Cable Electronics DVP14 Dokumentacja Strona 1

V Series

31. Yamatake PLCAvailable PLCs ...

16. MITSUBISHI ELECTRIC PLC 16-116. MITSUBISHI ELECTRIC PLCAvailable PLCsA Series Link, QnA Series Link, QnH (Q) Series Link, A Link + Net10*1*1 For

16-2 16. MITSUBISHI ELECTRIC PLCA Series CPU, QnA Series CPU, QnH Series CPU, Q00J/00/01 CPUFX Series*1 For more information of V-MDD (dual port int

16. MITSUBISHI ELECTRIC PLC 16-3Communication SettingThe recommended communication parameter settings of the PLC and the V7 series are as follows:A S

16-4 16. MITSUBISHI ELECTRIC PLCA Series CPU, QnA Series CPUCommunication parameters for the V7 series are automatically set.QnH (A) Series CPU, QnH

16. MITSUBISHI ELECTRIC PLC 16-5A Series Link, QnA Series Link: Switch SettingThe following is an example that shows the settings for both rotary DIP

16-6 16. MITSUBISHI ELECTRIC PLCA1SJ71UC24-R4, A1SJ71C24-R4Example 4 Signal level: RS-422, baud rate: 19200 bps, transmission mode 1Available Memory

16. MITSUBISHI ELECTRIC PLC 16-7FX Series, FX1S Series*1 For numerical data format where double-words can be used (Num. Data Display, Graph, Sampling

16-8 16. MITSUBISHI ELECTRIC PLCFX Series (A Protocol)*1 CN200 to CN255 equals 32CN (32-bit counter).*2 For numerical data format where double-words

16. MITSUBISHI ELECTRIC PLC 16-9Wiring Diagram 2Wiring Diagram 3PLCRDSDRSCSDRSG3245678CD123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-

16-10 16. MITSUBISHI ELECTRIC PLCWiring Diagram 4RS-422Wiring Diagram 5PLCSDRDSG237123457SDRDRSCSSGSHELL875*1D-sub 25-pin (male)* Use shielded twist

Appendix 7 V-LinkV-Link ...

16. MITSUBISHI ELECTRIC PLC 16-11Wiring Diagram 6Wiring Diagram 7PLCRDASGRDB2715SDB 16SDA 34517182021DSRADTRADSRBDTRB1712132425SG+SD-SD+RD-RD51278SHE

16-12 16. MITSUBISHI ELECTRIC PLCWiring Diagram 8According to our noise tests, the attachment of a ferrite core improves noise voltage by 650 to 900

16. MITSUBISHI ELECTRIC PLC 16-13A Link + Net10• When the V7 series is connected to the standard type link unit on the CPU that is connected to the d

16-14 16. MITSUBISHI ELECTRIC PLC• Network specifying macro... [OUT_ENQ] of system call [SYS]F1 memory“n + 0” and “n + 1” are fixed to “

16. MITSUBISHI ELECTRIC PLC 16-15V-MDD (Dual Port Interface)V-MDD is the add-on connector with two ports, specifically designed for the connector on

16-16 16. MITSUBISHI ELECTRIC PLCConnection• When connecting the V7 series (CN1) to the PLC (CPU port), use a 1 : 1 communication cable as previousl

16. MITSUBISHI ELECTRIC PLC 16-17Settings and Communications1. PLC type settingSelect [PLC Type] from the [System Setting] menu. Select a type adapt

16-18 16. MITSUBISHI ELECTRIC PLC- Enabling V-SFT communications manuallyHold down the F2 switch for three seconds. [Editor: ...] changes to [Edito

16. MITSUBISHI ELECTRIC PLC 16-19Notes on Ladder Transfer Function1. When [Ladder Tool] is selected for a modular jack, monitor registration on the P

16-20 16. MITSUBISHI ELECTRIC PLCPlease use this page freely.

