHELL Pin No. Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 48 6. FANUC PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) JD40 Signal Pin No. Pin No. Half-pitch 20-pin Name Signal SHELL Pin No. Name *RXD *TXD *1 Pin No. 1 of CN1 is used *RTS as FG.
Page 49 6. FANUC PLC Please use this page freely.
Page 50: Fatek Automation Plc
7. FATEK AUTOMATION PLC FATEK AUTOMATION PLC Available PLCs Select PLC Type Unit/Port Connection RS-232 [Wiring Diagram 1] FACON FB series FACON FB series FB-DTBR [Wiring Diagram 2] RS-422 [Wiring Diagram 3] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 51: Wiring
7. FATEK AUTOMATION PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 15-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name RXD1...
Page 52 7. FATEK AUTOMATION PLC RS-422 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables. as FG.
Page 53 7. FATEK AUTOMATION PLC Please use this page freely.
Page 54: Fuji Electric Plc
SPB (N Mode) & NJRS-2 RS-232C [Wiring Diagram 1] FLEX-PC series NJ-T NJRS-4 RS-485 [Wiring Diagram 3] RS-485 Hakko Electronics’ cable FLEX-PC CPU port SPB (N Mode) & “FU-CPUNS” FLEX-PC CPU NJ-B16 RS-232C port RS-232C [Wiring Diagram 2] FLEX-PC COM(T)
Page 55: Micrex-F Series, Spb (N Mode) & Flex-Pc Series: Switch Setting
8. Fuji Electric PLC FLEX-PC COM (T) (NJ Computer Link) Toyota Version Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port Parity Even Even Data length Transmission code Stop bit MICREX-F Series, SPB (N Mode) & FLEX-PC Series: Switch Setting MODE switch: RS-232C: 1 RS-485: 3 “0”...
Page 56: Available Memory
8. Fuji Electric PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 57 8. Fuji Electric PLC SPB (N Mode) & FLEX-PC Series, SPB (N Mode) & FLEX-PC CPU Port Standard Memory Toyota Version TYPE Remarks (data register) (link register) (internal relay) WM as word device (latch relay) WL (WK) as word device (input relay) WX as word device (output relay)
Page 58: Wiring
8. Fuji Electric PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 59 8. Fuji Electric PLC RS-485 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables. as FG.
Page 60: Ge Fanuc Plc
9. GE Fanuc PLC GE Fanuc PLC Available PLCs Select PLC Type Unit/Port Connection RS-232C [Wiring Diagram 1] 90 series Series 90-30 Programmable coprocessor (PCM) RS-485 [Wiring Diagram 2] Series 90 micro 90 series (SNP-X) CPU port RS-485 [Wiring Diagram 3] Series 90-30 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows:...
Page 61: Available Memory
9. GE Fanuc PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 62: Wiring
9. GE Fanuc PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name * Use shielded twist-pair cables.
Page 63 9. GE Fanuc PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 15-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name RTS(A) CTS(B’) RD(A’) *1 Pin No. 1 of CN1 is used RD(B’)
Page 64: Hitachi Plc
10-1 10. Hitachi PLC Hitachi PLC Available PLCs Select PLC Type Unit/Port Connection RS-232C [Wiring Diagram 1] COMM-2H RS-422 [Wiring Diagram 4] Peripheral port 1 on the CPU module RS-232C [Wiring Diagram 1] HITACHI’s EH-RS05 cable EH150 RS-232C [Wiring Diagram 1] HIDIC-H HIDIC H series PERIPHERAL 1...
Page 65: Hidic-H: Switch Setting
10-2 10. Hitachi PLC CPU Module The peripheral port setting should be “transmission control protocol 1 without port.” No other setting is available. HIDIC-S10α Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps HIDIC-H: Switch Setting Baud rate: 19200 bps MODE switch: To connect to both RS-232C and RS-422, set MODE switch to 9.
Page 66 10-3 10. Hitachi PLC HIDIC-S10/2α Memory TYPE Remarks (work register) (input relay) XW as word device (output relay) YW as word device (internal relay) RW as word device (global link) GW as word device (keep relay) KW as word device (on-delay timer contact) TW as word device (one-shot timer contact)
Page 67: Wiring
10-4 10. Hitachi PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V Series D-sub 25-pin (male) Signal Pin No. D-sub 15-pin (male) Name Signal Pin No. Name PV12 * Use shielded twist-pair cables. Wiring Diagram 2...
Page 68 10-5 10. Hitachi PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) D-sub 9-pin (female) Signal Signal Pin No. Pin No. Pin No. Name Name SHELL *1 Pin No. 1 of CN1 is used as FG. The metal shell of the modular jack 2 on the * Use shielded twist-pair cables.
Page 69 10-6 10. Hitachi PLC Wiring Diagram 5 When connecting to the S10xα series, add a resistor of 50 Ω (1/2 W) as shown below. V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL...
Page 70: Idec Plc
11-1 11. IDEC PLC IDEC PLC Available PLCs Select PLC Type Unit/Port Connection RS-232C IDEC cable “FC2A-KC1” MICRO3 MICRO3 Loader port IDEC cable “FC2A-KC1” * + [Wiring Diagram 1] RS-232C MICRO Smart MICRO Smart Loader port IDEC cable “FC2A-KC4C” + [Wiring Diagram 1] * When using RS-232C cable “FC2A-KC2”...
Page 71: Wiring
11-2 11. IDEC PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series D-sub 9-pin (male) RJ-45 8-pin D-sub 25-pin (male) Signal Signal Pin No. Pin No. Pin No. Name Name SHELL *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 72: Keyence Plc
RS-232C [Wiring Diagram 2] RS-422 [Wiring Diagram 6] RS-232C [Wiring Diagram 3] RS-422 KZ-A500CPU CPU modular port KEYENCE’s cable “KZ-C20” Hakko Electronics’ cable “MB-CPUQ” KZ-A500 Port 1 RS-232C [Wiring Diagram 4] MITSUBISHI A series Port 2 KZ-L10 link RS-232C [Wiring Diagram 2]...
Page 73: Communication Setting
12-2 12. KEYENCE PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: KZ Series Link Item Setting on PLC V7 Comm. Parameter Setting Port Baud rate 19200 bps 19200 bps Parity Even Even Data length...
Page 74 12-3 12. KEYENCE PLC KV-700 CPU Item Setting on PLC V7 Comm. Parameter Setting Port 9600 bps 9600 bps Baud rate − Parity Even − Data length Transmission code − Stop bit Maximum baud rate available is 57600 bps. Select the appropriate baud rate depending on the used PLC and environment.
Page 75: Available Memory
12-4 12. KEYENCE PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 76: Wiring
12-5 12. KEYENCE PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 77 12-6 12. KEYENCE PLC Wiring Diagram 3 V706 V Series Modular Connector 6-pin RJ-45 8-pin D-sub 25-pin (male) Signal Signal Pin No. Pin No. Pin No. Name Name SHELL 1 2 3 4 5 6 *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 78 12-7 12. KEYENCE PLC Wiring Diagram 5 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Modular jack, 6-pin Name Signal Pin No. SHELL Name 1 2 3 4 5 6 *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 79 12-8 12. KEYENCE PLC Please use this page freely.
Page 80: Koyo Electronics Plc
13-1 13. KOYO ELECTRONICS PLC KOYO ELECTRONICS PLC Available PLCs Select PLC Type Unit/Port Connection RS-232C [Wiring Diagram 1] SU-5/5E/6B/5M/6M U01-DM RS-422 [Wiring Diagram 3] SU-5E/6E RS-232C [Wiring Diagram 1] Universal port 1 on CPU RS-422 [Wiring Diagram 7] SU-5M/6M Universal port 3 on CPU RS-485 [Wiring Diagram 8]...
Page 81: Communication Setting
13-2 13. KOYO ELECTRONICS PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps [0] × 10, [1] × 1 Port Parity Data length...
Page 82 13-3 13. KOYO ELECTRONICS PLC Switch Setting U-01DM On-line/Off-line switch: On-line “0” for ×10, “1” for ×1 UNIT ADR switch: SW4 DIP switch: Setting Contents Same as that set on V7 Normally 19200 bps With parity Self-diagnosis Response delay time 0 msec SW5 DIP switch: Setting...
Page 83 13-4 13. KOYO ELECTRONICS PLC G-01DM On-line/Off-line switch: On-line Short plug 1: open Short plug 2: RS-232C ..ENABLE RS-422 ..DISENABLE SW1 DIP switch: Setting Contents Unit No. 1 1 : N Slave SW2 DIP switch: Setting...
Page 84: Wiring
13-5 13. KOYO ELECTRONICS PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No.
Page 85 13-6 13. KOYO ELECTRONICS PLC RS-422 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name +RTS −RTS +CTS −CTS *1 Pin No. 1 of CN1 is used +OUT as FG.
Page 86 13-7 13. KOYO ELECTRONICS PLC Wiring Diagram 5 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name * Use shielded twist-pair cables. *1 Pin No. 1 of CN1 is used as FG.
Page 87 13-8 13. KOYO ELECTRONICS PLC Wiring Diagram 7 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name RXD+ CTS1+ TXD1+ *1 Pin No. 1 of CN1 is used TXD1 as FG.
Page 88: Lg Plc
14-1 14. LG PLC LG PLC Available PLCs Select PLC Type Connection MASTER-K10/60/200 K10/60/200 RS-232C [Wiring Diagram 1] RS-232C [Wiring Diagram 2] MASTER-K500/1000 K500/1000 RS-422 [Wiring Diagram 6] MASTER-KxxxS K200S/K300S/K1000S CPU port RS-232C [Wiring Diagram 3] MASTER-KxxxS CNET K4F-CUEA RS-232C [Wiring Diagram 4] RS-422 [Wiring Diagram 7]...
Page 89 14-2 14. LG PLC MASTER-KxxxS CNET / GLOFA CNET / GM Series CPU Item Setting on PLC V7 Comm. Parameter Setting Baud rate 38400 bps 38400 bps Parity Not provided Not provided Data length Transmission code Stop bit Available Memory The available memory setting range varies depending on the PLC model.
Page 90 14-3 14. LG PLC MASTER-KxxxS Memory TYPE Remarks (input/output relay) Input: Read only (auxiliary relay) (link relay) (keep relay) (special relay) Read only (timer/current value) (counter/set value) (data register) (timer/contact) (counter/contact) MASTER-KxxxS CNET Memory TYPE Remarks (input/output relay) PW as word device, input: read only (auxiliary relay) MW as word device (link relay)
Page 91: Wiring
14-4 14. LG PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 92 14-5 14. LG PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 93 14-6 14. LG PLC Wiring Diagram 5 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 94 14-7 14. LG PLC Wiring Diagram 7 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables. as FG. The metal shell of the modular jack 2 on the V706 is used as SG.
Page 95 14-8 14. LG PLC Please use this page freely.
Page 96: Matsushita Electric Works Plc
15-1 15. Matsushita Electric Works PLC Matsushita Electric Works PLC Available PLCs Select PLC Type Unit/Port Connection PLC2Way RS-232C port on the CPU unit RS-232C [Wiring Diagram 1] AFP3462 RS-232C [Wiring Diagram 1] AFP3463 RS-422 [Wiring Diagram 4] AFP5462 RS-232C [Wiring Diagram 1] RS-232C tool port on the CPU unit RS-232C [Wiring Diagram 1] FP10...
Page 97: Available Memory
15-2 15. Matsushita Electric Works PLC MEWNET: Link Unit Switch Setting Switch Setting Contents Same as that set on V7 (normally 19200 bps) Data length: 7 bits With parity Even Stop bit 1 CS, CD invalid Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used.
Page 98: Wiring
15-3 15. Matsushita Electric Works PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No.
Page 99 15-4 15. Matsushita Electric Works PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables. as FG.
Page 100: Mitsubishi Electric Plc
QJ71C24 Q00, Q01, Q00J RS-422 [Wiring Diagram 5] QnH (Q) series link RS-232C Hakko Electronics’ cable Q00, Q01 Tool port “QCPU2” A link + Net10 Standard type link +unit for A series link For more information on A link + Net10, refer to page 16-13.
Page 101 Unit/Port Connection PLC2Way A2A, A3A A2U, A3U, A4U A2US(H) A1N, A2N, A3N RS-422 A3V, A73 A series CPU Hakko Electronics’ cable A3H, A3M “MB-CPUQ” Tool port A0J2H A1S(H), A1SJ(H), A2S(H) [Wiring Diagram 7] A2CCPUC24 A1FX Q2A, Q3A, Q4A QnA series CPU...
Page 102: Communication Setting
16-3 16. MITSUBISHI ELECTRIC PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: A Series Link Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps 0 for both stations ×10, ×1 Port Parity Even...
Page 103 16-4 16. MITSUBISHI ELECTRIC PLC Be sure to check these boxes. Set the V7 communication parameters as shown in this box. A Series CPU, QnA Series CPU Communication parameters for the V7 series are automatically set. QnH (A) Series CPU, QnH (Q) Series CPU, Q00J/00/01 CPU Communication parameters for the V7 series except the baud rate are automatically set.
Page 104: A Series Link, Qna Series Link: Switch Setting
16-5 16. MITSUBISHI ELECTRIC PLC A Series Link, QnA Series Link: Switch Setting The following is an example that shows the settings for both rotary DIP switches and DIP switches on the PLC. AJ71UC24 Example 1 Signal level: RS-232C, baud rate: 19200 bps, transmission mode 1 STATION No STATION No MODE...
Page 105: Available Memory
16-6 16. MITSUBISHI ELECTRIC PLC A1SJ71UC24-R4, A1SJ71C24-R4 Example 4 Signal level: RS-422, baud rate: 19200 bps, transmission mode 1 STATION No STATION No MODE ´ ´ B C D E B C D E B C D E SW01 SW02 SW03 SW04 SW05...
Page 106 16-7 16. MITSUBISHI ELECTRIC PLC FX Series, FX1S Series Memory TYPE Remarks (data register) (timer/current value) (counter/current value) 32CN (counter 32 bits) (internal relay) (state) (input relay) Read only (output relay) (timer/contact) (counter/contact) (file register) For numerical data format where double-words can be used (Num. Data Display, Graph, Sampling), data is processed as double-words.
Page 107: Wiring
For output “0” is written for upper 16 bits. Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No.
Page 108 16-9 16. MITSUBISHI ELECTRIC PLC Wiring Diagram 2 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 109 16-10 16. MITSUBISHI ELECTRIC PLC Wiring Diagram 4 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 110 16-11 16. MITSUBISHI ELECTRIC PLC Wiring Diagram 6 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal SHELL Pin No. Name DSRA DTRA *1 Pin No. 1 of CN1 is used as FG.
Page 111 • In consideration of such noise problems, it is recommended that the standard type link unit be used when the cable length of 15 m or longer is required. Wiring Diagram 8 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No.
Page 112: A Link + Net10
16-13 16. MITSUBISHI ELECTRIC PLC 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.
Page 113 16-14 16. MITSUBISHI ELECTRIC PLC • Network specifying macro....[OUT_ENQ] of system call [SYS] F1 memory n + 0 Always 0 n + 1 Network selection: 2 n + 2 System code n + 3 Network number “n + 0” and “n + 1” are fixed to “0” and “2”, respectively. “n + 2”...
Page 114: Applicable Models
16-15 16. MITSUBISHI ELECTRIC PLC 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 programming port. MITSUBISHI A/QnA/FX series A6GPP, A7PHP, computer, etc. When connecting to the CPU of the MITSUBISHI A/QnA series: Insert the connector on the backside into the CPU port...
Page 115 • When connecting the V7 series (CN1) to the PLC (CPU port), use a 1 : 1 communication cable as previously described. • Use Hakko Electronics’ V6-CP cable when connecting the computer (PLC programming software) and the V7 series (MJ1/2).
Page 116 16-17 16. MITSUBISHI ELECTRIC PLC Settings and Communications 1. PLC type setting Select [PLC Type] from the [System Setting] menu. Select a type adapted to the ladder transfer function in the [Select PLC Type] dialog. 2. PLC programming software port setting Select [Modular Jack] from the [System Setting] menu.
Page 117 16-18 16. MITSUBISHI ELECTRIC PLC - Enabling V-SFT communications manually Hold down the F2 switch for three seconds. [Editor: ...] changes to [Editor: MJ1] and communications with the V-SFT editor become Main Menu V 7 1 0 i T D 2002-4 -1 07:23:30 System Information...
Page 118 16-19 16. MITSUBISHI ELECTRIC PLC Notes on Ladder Transfer Function 1. When [Ladder Tool] is selected for a modular jack, monitor registration on the PLC is prohibited so that the screen display speed becomes slower than usual during communications between the V7 series and the PLC even if the PLC programming software is not started.
Page 119 16-20 16. MITSUBISHI ELECTRIC PLC Please use this page freely.
Page 120: Modicon Plc
17-1 17. MODICON PLC MODICON PLC Available PLCs Select PLC Type Unit/Port Connection Modbus RTU Modbus RTU Modbus RS-232C [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 121: Wiring
17-2 17. MODICON PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal SHELL Pin No. Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 122: Moeller Plc
18-1 18. MOELLER PLC MOELLER PLC Available PLCs Select PLC Type Connection RS-232C [Wiring Diagram 1] PS4-201-MM1 (PRG port) ZB4-303-KB1 Cable made by MOELLER Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 123: Wiring
18-2 18. MOELLER PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 124: Omron Plc
19-1 19. OMRON PLC OMRON PLC Available PLCs Select PLC Type Unit/Port Connection PLC2Way CPU unit with built-in port C20H,C28H,C40H RS-232C [Wiring Diagram 1] (host link port) C120, C120F RS-232C [Wiring Diagram 3] C200H C120-LK201-V1 C500, C500F C120-LK202-V1 C1000H RS-422 [Wiring Diagram 4] C2000, C2000H C200H...