1. Before Connecting to PLC 1-11. Before Connecting to PLCTypes of ConnectionThere are four types of connection between MONITOUCH(es) and PLC(s).1 :

17. MODICON PLC 17-117. MODICON PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series a

17-2 17. MODICON PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1PLCRXTXDTR234GND 5DSR 6RTS 7CTS 8123457SDRDRSCSSGSHELL87

18. MOELLER PLC 18-118. MOELLER PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series a

18-2 18. MOELLER PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1TXRXSGPLC325123SDRDSHELL87*17SG 5* Use shielded twist-pa

19. OMRON PLC 19-119. OMRON PLCAvailable PLCsSelect PLC Type PLC Unit/Port Connection PLC2WaySYSMAC CC20H,C28H,C40HCPU unit with built-in port(host l

19-2 19. OMRON PLC*1 Replace the shell on the D-sub 25-pin side before use. (Recommended part: DDK’s 17J-25)*2 For connection to MJ2 of a V706, use

19. OMRON PLC 19-3Example:• Setting procedure: Num. Data Display [Input Type] BCD[Display Type] DEC (w/ −sign, w/ +−signs)Available MemoryThe avai

19-4 19. OMRON PLCSYSMAC CS1/CJ1, SYSMAC CS1/CJ1 DNA*1 When using EMn (extended data memory), specify the bank number (CS1: 0 to C).The assigned mem

19. OMRON PLC 19-5Wiring Diagram 2Wiring Diagram 3RSSDCSSG2459RD 3PLC123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-sub 9-pin (male)D-s

19-6 19. OMRON PLCRS-422Wiring Diagram 4Wiring Diagram 5SDBRDBRDASDA1569PLCSG 31712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.

1-2 1. Before Connecting to PLC1 : n Connection (Multi-drop)OutlineOne V7 series is connected to multiple PLCs. (Maximum connectable PLCs: 31)Notes

19. OMRON PLC 19-7Wiring Diagram 6Wiring Diagram 7SDBRDBRDASDA8261PLCSG 945RSCS1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D

19-8 19. OMRON PLCSYSMAC CS1/CJ1 DNAWhen connecting the V7 series to CS1/CJ1 on a network (Controller Link), the V7 series can also access another C

20. SAIA PLC 20-120. SAIA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as

20-2 20. SAIA PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RXTXGNDPLC325PGU port123SDRDSHELL87*17SG

20. SAIA PLC 20-3RS-485Wiring Diagram 3T/R+T/R−PLCGND101211PCD7.F1101712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 25-pin

20-4 20. SAIA PLCPlease use this page freely.

21. SAMSUNG PLC 21-121. SAMSUNG PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series a

21-2 21. SAMSUNG PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-422Wiring Diagram 2TXDPLCRXD235GND123457SDRDRSCSSGS

22. SHARP PLC 22-122. SHARP PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are a

22-2 22. SHARP PLCJW100/70H COM Port, JW20 COM Port: System Memory SettingThe settings for communications with the V7 series should be made at the s

1. Before Connecting to PLC 1-3n : 1 Connection (Multi-link 2)Outline• One PLC is connected to a maximum of four V7 series.• An original network is c

22. SHARP PLC 22-3WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2SXDRXDCTS235RTS 4PLCSG 71214123457SDRDRSC

22-4 22. SHARP PLCRS-422Wiring Diagram 3Wiring Diagram 4Wiring Diagram 5+TXD−TXD−RXD101113+RXD 12PLC1SHELL*112132425+SD-SD+RD-RD1278* Use shielded t

23. SHINKO ELECTRIC PLC 23-123. SHINKO ELECTRIC PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and

23-2 23. SHINKO ELECTRIC PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1SDPLCRDRS234CS 5SG 7123457SDRDRSCSSGSHELL875*1*

24. Siemens PLC 24-124. Siemens PLCAvailable PLCs*1 When using the 6ES5 734-1BD20 cable made by SIEMENS, connect the cable shown in [Wiring Diagram 3

24-2 24. Siemens PLCS5, S5 V4 (S5-115U, S5-135U, S5-155U), S7 (S7-300, S7-400)S5 PG PortCommunication parameters are automatically set.S7-200PPIS7-

24. Siemens PLC 24-3S7-300MPI (HMI ADP, PC ADP, Helmholz SSW7 ADP)• Set [MPI SETTING] in the [Comm. Parameter] dialog of the V-SFT editor.Highest MPI

24-4 24. Siemens PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available

24. Siemens PLC 24-5S5 PG PortThe assigned memory is indicated when editing the screen as shown on the right.S7-200PPIS7-300/400MPIThe assigned memo

24-6 24. Siemens PLCTI500/505 (TI500/505 V4)*1 In case of using DCP (drum count/set value), set drum step No.1 to 16.The assigned memory is indicate

1-4 1. Before Connecting to PLCn : 1 Connection (Multi-link)Outline• One PLC is connected to multiple V7 series. (Maximum connectable V series: 31)

24. Siemens PLC 24-7WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2TXDPLCRXDGND237123457SDRDRSCSSGSHELL875

24-8 24. Siemens PLCWiring Diagram 3Wiring Diagram 4TXDPLCRXD234GND576ES5 734-1BD20S5-95U123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.

24. Siemens PLC 24-9Wiring Diagram 5RS-422Wiring Diagram 6FGSDRDRSCS12345RDSDSGRTS2357CTS 8SG 7* Use shielded twist-pair cables.HMI AdaptorPC Adaptor

24-10 24. Siemens PLCWiring Diagram 7• Terminating Resistance SettingSet the DIP switch 7 of the V series (for V706: No. 3) to the OFF position.Conn

24. Siemens PLC 24-11Wiring Diagram 8Wiring Diagram 9PLCGNDDI+65DI 8DO+ 1DO 71712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-s

24-12 24. Siemens PLCPlease use this page freely.

25. TAIAN PLC 25-125. TAIAN PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are a

25-2 25. TAIAN PLCWiringWiring diagrams with the PLC are shown below.RS-422Wiring Diagram 1Wiring Diagram 2T/R+T/RSHLDPLC1712132425SG+SD-SD+RD-RD512

26. Telemecanique PLC 26-126. Telemecanique PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the

26-2 26. Telemecanique PLCWiringWiring diagram with the PLC is shown below.RS-485Wiring Diagram 1D+D−PLC10V 721712132425SG+SD-SD+RD-RD51278SHELL*1*

1. Before Connecting to PLC 1-5InterfaceCN1 (D-sub 25-pin) (V7 series and V706 + DU-01)The following connector is recommended.CN1 (D-sub 25-pin, fema

27. TOSHIBA PLC 27-127. TOSHIBA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series a

27-2 27. TOSHIBA PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available

27. TOSHIBA PLC 27-3WiringWiring diagrams with the PLC are shown below.RS-422Wiring Diagram 1Wiring Diagram 22PLC34RXATXACTSARTSA5SG710111213RXBTXBCT

27-4 27. TOSHIBA PLCPlease use this page freely.

28. TOSHIBA MACHINE PLC 28-128. TOSHIBA MACHINE PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and

28-2 28. TOSHIBA MACHINE PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1TXDRXDPLCDTRGND2345DSRCTS678RTS123457SDRDRSCSSGS

29. Toyoda Machine Works PLC 29-129. Toyoda Machine Works PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of t

29-2 29. Toyoda Machine Works PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the ra

29. Toyoda Machine Works PLC 29-3WiringWiring diagram with the PLC is shown below.RS-422Wiring Diagram 1+0VPLC1712132425SG+SD-SD+RD-RD51278SHELL*1* U

29-4 29. Toyoda Machine Works PLCPlease use this page freely.