Page 125: Communication Setting
19-2 19. OMRON PLC Select PLC Type Unit/Port Connection PLC2Way CPU unit (RS-232C port) CS1W-SCU21 RS-232C [Wiring Diagram 2] Mounted on the CPU slot (CS1W-SCB21) SYSMAC CS1/CJ1 Mounted on the CPU slot SYSMAC CS1/CJ1 RS-422 [Wiring Diagram 7] (CS1W-SCB41) CPU unit with built-in port RS-232C [Wiring Diagram 2] (host link port) CJ1H, CJ1M...
Page 126: Available Memory
19-3 19. OMRON PLC Example: PLC Memory Indication on V7 0000 to 9999 0 to 9999 −1 to −999 F001 to F999 −1000 to −1999 A000 to A999 00000000 to 99999999 0 to 99999999 −1 to −9999999 F0000001 to F9999999 −10000000 to −19999999 A0000000 to A9999999 •...
Page 127: Wiring
Colon Bank number Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No.
Page 128 19-5 19. OMRON PLC Wiring Diagram 2 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No. SHELL Name * Use shielded twist-pair cables. *1 Pin No. 1 of CN1 is used as FG.
Page 129 19-6 19. OMRON PLC RS-422 Wiring Diagram 4 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 130 19-7 19. OMRON PLC Wiring Diagram 6 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name *1 Pin No. 1 of CN1 is used as FG. The metal shell of the * Use shielded twist-pair cables.
Page 131: Sysmac Cs1/Cj1 Dna
19-8 19. OMRON PLC SYSMAC CS1/CJ1 DNA When connecting the V7 series to CS1/CJ1 on a network (Controller Link), the V7 series can also access another CS1 on the network. (2-2) (1-2) Network No. 1 Network No. 2 (1-3) (2-1) (2-3) (1-1) (2-4)
Page 132: Saia Plc
20-1 20. SAIA PLC SAIA PLC Available PLCs Select PLC Type Unit/Port Connection PGU port RS-232C [Wiring Diagram 1] PCD1 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 are as follows: Item Setting on PLC V7 Comm.
Page 133: Wiring
20-2 20. SAIA PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name PGU port Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 134 20-3 20. SAIA PLC RS-485 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. PCD7.F110 Name Signal SHELL Pin No. Name T/R+ T/R− *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 135 20-4 20. SAIA PLC Please use this page freely.
Page 136: Samsung Plc
21-1 21. SAMSUNG PLC SAMSUNG PLC Available PLCs Select PLC Type Connection RS-232C [Wiring Diagram 1] SPC series SPC series RS-422/485 [Wiring Diagram 2] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 137: Wiring
21-2 21. SAMSUNG PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name * Use shielded twist-pair cables.
Page 138: Sharp Plc
22-1 22. SHARP PLC SHARP PLC Available PLCs Select PLC Type Unit/Port Connection PLC2Way JW50, JW70, JW100 ZW-10CM JW50H, JW70H RS-422 [Wiring Diagram 4] JW-10CM JW100H JW series JW20 JW-21CM RS-422 [Wiring Diagram 4] JW-31CUH JW100/70H JW70CU/JW100CU RS-232C [Wiring Diagram 1] Communication port on the COM port JW70CUH, JW100CUH...
Page 139: Jw100/70H Com Port, Jw20 Com Port: System Memory Setting
22-2 22. SHARP PLC JW100/70H COM Port, JW20 COM Port: System Memory Setting The settings for communications with the V7 series should be made at the system memory as shown below. • JW-70CU/100CU, JW70CUH/100CUH, JW22CU System Memory Setting Contents #236 Stop bit: 2 bits, parity: even, baud rate: 19200 #237 Port...
Page 140: Wiring
22-3 22. SHARP PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 15-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 141 22-4 22. SHARP PLC RS-422 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 15-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name +TXD −TXD +RXD −RXD *1 Pin No. 1 of CN1 is used as FG.
Page 142: Shinko Electric Plc
23-1 23. SHINKO ELECTRIC PLC SHINKO ELECTRIC PLC Available PLCs Select PLC Type Unit/Port Connection SELMART SELMART-100 and later RS-232C [Wiring Diagram 1] Version 01M2-UCI-6 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 143: Wiring
23-2 23. SHINKO ELECTRIC PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No.
Page 144: Siemens Plc
24-1 24. Siemens PLC Siemens PLC Available PLCs Select PLC Type Unit/Port Connection S5-90U CP-521SI S5-95U RS-232C [Wiring Diagram 1] (3964R Transmission Protocol) S5-100U S5-115U RS-232C [Wiring Diagram 1] CP-524 (3964R/RK512) (S5 V4) S5-135U CP-544 (3964R/RK512) RS-422 [Wiring Diagram 6] S5-155U Second serial interface SIEMENS’s...
Page 145 24-2 24. Siemens PLC S5, S5 V4 (S5-115U, S5-135U, S5-155U), S7 (S7-300, S7-400) Item Setting on PLC V7 Comm. Parameter Setting Baud rate 9600 bps 9600 bps − Parity Even (fixed) − Data length 8 (fixed) Transmission code − Stop bit 1 (fixed) S5 PG Port Communication parameters are automatically set.
Page 146 24-3 24. Siemens PLC S7-300MPI (HMI ADP, PC ADP, Helmholz SSW7 ADP) V7 Comm. Parameter Setting Item Setting on PLC PC ADP HMI ADP Helmholz SSW7 ADP Baud rate 38400 bps 38400 bps (fixed) 38400 bps − Parity Odd (fixed) −...
Page 147: Available Memory
24-4 24. Siemens PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 148 24-5 24. Siemens PLC S5 PG Port Memory TYPE Remarks (data register) Use memory address DB3 and later. (input relay) IW as word device (output relay) QW as word device (flag/internal relay) FW as word device (timer/current value) (counter/current value) (absolute address) The assigned memory is indicated when editing the screen as Example: DB003 000...
Page 149 24-6 24. Siemens PLC TI500/505 (TI500/505 V4) Memory TYPE Remarks (variable memory) (word input) (word output) (discrete input) (discrete output) (control relay) (timer, counter/set value) (timer, counter/current time) (drum count/set value) (drum count/current value) Read only (drum step/set value) (drum step/current value) (fixed memory) (system state) In case of using DCP (drum count/set value), set drum step...
Page 150: Wiring
24-7 24. Siemens PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 151 24-8 24. Siemens PLC Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 25-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name 6ES5 734-1BD20 S5-95U *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 152 24-9 24. Siemens PLC Wiring Diagram 5 V Series HMI Adaptor D-sub 25-pin (male) PC Adaptor Helmholz Adaptor Signal D-sub 9-pin (female) Pin No. Name Signal Pin No. Name * Use shielded twist-pair cables. RS-422 Wiring Diagram 6 V706 V Series...
Page 153 V706 is used as SG. • Terminating Resistance Setting Set the DIP switch 7 of the V series (for V706: No. 3) to the OFF position. Connect terminating resistance to the serial connector of the V series as shown below.
Page 154 24-11 24. Siemens PLC Wiring Diagram 8 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name * Use shielded twist-pair cables. *1 Pin No. 1 of CN1 is used as FG.
Page 155 24-12 24. Siemens PLC Please use this page freely.
Page 156: Taian Plc
25-1 25. TAIAN PLC TAIAN PLC Available PLCs Select PLC Type Unit/Port Connection Communication Port (T/R+, T/R−) RS-422 [Wiring Diagram 1] TP02 TP02 MMI Port (9-pin) RS-422 [Wiring Diagram 2] (4-5 Short Computer Link Mode) Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 157: Wiring
25-2 25. TAIAN PLC Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name SHELL Signal Name T/R+ SHLD *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 158: Telemecanique Plc
26-1 26. Telemecanique PLC Telemecanique PLC Available PLCs Select PLC Type Connection TSX Micro TSX Micro RS-485 [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 159: Wiring
26-2 26. Telemecanique PLC Wiring Wiring diagram with the PLC is shown below. RS-485 Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name MiniDIN 9-pin (male) SHELL Signal Pin No. Name D−...
Page 160: Toshiba Plc
27-1 27. TOSHIBA PLC TOSHIBA PLC Available PLCs Select PLC Type Unit/Port Connection T series T series Computer link port on CPU RS-422 [Wiring Diagram 1] EX series EX100, 250, 500 Computer link port on CPU RS-422 [Wiring Diagram 2] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: T Series...
Page 161: Available Memory
27-2 27. TOSHIBA PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 162: Wiring
27-3 27. TOSHIBA PLC Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name D-sub 15-pin (male) SHELL Signal Pin No. Name CTSA RTSA *1 Pin No.