1-6 1. Before Connecting to PLCMJ2 (V706 only)*1 Switch between RS-232C and RS-422 for pin Nos. 1, 2, 7, and 8 with the slide switch on the MONITOUC

30. VIGOR PLC 30-130. VIGOR PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are a

30-2 30. VIGOR PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-485Wiring Diagram 2PLCRXDTXDSGRTS2357CTS 8123SDRDSHEL

31. Yamatake PLC 31-131. Yamatake PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series

31-2 31. Yamatake PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1PLCSDRDRS234CS 5SG 7123457SDRDRSCSSGSHELL875*1* Use shi

32. Yaskawa Electric PLC 32-132. Yaskawa Electric PLCAvailable PLCs* Other PLCs can also be connected with Memobus.Communication SettingThe recommend

32-2 32. Yaskawa Electric PLCCP9200SH/MP900Available MemoryThe available memory setting range varies depending on the PLC model. Be sure to set wit

32. Yaskawa Electric PLC 32-3WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2TXDRXDRTSCTSDSRSGNDDTR2345679P

32-4 32. Yaskawa Electric PLCWiring Diagram 3Wiring Diagram 4SDRDRSCSDR23456CP217IF(CN1)217IF(CN1/2)SGCD79123457SDRDRSCSSGSHELL875*1* Use shielded t

32. Yaskawa Electric PLC 32-5RS-422Wiring Diagram 5Wiring Diagram 6TXD+RXD+RXDSGTXDPLC236791712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-p

32-6 32. Yaskawa Electric PLCWiring Diagram 7Wiring Diagram 8RXRX+TXTX+CP217IF (CN3)12671SHELL*112132425+SD-SD+RD-RD1278* Use shielded twist-pair ca

1. Before Connecting to PLC 1-7Connection between MJ2 and PLCThere are two connection methods.• With MJ2-PLCOne method uses an adaptor MJ2-PLC for co

33. Yokogawa Electric PLC 33-133. Yokogawa Electric PLCAvailable PLCs*1 The CPUs that can be connected directly to the programming tool port on the C

33-2 33. Yokogawa Electric PLCCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as follows:FA50

33. Yokogawa Electric PLC 33-3Available MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range

33-4 33. Yokogawa Electric PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2SDRDRSCSDRSGER23456720PLC123

33. Yokogawa Electric PLC 33-5RS-422Wiring Diagram 3RDBRDASDBSDASGPLC1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 25-pi

33-6 33. Yokogawa Electric PLCPlease use this page freely.

Appendix 1 PLC2Way App1-1Appendix 1 PLC2WayPLC2Way• The “PLC2Way” function is an original network function where one V7 series can be connected to tw

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 conne

Appendix 1 PLC2Way App1-3PLCs Compatible with PLC2Way Connection at MJ Port• When connecting the V7 series to the PLC at the MJ port using PLC2Way fu

App1-4 Appendix 1 PLC2WayWiringTwo kinds of cables are available for PLC2Way connection at the MJ port. Cable connections are explained.Connecting

1-8 1. Before Connecting to PLC Wiring (1 : 1 Connection)Prepare the communication cable with the PLC on your side.Refer to the following informatio

Appendix 1 PLC2Way App1-5<RS-485 Connection>• Connection example with MITSUBISHI A1SJ71UC24-R4 (1 set)• Connection example with MITSUBISHI A1SJ

App1-6 Appendix 1 PLC2WayFor V706:• The terminating resistance should be set on the DIP switch in the side of the unit.• Set DIPSW1 to the ON positi

Appendix 1 PLC2Way App1-73. Select the MJ port.Click the [Refer to Modular] button. The [Modular Jack] dialog is displayed.Select [Temp./PLC2Way] fo

App1-8 Appendix 1 PLC2Way5. Set the parameters for the PLC to be connected at the MJ port.[Baud Rate] (4800, 9600, 19200, 38400, 57600, 115k, bps)Se

Appendix 1 PLC2Way App1-9Code and Text ProcessingFor the PLC connected at the MJ port, code and text processing cannot be set in the [Temp. Control/P

App1-10 Appendix 1 PLC2WayV-SFT Setting When the Temperature Control Network/PLC2Way Table is Used:The following operations are available when the