Page 163 27-4 27. TOSHIBA PLC Please use this page freely.
Page 164: Toshiba Machine Plc
28-1 28. TOSHIBA MACHINE PLC TOSHIBA MACHINE PLC Available PLCs Select PLC Type Unit/Port Connection Port on the CPU unit TC200 TCCMW TC200 RS-232C [Wiring Diagram 1] TCCMO − TCmini Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 165: Wiring
28-2 28. TOSHIBA MACHINE PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (female) Name Signal Pin No. SHELL Name *1 Pin No.
Page 166: Toyoda Machine Works Plc
29-1 29. Toyoda Machine Works PLC Toyoda Machine Works PLC Available PLCs Select PLC Type Unit/Port Connection L2/PC2 series TOYOPUC CMP-LINK RS-422 [Wiring Diagram 1] PC3J Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 167: Available Memory
29-2 29. Toyoda Machine Works PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 168: Wiring
29-3 29. Toyoda Machine Works PLC Wiring Wiring diagram with the PLC is shown below. RS-422 Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name * Use shielded twist-pair cables.
Page 169 29-4 29. Toyoda Machine Works PLC Please use this page freely.
Page 170: Vigor Plc
30-1 30. VIGOR PLC VIGOR PLC Available PLCs Select PLC Type Unit/Port Connection RS-232C [Wiring Diagram 1] M series M1-CPU1 COM PORT RS-485 [Wiring Diagram 2] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 171: Wiring
30-2 30. VIGOR PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 172: Yamatake Plc
31-1 31. Yamatake PLC Yamatake PLC Available PLCs Select PLC Type Unit/Port Connection MX series MX200/MX50 ASCII connector RS-232C [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: Item Setting on PLC V7 Comm.
Page 173: Wiring
31-2 31. Yamatake PLC Wiring Wiring diagram with the PLC is shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 174: Yaskawa Electric Plc
32-1 32. Yaskawa Electric PLC Yaskawa Electric PLC Available PLCs Select PLC Type Unit/Port Connection JAMSC-IF60 JAMSC-IF61 RS-232C [Wiring Diagram 1] JAMSC-IF611 GL60 series JAMSC-IF612 RS-422 [Wiring Diagram 5] JAMSC-IF613 Memobus Memobus port on the CPU module RS-232C [Wiring Diagram 1] GL120 GL130 series JAMSC-120NOM27100...
Page 175: Available Memory
32-2 32. Yaskawa Electric PLC CP9200SH/MP900 Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port Parity Even Even Data length Transmission code Stop bit − Error check CRC (fixed) − Port delay timer 0 (fixed) Available Memory The available memory setting range varies depending on the PLC model.
Page 176: Wiring
32-3 32. Yaskawa Electric PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No.
Page 177 32-4 32. Yaskawa Electric PLC Wiring Diagram 3 V706 V Series CP217IF(CN1) RJ-45 8-pin D-sub 25-pin (male) 217IF(CN1/2) Signal Pin No. Pin No. D-sub 9-pin (male) Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used as FG.
Page 178 32-5 32. Yaskawa Electric PLC RS-422 Wiring Diagram 5 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal D-sub 9-pin (male) Pin No. Pin No. Name Signal SHELL Pin No. Name TXD+ RXD+ *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 179 32-6 32. Yaskawa Electric PLC Wiring Diagram 7 V706 V Series RJ-45 8-pin D-sub 25-pin (male) CP217IF (CN3) Signal MR-8 (male) Pin No. Pin No. Name Signal Pin No. SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables.
Page 180: Yokogawa Electric Plc
33-1 33. Yokogawa Electric PLC Yokogawa Electric PLC Available PLCs Select PLC Type Unit/Port Connection PLC2Way LC01-0N RS-232C [Wiring Diagram 1] FA500 FA500 RS-232C [Wiring Diagram 1] LC02-0N RS-422 [Wiring Diagram 3] Programming tool port on the YOKOGAWA’s ladder transfer CPU module cable “KM11-2N”...
Page 181 33-2 33. Yokogawa Electric PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows: FA500 Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port Parity Even Even Data length Transmission...
Page 182 33-3 33. Yokogawa Electric PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 183 33-4 33. Yokogawa Electric PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. D-sub 25-pin (male) Name Signal Pin No. SHELL Name *1 Pin No.
Page 184 33-5 33. Yokogawa Electric PLC RS-422 Wiring Diagram 3 V706 V Series RJ-45 8-pin D-sub 25-pin (male) Signal Pin No. Pin No. Name Signal SHELL Name *1 Pin No. 1 of CN1 is used * Use shielded twist-pair cables. as FG.
Page 185 33-6 33. Yokogawa Electric PLC Please use this page freely.
Page 186 App1-1 Appendix 1 PLC2Way Appendix 1 PLC2Way PLC2Way • The “PLC2Way” function is an original network function where one V7 series can be connected to two PLCs. Even if the manufacturers of these PLCs are not the same, they can be connected to one V7 series.
Page 187: Limitations On Connection At Plc2Way
App1-2 Appendix 1 PLC2Way • With the PLC2Way function, it is possible to communicate with PLCs without special program in the same way as 1 : 1 connection. Two PLCs that are connected to the V7 series are controlled at the same time, and memory read/write operations are available with these two PLCs.
Page 188: Plcs Compatible With Plc2Way Connection At Mj Port
App1-3 Appendix 1 PLC2Way PLCs Compatible with PLC2Way Connection at MJ Port • When connecting the V7 series to the PLC at the MJ port using PLC2Way function, use the RS-232C or RS-485 (RS-422) 2-wire connection. The PLC that allows RS-485 (RS-422) (4-wire) connection only cannot be connected directly.
Page 189: Wiring
Connecting Method 1 (Using MJ-D25) • To connect the PLC and the V7 series at the MJ port, use Hakko Electronics’ MJ to D-sub conversion cable “MJ-D25” (0.3 m, metric thread) and the cable for 1 : 1 connection at CN1.
Page 190 App1-5 Appendix 1 PLC2Way <RS-485 Connection> • Connection example with MITSUBISHI A1SJ71UC24-R4 (1 set) Modular jack, 8-pin Signal Name Pin No. Signal Name (Black) +SD/RD SD/RD (Green) (Red) V6-TMP is connected to FG when the V7 series is used and to SG when the V706 is used.
Page 191: V-Sft Setting: System Setting
App1-6 Appendix 1 PLC2Way For V706: • The terminating resistance should be set on the DIP switch in the side of the unit. • Set DIPSW1 to the ON position. MJ1 (modular jack 1) terminating resistance for RS-485 Side View MJ2 (modular jack 2) SD terminating resistance for RS-422 MJ2 (modular jack 2) RD terminating resistance for RS-422 CF auto load (for USB/DU-01)
Page 192 App1-7 Appendix 1 PLC2Way 3. Select the MJ port. Click the [Refer to Modular] button. The [Modular Jack] dialog is displayed. Select [Temp./PLC2Way] for modular jack 1 or 2 that is used for PLC2Way communication. 4. Select the PLC model to be connected at the MJ port. Click the [Setting] button.
Page 193 App1-8 Appendix 1 PLC2Way 5. Set the parameters for the PLC to be connected at the MJ port. [Baud Rate] (4800, 9600, 19200, 38400, 57600, 115k, bps) Select the communication speed with the PLC connected at the MJ port. [Parity] (None/Odd/Even) Select the parity setting for communications with the PLC connected at the MJ port.
Page 194 App1-9 Appendix 1 PLC2Way Code and Text Processing For the PLC connected at the MJ port, code and text processing cannot be set in the [Temp. Control/PLC2Way Comm. Setting] dialog. • Code (numerical data input format) The code is fixed as shown below. For numerical data, such as those for data displays or data sampling in the sampling mode, BCD or DEC should be chosen for [Input Type].
Page 195: V-Sft Setting
App1-10 Appendix 1 PLC2Way 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. Constant read from the PLC memory When the temperature control network/PLC2Way table is set, the data read from the PLC2 memory can be stored in the PLC memory or the V7 internal memory at regular intervals.
Page 196 App1-11 Appendix 1 PLC2Way 2. Closing Click [Close] in the drop-down menu, or click the [Close] button at the top right corner. 3. Comment setting There are 32 temperature control network/PLC2Way tables and a comment can be set for each table.
Page 197 App1-12 Appendix 1 PLC2Way When (2) is clicked, a data type for the PLC2 memory can be set. [Word] This is the data length setting for the memory address to be used. Numerical data of one word is handled. Data is transferred to the target memory address in the numerical data code of the PLC2 memory.
Page 198 App1-13 Appendix 1 PLC2Way When (3) is double-clicked, the [Temp. CTRL/PLC2Way Table Setting] dialog is displayed. Set the memory addresses of the target PLC memory and target internal memory at one time in the [Temp. CTRL/PLC2Way Table Setting] dialog. [Use Periodical Reading] Check this option when the following operation is required.
Page 199 App1-14 Appendix 1 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 (Refer to page App1-10.) • Buffering area setting • Memory card setting (when [SRAM] or [CF Card] is selected for [Store Target] in the [Buffering Area Setting] dialog) •...
Page 200 App1-15 Appendix 1 PLC2Way 2. Memory card setting When [SRAM] or [CF Card] is selected for [Store Target] in the [Buffering Area Setting] dialog, the memory card setting is required. * The used memory capacity of SRAM and CF card can be calculated in the same way as the buffering area.
Page 201 App1-16 Appendix 1 PLC2Way Data Transfer from the PLC2 Memory Data in the PLC2 memory can be transferred to the PLC memory, V7 internal memory or a memory card at one time. Conversely, it is also possible to transfer data in the PLC memory, V7 internal memory or a memory card to the PLC2 memory at one time.
Page 202: Indirect Memory Designation
App1-17 Appendix 1 PLC2Way Indirect Memory Designation It is possible to have access to the PLC2 memory using the indirect memory designation as a macro command. In this section, the indirect designation of the PLC2 memory is explained. The internal user memory ($u) is used for the indirect memory designation. Designating the indirect memory •...
Page 203: Processing Cycle
App1-18 Appendix 1 PLC2Way Processing Cycle The processing cycle on the V7 series with the PLC2Way function is explained. 1. When the temperature control network/PLC2Way table is not used: PLC data 1 PLC data “n” connected at connected at PLC data 1 PLC data 2 PLC data 3 PLC data “n”...
Page 204: Notes On Screen Data Transfer
App1-19 Appendix 1 PLC2Way Notes on Screen Data Transfer Temperature Control/PLC2 Program When using the temperature control network/PLC2Way communications, it is necessary to transfer the temperature control/PLC2 program to the V7 series. When the temperature control network/PLC2Way setting has been made, the program is automatically transferred to the V7 series together with screen data.
Page 205: System Memory
App1-20 Appendix 1 PLC2Way System Memory The status of the PLC connected at the MJ port for PLC2Way communications is output to the system memory ($s) of the V7 series. The memory addresses ($s729 to 763) of the PLC connected at the MJ port are explained. List Address Contents...
Page 206 App1-21 Appendix 1 PLC2Way Details • $s729 An execution result of macro command TEMP_READ, TEMP_WRITE, or TEMP_CTL is stored at this address. - [0]: A command has been executed successfully. - [Other than “0”]: A command execution has resulted in an error. •...
Page 207 App1-22 Appendix 1 PLC2Way • $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.
Page 208: Appendix
Local port 4 RS-232C RS-422 RS-485 Hakko Electronics’ cable RS-485 connection “V6-MLT” (3 m) On a network with V706 units, a PLC is connected to MJ2 of the master station, the MJ1 of the master station is connected to MJ2 of the slave stations, and the slave stations are connected with each other via MJ2.
Page 209: Wiring
(The connection between the master station and the PLC is the same as the one for 1 : 1 connection.) • Use the RS-485 2-wire connection between stations of the V7 series. Please use Hakko Electronics’ multi-link 2 master cable (V6-MLT) for connection between the master station (local port 1) and the slave station (local port 2).
Page 210 App2-3 Appendix 2 n : 1 Connection (Multi-link 2) * When the terminal converter “TC485” is not used, install jumpers between +RD/+SD and −RD/−SD. V7 master station To be installed by the user V7 slave station V7 slave station V7 slave station MJ1/2 Terminal block CN1 + TC485...
Page 211 App2-4 Appendix 2 n : 1 Connection (Multi-link 2) (d)(e) Connection between terminal blocks Use the RS-485 2-wire connection. V706 master station V706 slave station Signal Pin No. Name Signal SHELL Name Terminating resistance Terminating resistance (ON) (OFF) Terminal block to be installed by the user V706 slave station...
Page 212 App2-5 Appendix 2 n : 1 Connection (Multi-link 2) Terminating Resistance Setting For V7 Series: • The terminating resistance of the V7 series should be set on the DIP switch. MJ2 (modular jack 2) terminating resistance CF auto load CN1 RD terminating resistance at pins 24 and 25 Not used MJ1 (modular jack 1) terminating resistance CN1 SD terminating resistance at pins 12 and 13...
Page 213: V-Sft Setting
App2-6 Appendix 2 n : 1 Connection (Multi-link 2) For V706: • The terminating resistance of the V706 should be set on the DIP switch. MJ1 (modular jack 1) terminating resistance for RS-485 MJ2 (modular jack 2) SD terminating resistance for RS-422 MJ2 (modular jack 2) RD terminating resistance for RS-422 CF auto load (for USB or DU-01) •...
Page 214: Communication Error
App2-7 Appendix 2 n : 1 Connection (Multi-link 2) Communication Parameter Setting • Setting Procedure [System Setting] → [Comm. Parameter] → [Comm. Parameter] dialog • Setting Items [Connection] Select [Multi-Link 2]. Click [Setting]. The [Multi-Link 2] dialog is displayed. Make the necessary settings. For the V7 series master station, set the following items.
Page 215 App2-8 Appendix 2 n : 1 Connection (Multi-link 2) Please use this page freely.
Page 216: Appendix 3 N : 1 Connection (Multi-Link)
Appendix 3 n : 1 Connection (Multi-link) Appendix 3 n : 1 Connection (Multi-link) Multi-link • One PLC is connected to multiple V7 series. (Maximum connectable V series: 31) V7 series No. 1 V7 series No. 2 V7 series No. 3 V7 series No.
Page 217: Wiring
Connection with Link Unit For V7 Series: Use the RS-485 2-wire connection. (It is recommended that Hakko Electronics’ optional terminal converter “TC485” be used.) • When TC485 is used: Set “2-wire connection” at the DIP switch (SW1) on TC485. When a jumper is required on the PLC: To the PLC’s...
Page 218 App3-3 Appendix 3 n : 1 Connection (Multi-link) For V706: For V706 + DU-01, refer to “For V7 Series:” above. Since MJ2 is adapted to 4-wire connection, it is necessary to change the signal connection from 4-wire to 2-wire for multi-link 2 connection. When a jumper is required on the PLC: V706 To the PLC’s RS-422...
Page 219 App3-4 Appendix 3 n : 1 Connection (Multi-link) When Connecting Directly to the CPU of the MITSUBISHI QnA Series: Use the GD port of Hakko Electronics’ optional dual port interface V-MDD. For V7 Series: V-MDD GD port V7+TC485 V7+TC485 V7+TC485...
Page 220: V-Sft Setting
App3-5 Appendix 3 n : 1 Connection (Multi-link) V-SFT Setting The following settings must be made on the V-SFT editor. Only the points different from those described in “V-SFT Setting (1 : 1 Connection)” (page 1-10) are explained here. PLC Selection Select the PLC that is connected.
Page 221 App3-6 Appendix 3 n : 1 Connection (Multi-link) Please use this page freely.
Page 222: Connection (Multi-Drop)
App4-1 Appendix 4 1 : n Connection (Multi-drop) Appendix 4 1 : n Connection (Multi-drop) 1 : n Connection One V7 series is connected to multiple PLCs. (Maximum connectable PLCs: 31) V7 series Maximum length (V7 series to the terminating PLC) = 500 m RS-422/RS-485 connection PLCn (n = 1 to 31) PLC1...
Page 223: Wiring (Rs-422/485)
For connecting information, refer to the instruction manual for the PLC. Example: The following example shows how one V7 series is connected to three PLCs made by MITSUBISHI. For more information, refer to MITSUBISHI’s instruction manual for the PLC. V706 V Series Link unit Link unit Link unit Signal Signal...
Page 224: Notes On Communication Errors
App4-3 Appendix 4 1 : n Connection (Multi-drop) Notes on Communication Errors Processing for PLC Failure • If a communication error/timeout is detected during communications with a PLC, the PLC failure information is stored in internal system memory addresses $s 114 to 129 of the V7. No further communication with the PLC is attempted until a macro command is executed or the display screen changes.
Page 225 App4-4 Appendix 4 1 : n Connection (Multi-drop) Please use this page freely.
Page 226: Appendix 5 Ethernet
App5-1 Appendix 5 Ethernet Appendix 5 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). Ethernet SYSTEM SYSTEM...
Page 227 App5-2 Appendix 5 Ethernet - Screen data can be transferred from the V-SFT editor on the server to the V7 series. Server V-SFT Ethernet SYSTEM SYSTEM <V7> PROGRAMMER Ethernet-ready PLC POWER POWER RS-232C RS-485 <PLC> PROGRAMMER • Communications between the Ethernet-ready PLC and the V7 series - The MONITOUCH can communicate with the PLC on the Ethernet.