Appendix 1 PLC2Way App1-112. ClosingClick [Close] in the drop-down menu, or click the [Close] button at the top right corner.3. Comment settingThere

App1-12 Appendix 1 PLC2WayWhen (2) is clicked, a data type for the PLC2 memory can be set.[Word]This is the data length setting for the memory addre

Appendix 1 PLC2Way App1-13When (3) is double-clicked, the [Temp. CTRL/PLC2Way Table Setting] dialog is displayed.Set the memory addresses of the targ

App1-14 Appendix 1 PLC2WayData Sampling in the PLC2 MemoryTo perform data sampling in the PLC2 memory, the following settings are required.• Tempera

Record of RevisionsReference numbers are shown at the bottom left corner on the back cover of each manual.Printing Date Reference No. Revised Contents

1. Before Connecting to PLC 1-9RS-422/485 Connection• Connect twisted pairs between +SD/−SD and +RD/−RD.• If the PLC has the terminal for signal grou

Appendix 1 PLC2Way App1-152. Memory card settingWhen [SRAM] or [CF Card] is selected for [Store Target] in the [Buffering Area Setting] dialog, the m

App1-16 Appendix 1 PLC2WayData Transfer from the PLC2 MemoryData in the PLC2 memory can be transferred to the PLC memory, V7 internal memory or a me

Appendix 1 PLC2Way App1-17Indirect Memory DesignationIt is possible to have access to the PLC2 memory using the indirect memory designation as a macr

App1-18 Appendix 1 PLC2WayProcessing CycleThe processing cycle on the V7 series with the PLC2Way function is explained.1. When the temperature contr

Appendix 1 PLC2Way App1-19Notes on Screen Data TransferTemperature Control/PLC2 ProgramWhen using the temperature control network/PLC2Way communicati

App1-20 Appendix 1 PLC2WaySystem MemoryThe status of the PLC connected at the MJ port for PLC2Way communications is output to the system memory ($s)

Appendix 1 PLC2Way App1-21Details• $s729An execution result of macro command TEMP_READ, TEMP_WRITE, or TEMP_CTL is stored at this address.- [0]: A co

App1-22 Appendix 1 PLC2Way• $s762Periodical reading that is set in the [Temp. CTRL/PLC2Way Table Setting] dialog can be suspended.- [0]: Periodical

Appendix 2 n : 1 Connection (Multi-link 2) App2-1Appendix 2 n : 1 Connection (Multi-link 2)Multi-link 2• One PLC is connected to a maximum of four V7

App2-2 Appendix 2 n : 1 Connection (Multi-link 2)• This multi-link connection is available with almost all the PLC models that support 1 : 1 connect

1-10 1. Before Connecting to PLCV-SFT Setting (1 : 1 Connection)For serial communications, the following settings on the V-SFT editor are required.T

Appendix 2 n : 1 Connection (Multi-link 2) App2-3* When the terminal converter “TC485” is not used, install jumpers between +RD/+SD and −RD/−SD.For V

App2-4 Appendix 2 n : 1 Connection (Multi-link 2)(d)(e) Connection between terminal blocksUse the RS-485 2-wire connection.(b)(c)(d)(e) The maximum

Appendix 2 n : 1 Connection (Multi-link 2) App2-5Terminating Resistance SettingFor V7 Series:• The terminating resistance of the V7 series should be

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.• When the PLC an

Appendix 2 n : 1 Connection (Multi-link 2) App2-7Communication Parameter Setting• Setting Procedure[System Setting] → [Comm. Parameter] → [Comm. Para

App2-8 Appendix 2 n : 1 Connection (Multi-link 2)Please use this page freely.