Page 228: Notes On Ethernet Communications
App5-3 Appendix 5 Ethernet 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-03-2 to V7i at the same time.
Page 229 App5-4 Appendix 5 Ethernet Names and Functions of Components ADR - LOW - HI FUSE 0V 10B-T RX TX LNK CI +12V 1. LED Indicates the status of the communication. Name Contents Data receive status Currently receiving Not receiving Data send status Currently sending Not sending Link status (for 10BASE-T only)
Page 230: Option Unit Du-01
App5-5 Appendix 5 Ethernet Option Unit DU-01 Specifications Specifications Item 10BASE-T Baud rate 10 Mbps Transmission method Base band Maximum network distance 500 m (4 HUBs) or maximum node interval Maximum segment length 100 m (between the node and the HUB) Maximum number of nodes 2/segment Minimum node interval...
Page 231: Wiring
App5-6 Appendix 5 Ethernet Wiring 10BASE-T Connection • Cable connection diagram UTP cable UTP cable Straight or cross cable Straight (For more information, refer to the HUB specifications.) DU-01 CU-03 Ethernet unit V706 Node Distance between the node and the HUB: 100 m maximum Maximum network nodes: Straight cable Cross cable...
Page 232 App5-7 Appendix 5 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.
Page 233 App5-8 Appendix 5 Ethernet • 10BASE2 The following devices are required for 10BASE2 connection: - Coaxial cable for 10BASE2 - AUI cable - T-type adaptor - Terminator for 10BASE2 - Transceiver - Power supply for the transceiver: 12 VDC • Transceiver 1 segment (max.
Page 234: Transferring Screen Data
App5-9 Appendix 5 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...
Page 235 App5-10 Appendix 5 Ethernet Transferring Screen Data from V-SFT Editor 1. Click the [Transfer] icon. The [Transfer] dialog is displayed. 2. Attach a check mark ( ) to [ Transfer through Ethernet]. 3. Click the [Detail Setting] button. The [IP Address Setting] dialog is displayed.
Page 236 App5-11 Appendix 5 Ethernet 5. Check the IP address, and click [PC->]. IP address for transfer target 6. Data transfer is started.
Page 237: V-Sft Setting: Plc Type/Communication Parameter
App5-12 Appendix 5 Ethernet V-SFT Setting: PLC Type/Communication Parameter To enable Ethernet communications between the V7 series and a PLC, 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.
Page 238 App5-13 Appendix 5 Ethernet (B) Connecting to the PLC on the Ethernet 1. PLC type setting Select [System Setting] → [PLC Type] and select the PLC that shows [xxxxx (Ethernet XXXXX)]. At present (February, 2004), the following PLC models are supported. Manufacturer Select PLC Type Unit...
Page 239 App5-14 Appendix 5 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] →...
Page 240 App5-15 Appendix 5 Ethernet 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 App5-16. [Memory Input] [Edit Network Table]...
Page 241: V-Sft Setting: Network Table Editing
App5-16 Appendix 5 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.
Page 242 App5-17 Appendix 5 Ethernet Starting and Closing • Starting Select [System Setting] → [Network Table Setting] → [Ethernet]. The network table edit window is displayed. [Close] button • Closing Select [File] → [Exit], or click the [Close] button. Menu and Icons Each menu item corresponds to the icons as shown below.
Page 243 App5-18 Appendix 5 Ethernet - Cancel Monitor Registration Click this menu when canceling monitor registration. [View] menu The items with a check mark are shown on the network table editing window. Editing the Network Table Double-click the number. The [Set Network Table No. *] dialog is displayed. Network table number [Host Name]...
Page 244 App5-19 Appendix 5 Ethernet 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.
Page 245 App5-20 Appendix 5 Ethernet [Sub Net Mask] Attach a check mark ( ) when setting the subnet mask. When this option is checked, it is set to [255.255.255.0]. 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.
Page 246: V-Sft Setting: Macro
App5-21 Appendix 5 Ethernet 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.
Page 247 App5-22 Appendix 5 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 Indirect Double-...
Page 248 App5-23 Appendix 5 Ethernet [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 Indirect Double- Constant IP Address Memory Memory Card...
Page 249: System Memory
App5-24 Appendix 5 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). List Address Contents...
Page 250 App5-25 Appendix 5 Ethernet Address Contents $s553 Network table 33 status Network table 34 status Network table 35 status Network table 36 status Network table 37 status Network table 38 status Network table 39 status Network table 40 status Network table 41 status Network table 42 status Network table 43 status Network table 44 status...
Page 251 App5-26 Appendix 5 Ethernet Address Contents $s600 Network table 80 status Network table 81 status Network table 82 status Network table 83 status Network table 84 status Network table 85 status Network table 86 status Network table 87 status Network table 88 status Network table 89 status Network table 90 status Network table 91 status...
Page 252 App5-27 Appendix 5 Ethernet Addresses • $s514, 515 These addresses are related to macro commands [SEND], [EREAD] and [EWRITE]. $s514: Sets the executing status of the macro. In the case of “0,” the next step of the macro is executed without waiting for the completion of the command when a command request is given to the Ethernet.
Page 253: Ethernet Access Functions (Hketn10.Dll)
App5-28 Appendix 5 Ethernet Ethernet Access Functions (HKEtn10.DLL) To enable Ethernet communications between the server and the V7 series, it is necessary to create an application based on HKEtn10.dll (for UDP/IP) provided by us, using Visual C++, Visual Basic, etc. Sample Folder The “Sample”...
Page 254 App5-29 Appendix 5 Ethernet • Notes on use of the sample programs The data type to be set when creating a program varies depending on whether Visual C++ or Visual Basic is used. For the data type and range, refer to the following tables. Visual C++ BYTE Byte...
Page 255: Function Specifications
App5-30 Appendix 5 Ethernet Function Specifications List • Read PLC Memory int HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int Page App5-31 Word DeviceType,DWORD addr,char *lpAddr,int DFlag=1) PLC memory int HKEtn_ReadPlcMemory2(DWORD *dp,unsigned short Double-word Wordcnt,int DeviceType,DWORD addr,char *lpAddr,int DFlag=1) Page App5-32 Internal memory int HKEtn_ReadInternalMemory(WORD *dp,unsigned short Word Wordcnt,int DeviceType,DWORD addr,char *lpAddr,int DFlag=1) Memory card memory...
Page 256 App5-31 Appendix 5 Ethernet Read Read Words from PLC Memory int HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until PLC data is transferred from the V7 series. • Parameters Target pointer of the data to be read Contents Word Count No.
Page 257 App5-32 Appendix 5 Ethernet Read Double-words from PLC Memory int HKEtn_ReadPlcMemory2(DWORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until PLC data is transferred from the V7 series. • Parameters Target pointer of the data to be read Contents Word Count No.
Page 258 App5-33 Appendix 5 Ethernet Read Words from Memory Card Memory int HKEtn_ReadCardMemory(WORD *dp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD addr,char *lpAddr,int DFlag=1) This function is retained until data is transferred from the V7 series. • Parameters Target block pointer Contents Word Count No.
Page 259 App5-34 Appendix 5 Ethernet Read Bits from Internal Memory int HKEtn_ReadInternalBitMemory(int *lpOnFlag,int DeviceType,DWORD addr,int BitNo,char *lpAddr) This function is retained until data is transferred from the V7 series. • Parameters *IpOnFlag Returns the bit status. 0: OFF 1: ON DeviceType 0: $u 1: $s 2: $L...
Page 260 App5-35 Appendix 5 Ethernet 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.) •...
Page 261 App5-36 Appendix 5 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.) •...
Page 262 App5-37 Appendix 5 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.) •...
Page 263 App5-38 Appendix 5 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.) •...
Page 264 App5-39 Appendix 5 Ethernet Receive Wait from V7 int HKEtn_Recvfrom(BYTE *dp,short *lpCnt) This function is retained internally until data is received from the V7 series. The function returns a response and ends only when a command is received. The user should interpret the received data and create the next action. This function must be executed within the thread.
Page 265 App5-40 Appendix 5 Ethernet Get Error Contents int HKEtn_GetLastError() • Error codes and solutions Code Contents Solution −1 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.
Page 266: Server Communication Procedure
App5-41 Appendix 5 Ethernet Server Communication Procedure Data Request from V7 to Server (1) Execute the receive wait thread using “int Server HKEtn_RecvFrom()” on the application of the server. Application (2) Send the command from the V7 series to the server using macro command SEND. (3) The server analyzes the command and takes the appropriate action.
Page 267: Error Display
App5-42 Appendix 5 Ethernet Error Display Error messages displayed on the V7 series and those stored in the system memory are explained. Communication Errors The Ethernet status is stored in system memory address $s518 of the V7 series during Ethernet communications The communication error occurs when a code other than “0”...
Page 268 App5-43 Appendix 5 Ethernet • System memory: $s518 Contents Solution Normal Check cable connection and network table setting of Failed in send request the target station. Check that the setting on the target station is Send error consistent with the network table setting. The communication unit is in the older version or is Internal port error faulty.
Page 269 App5-44 Appendix 5 Ethernet Errors during Macro Command Execution The execution result of macro commands SEND/EREAD/EWRITE is stored in system memory address $s515. • System memory address: $s515 (response to the request) Code Contents Solution Normal 200 to 2000 Communication error Refer to “Communication Errors.”...
Page 270: Appendix 6 Universal Serial Communications
Screen No. 1 16383 As shown in the diagram above, when a general-purpose computer communicates with the V series, the general-purpose computer acts as the host and the V series acts as the slave. Switch, lamp, data display, etc., are allocated within the internal user memory ($u). When a screen number is specified from the host, a write action takes place to the internal memory address specified for the screen, and the specified screen is then displayed on the V series.
Page 271 App6-2 Appendix 6 Universal Serial Communications Differences between Connecting to a General-purpose Computer and Connecting to the PLC • Input format (code) The input format used for screen number, block number, message number, etc, is fixed in [DEC]. • Write area When connecting to the PLC, only the three words shaded in the diagram below are used, but when connecting to a general-purpose computer, all 16 words shown below are used.
Page 272 The memory addresses are $u0 to 16383. Assign memory addresses for system, lamp, data display, and mode within this range. V series internal user memory ($u) V series screen data Screen No. 0 1234 1234...
Page 273: System Composition
1) Can be used when the transmission distance via RS-232C is within 15 m, or the transmission distance of RS-422 (485) is not greater than 500 m. 2) It is possible to use an interrupt when connecting a computer to a V series unit in a 1 : 1 connection.
Page 274 App6-5 Appendix 6 Universal Serial Communications Input/Output Connector The connection method for communication between a general-purpose personal computer and a V series unit is shown in the diagram below. • For V series: General- V series purpose computer RS422 RS232C •...
Page 275 • FG signal - Connect the shielded cable to Pin No. 1 on the V series side. When there are FG terminals on both the communication device and the V series, connect the shielded cable to one of the FG terminals.
Page 276 3P × .3SQ Mitsubishi Cable SPEV-SB-MPC CN1: RS-422 Connector Specifications The specifications for the RS-422 connector that links to the communication device are shown below. Signal Direction (V Series ←→ Communication Device) Pin No. Name Signal Name Frame ground Signal ground Send data −SD...
Page 277 Name −SD −RD * Use twist-shielded cables. * Use TC485 (Terminal Converter, optional) when V series is connected on the terminal block. For more information, refer to “TC485 (Terminal Converter) Operation Instructions.” <Executing Flow Control> TC485 can not be used.
Page 278 App6-9 Appendix 6 Universal Serial Communications 1 : n Connection * When you go to [Comm. Parameters] under the [System Setting], to [Main2], and check [Execute 4 Wire Control], 1 : n connection is not available. • Wiring Perform wiring as shown below. <2-wire system>...
Page 279 1 2 3 4 5 6 7 8 Signal ground RS-232C receive data RS-232C send data The specifications for the RS-232C connector that links to the communication device are shown below. Signal Direction (V Series ←→ Communication Device) Pin No. Name Signal Name Send data...
Page 280 RS-422 + send data 1 2 3 4 5 6 7 8 −SD RS-422 − send data RS-422 + receive data −RD RS-422 − receive data Signal Direction (V Series ←→ Communication Device) Pin No. Name Signal Name Send data −SD Send data Receive data −RD...
Page 281 App6-12 Appendix 6 Universal Serial Communications 1 : n Connection * When you go to [Comm. Parameters] under the [System Setting], to [Main2], and check [Execute 4 Wire Control], 1 : n connection is not available. • Wiring Perform wiring as shown below. <2-wire system>...
Page 282 App6-13 Appendix 6 Universal Serial Communications <4-wire system> General-purpose computer Signal V706 (MJ2) Name Signal Pin No. Name Terminating resistance (OFF) V706 (MJ2) Signal Pin No. Name Terminating resistance (OFF) V706 (MJ2) Signal Pin No. Name Terminating resistance (ON)
Page 283: System Setting
System Setting Model Setting Select universal serial as the model that will communicate with the V series. 1) From the menu bar, go to [System Setting] and click on [PLC Type]. 2) The [Select PLC Type] dialog comes up. Select [Universal Serial] and click the [OK] button.
Page 284 It is possible to set the transmission mode by going to the [Detail] tab window and making settings for [Trans. Mode]. Setting Items • Baud Rate Set the communication speed between the host and the V series. The possible speed settings are shown below. 4800 bps 9600 bps...
Page 285 App6-16 Appendix 6 Universal Serial Communications • Read Area This memory area is necessary when the display screen is changed by a command received from the host. Be sure to allocate only $u memory. Address allocation is shown in the table below. For details on addresses, refer to Chapter 1 in the Reference Manual (Function).
Page 286 App6-17 Appendix 6 Universal Serial Communications - System memory ($s) within internal memory Address Contents Screen number Overlap 0 Status 0: OFF 1: ON Overlap 1 Status 0: OFF 1: ON Overlap 2 Status 0: OFF 1: ON Universal serial port switch output 0 Output code 0 - 15 Universal serial port switch output 1...
Page 287 • Read Clear Top Address (Set user memory within internal memory.) The read clear area is the starting area from which the V series clears words that were previously read. Due to the fact that it is cleared to “0,” once this area is read, the data remains at “0” even if you attempt to read again when a read response error occurs.
Page 288 Finish Read clear backup area Backup words CFMDAT SCRN_COM SCRN_No ENT0 ENT1 ENT2 GREPNS Reserved (7 words) • Default Initial Screen Set the number of the screen to be displayed when power to the V series is turned on.
Page 289 • Parity None Even • Send Delay Time Set the time for V series to send a response to a host after receiving a command from a host. • Busy Time For details, refer to page App6-29. • Trans. Mode...
Page 290: Standard Type Protocol
• Connection mode 1 : 1 Used when one host communicates with one V series unit (1 : 1). 1 : n A maximum of 32 V series units are possible to be connected to the host. (Multi-drop specifications) • Transmission mode There are four transmission modes, depending on whether or not sum check or CR/LF is attached to the end of transmission and received data, as shown below.
Page 291 App6-22 Appendix 6 Universal Serial Communications Connection (1 : 1), Transmission Mode (w/ sum check) Used when one host communicates with one V series unit (1 : 1). Contents Protocol Transmission Transmission data data Part A Part B Host side...
Page 292 - When OUT_ENQ in a macro command is run. • Interrupt timing When an interrupt condition occurs while the host is transmitting a command or before the V series machine transmits a response, the interrupt code will be transmitted before the response is transmitted.
Page 293 App6-24 Appendix 6 Universal Serial Communications Connection (1 : 1), Transmission Mode (w/ sum check and CR/LF) Used when one host communicates with one V series unit (1 : 1). Contents Protocol Transmission Transmission data data Part A Part B...
Page 294 - When OUT_ENQ in a macro command is run. • Interrupt timing When an interrupt condition occurs while the host is transmitting a command or before the V series machine transmits a response, the interrupt code will be transmitted before the response is transmitted.
Page 295 Appendix 6 Universal Serial Communications Connection (1 : n), Transmission Mode (w/ sum check) It is possible to attach as many as 32 V series units to one host. (For information on the global command, refer to page App6-30.) Contents...
Page 296 Appendix 6 Universal Serial Communications Connection (1 : n), Transmission Mode (w/ sum check and CR/LF) It is possible to attach as many as 32 V series units to one host. (For information on the global command, refer to page App6-30.)
Page 297 • Port number Port numbers are used so that the host computer can identify each V series for access. The data range is from 00H to 1FH (0 to 31) and is converted into two-digit ASCII code (HEX) before use.
Page 298 These commands immediately send a response once receipt of data is complete. No NAK [01] (BUSY) signal is given. Host side (command) V series (Response) T = 10 msec or less • WM / TR / WI / WC Once receipt of data is complete, these commands first check the display status. If the display status is found to be complete, a response is sent and a command is executed.
Page 299 Global Port Number (FFH) Active for connection mode (1 : n). When the port number is set as [FFH] and a command is executed, all V series units that are connected send a response in reply to a command from the host.
Page 300 Example: Address: Call up 4 characters that are written at the top of 0020 (0014H). The “A,” “B,” “C,” and “D” character codes are sent from the V series as 0 0 1 4 0 0 0 4 shown below.
Page 301 The read sequence is the same as the command sequence (HEX ASCII). Example: Address: Read the double-word data “75,000” (DEC) contained in the address 0020 (0014H). Data is sent from the V series as shown below. 0 0 1 4 0 0 0 2...
Page 302 * When write data is not continuous, “DLE” is inserted as a delimiter between the breaks. Example: Send data to display the following characters on the V series. Address: 0100 (0064H), EF Address: 0101 (0065H), GH Address: 0102 (0066H), IJ...
Page 303 * When write data is not continuous, “DLE” is inserted as a delimiter between the breaks. Example: Send data to display the following characters on the V series. Address: 0100 (0064H), EF (= 4645 H) Address: 0101 (0065H), GH (= 4847 H)
Page 304 A which is waiting. Host side V series side Error code * In the case that error code [01] is returned, Command A response command A is on standby as the V series is currently engaged in display processing.
Page 305 Appendix 6 Universal Serial Communications Interrupt Setting Command • Interrupt setting command Interrupt setting command Host side V series side - Host side Interrupt conditions can be specified when the interrupt data bit is set. DataInterrupt status (HEX ASCII) <Interrupt Conditions>...
Page 306 App6-37 Appendix 6 Universal Serial Communications Interrupt Status Read Command • Interrupt status read command Interrupt status read command Host side V series side - Host side Interrupt status is read. Data: Interrupt status (HEX ASCII) Switch ON 0: Interrupt prohibited...
Page 307 Interrupt data becomes the contents of write areas n + 2 to n + 7. (Refer to page App6-16.) * For RS-422 (485) 2-wire connection, interrupts cannot be used. When a regular key is pressed ENT0 ENT1 ENT2 Screen No. V series side WORD WORD WORD WORD WORD WORD...
Page 308 Use the macro command (OUT_ENQ). For details, refer to Chapter 13 in the Reference Manual (Function). Interrupt with a macro command (OUT_ENQ) Word transmission Transmission Number of Word data V series side memory transmission address words WORD WORD Word transmission...
Page 309 The switch number that corresponds to the bit is written in write areas n + 3 and n + 4. For the relationship between the bit and the switch number, refer to page App6-46. • V series analog type Normally, only one switch can be pressed. (Fixed to 1 output)
Page 310 WORD WORD WORD Error Codes 01H: The V series is currently engaged in display processing. The received command is on standby due to display processing. Wait a few moments and re-transmit the command. 02H: Overrun/Framing error An overrun or framing error is detected in the received data.
Page 311 App6-42 Appendix 6 Universal Serial Communications 09H: Received data over The number of write command data received from the host exceeded that of data shown below. • Write memory command = 512 words • Write CHR command = 1024 bytes 0BH: Retry command error When a retry command is received, there is no BUSY status (NAK [01]) command.
Page 312: 1-Byte Character Code List
App6-43 Appendix 6 Universal Serial Communications 1-byte Character Code List Upper ’ " & Lower ’ < >...
Page 313: Memory Map
Appendix 6 Universal Serial Communications Memory Map Memory Inside the V series, there is internal memory necessary for screen display called “user memory ($u),” as well as memory that the V series uses for the system called “system memory ($s).” User Memory ($u) 16384 words are available for user memory.
Page 314 Appendix 6 Universal Serial Communications System Memory ($s) System memory is memory that writes V series action status when the V Series is currently displaying something. With this written information, it is possible to check overlap status, buffer area, printer, backlight, and slave station status in multi-drop connection mode.
Page 315 App6-46 Appendix 6 Universal Serial Communications • Address 0080 to 0095 The [Output Memory] of a switch is assigned to bits in this area. Set [Output Action] to [Momentary]. When a switch is pressed, bit memory is set to “1” and the corresponding switch number is written in system setting areas n + 3 and n + 4.
Page 316 App6-47 Appendix 6 Universal Serial Communications Switch ON Macro Action The macro command that controls a repeat function in the switch ON macro, as well as the processing sequence, is shown in the following diagram. Switch action flowchart Switch ON Interlock? Not satisfied Interlock...
Page 317 App6-48 Appendix 6 Universal Serial Communications Please use this page freely.
Page 318: Appendix 7 V-Link
App7-1 Appendix 7 V-Link Appendix 7 V-Link V-Link • “V-Link” is the network where the computer reads from and writes to the internal memory of the V7 series, memory card, PLC memory or temperature control/PLC2 memory using a dedicated protocol. Dedicated commands Read disc...
Page 319: Wiring
Wiring Cable Use Hakko Electronics’ cable “V6-TMP” (3 m) for connection with a computer. The shielded cable of V6-TMP is connected to FG (frame ground) when the V7 series is used and to SG (signal ground) when the V706 is used.
Page 320 App7-3 Appendix 7 V-Link RS-485 (V7 series: maximum 31 sets) RS-232C → Computer RS-485 conversion RS-485 Terminal block Terminal block Terminal block V6-TMP MJ2/1 MJ2/1 MJ2/1 Local Port 1 Local Port 31 Local Port 2 RS-232C RS-422 RS-485 * 0.5 m recommended (1.0 m maximum) Wiring example of above (a) and (b) Terminal Terminal...
Page 321: V-Sft Setting
App7-4 Appendix 7 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.
Page 322: Protocol
App7-5 Appendix 7 V-Link Protocol Read (with sum check and CR/LF) Read Command Command Read target Number Read local of words memory command to read setting Bytes Response Memory Memory (Normal communication) local data data Bytes (When an error occurs) local Bytes * Read target memory setting...
Page 323 App7-6 Appendix 7 V-Link Write (with sum check and CR/LF) Write Command Command Write target Memory Memory Number Write local memory of words data data command to write setting Bytes Response (Normal communication) local Bytes (When an error occurs) local Bytes * Write target memory setting V7 internal memory...
Page 324 App7-7 Appendix 7 V-Link Data Items for Protocols • Transmission control code: 1 byte Signal Name Code (Hexadecimal) Contents Start of transmission block End of transmission block Carriage return Line feed • V7 port number: 2 bytes Port numbers are used so that the host computer can identify each V7 series for access. The data range is from 01H to 1FH (1 to 31) and is converted into the ASCII code before use.
Page 325 App7-8 Appendix 7 V-Link - Expansion code Set the slot number of the CPU memory of the MITSUBISHI PLC or the CPU number of the YOKOGAWA PLC. Example: MITSUBISHI Slot No. 0: MITSUBISHI Slot No. 1: YOKOGAWA CPU No. 1: 00H YOKOGAWA CPU No.
Page 326: Nak: Error Codes
App7-9 Appendix 7 V-Link NAK: Error Codes 02H: Overrun/Framing error An overrun or framing error is detected in the received data. Send the command again. 03H: Parity error A parity error is detected in the received data. Send the command again. 04H: Sum check error A sum error occurs with the received data.
Page 327: 1-Byte Character Code List
App7-10 Appendix 7 V-Link 1-byte Character Code List Upper ’ " & Lower ’ < >...
Page 328: Connection Compatibility List
List-1 Connection Compatibility List V712/V710/V708/V706+DU-01 • 1 : 1......One set of the V7 series is connected to one PLC (1:1 connection). • 1 : n......One V7 series is connected to multiple PLCs. • Multi-link2 ....One PLC is connected to a maximum of four V7 series. •...
Page 329 List-2 1 : n n : 1 Field Controller Manufacturer 1 : 1 Multi-link 2 Ethernet PLC2Way (Multi-drop) (Multi-link) Network Network CC-Link A series link Net10 OPCN-1 A series CPU QnA series link CC-Link Net10 QnA series CPU with V-MDD QnH (Q) series link CC-Link Net10...
Page 330: V706
List-3 V706 • 1 : 1......One set of the V706 series (MJ2) is connected to one PLC (1:1 connection). • 1 : n......One V7 series is connected to multiple PLCs. • Multi-link2 ....One PLC is connected to a maximum of four V7 series. •...
Page 331 List-4 1 : n n : 1 Field Controller Manufacturer 1 : 1 Multi-link 2 Ethernet PLC2Way (Multi-drop) (Multi-link) Network Network A series link A series CPU QnA series link QnA series CPU with V-MDD QnH (Q) series link QnH (A) series CPU MITSUBISHI QnH (Q) series CPU ELECTRIC...
Page 332 Hakko Electronics Co., Ltd. Sales 890-1, Kamikashiwano-machi, Matto-shi, Ishikawa, 924-0035 Japan TEL (076)274-2144 FAX(076)274-5208 Tokyo Office TEL (03)3255-0166 FAX(03)3255-0298 Osaka Office TEL (06)6385-8234 FAX(06)6385-7851 Nagoya Office TEL (052)789-0096 FAX(052)789-0098 Head Office 238, Kamikashiwano-machi, Matto-shi, Ishikawa, 924-0035 Japan PRICE 1,000- 2200NE0...

Hakko Electronics V Series Connection Manual

Before Connecting to PLC

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Appendix 1 Plc2Way

Appendix

Appendix 3 N : 1 Connection (Multi-Link)

Appendix

Appendix 5 Ethernet

Appendix 6 Universal Serial Communications

Appendix 7 V-Link

Connection Compatibility List

Quick Links

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Summary of Contents for Hakko Electronics V Series