Appendix 3 n : 1 Connection (Multi-link) App3-1Appendix 3 n : 1 Connection (Multi-link)Multi-link• One PLC is connected to multiple V7 series. (Maxi

App3-2 Appendix 3 n : 1 Connection (Multi-link)WiringConnection with Link UnitFor V7 Series:Use the RS-485 2-wire connection.(It is recommended that

Appendix 3 n : 1 Connection (Multi-link) App3-3For V706:For V706 + DU-01, refer to “For V7 Series:” above.Since MJ2 is adapted to 4-wire connection,

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

1. Before Connecting to PLC 1-11Choose the action to be taken against communication errors.[Comm. Err. Handling]Set error handling routine in the cas

Appendix 3 n : 1 Connection (Multi-link) App3-5V-SFT SettingThe following settings must be made on the V-SFT editor.Only the points different from th

App3-6 Appendix 3 n : 1 Connection (Multi-link)Please use this page freely.

Appendix 4 1 : n Connection (Multi-drop) App4-1Appendix 4 1 : n Connection (Multi-drop)1 : n ConnectionOne V7 series is connected to multiple PLCs.

App4-2 Appendix 4 1 : n Connection (Multi-drop)Wiring (RS-422/485)For connecting information, refer to the instruction manual for the PLC.Example:Th

Appendix 4 1 : n Connection (Multi-drop) App4-3Notes on Communication ErrorsProcessing for PLC Failure• If a communication error/timeout is detected

App4-4 Appendix 4 1 : n Connection (Multi-drop)Please use this page freely.

Appendix 5 Ethernet App5-1Appendix 5 EthernetEthernet• Transferring data in memoryData in memory can be transferred to the V7 series on the Ethernet

App5-2 Appendix 5 Ethernet- Screen data can be transferred from the V-SFT editor on the server to the V7 series.• Communications between the Etherne

Appendix 5 Ethernet App5-3Notes on Ethernet CommunicationsFor V7i:• To use Ethernet communications on V7i, use the 10BASE-T connector (LAN) provided

App5-4 Appendix 5 EthernetNames and Functions of Components1. LEDIndicates the status of the communication.2. Port number setting switchesSet the po

1-12 1. Before Connecting to PLCSystem Memory[Read Area] and [Write Area] must be secured for communications between the V7 series and the PLC.• Set

Appendix 5 Ethernet App5-5Option Unit DU-01SpecificationsPort PositionWhen the DU-01 mounted on the V706, the LAN port faces downward.ItemSpecificati

App5-6 Appendix 5 EthernetWiring10BASE-T Connection• Cable connection diagramStraight cable Cross cable(with HUB) (without HUB)• Notes on cablesUse

Appendix 5 Ethernet App5-7AUI Connection• 10BASE5The following devices are required for 10BASE5 connection:- Coaxial cable for 10BASE5- AUI cable- N-

App5-8 Appendix 5 Ethernet• 10BASE2The following devices are required for 10BASE2 connection:- Coaxial cable for 10BASE2- AUI cable- T-type adaptor-

Appendix 5 Ethernet App5-9Transferring Screen DataThis section describes the procedure for transferring screen data from the V-SFT editor on the serv

App5-10 Appendix 5 EthernetTransferring Screen Data from V-SFT Editor1. Click the [Transfer] icon. The [Transfer] dialog is displayed.2. Attach a c

Appendix 5 Ethernet App5-115. Check the IP address, and click [PC->].6. Data transfer is started.IP address for transfer target

App5-12 Appendix 5 EthernetV-SFT Setting: PLC Type/Communication ParameterTo enable Ethernet communications between the V7 series and a PLC, the fol

Appendix 5 Ethernet App5-13(B) Connecting to the PLC on the Ethernet1. PLC type settingSelect [System Setting] → [PLC Type] and select the PLC that s

App5-14 Appendix 5 Ethernet2. Communication parameter setting• Select [System Setting] → [Comm. Parameter]. Set the PLC to the V7 series which is c

1. Before Connecting to PLC 1-13• SCRN_No. (n + 2) Screen number commandUse example: To specify a screen number from the PLC:When “D0” is set for [Re

Appendix 5 Ethernet App5-15Set the port number (network table number) of the PLC in the [Memory Input] dialog for each part. For more information on

App5-16 Appendix 5 EthernetV-SFT Setting: Network Table EditingTo enable Ethernet communications on the V7 series, the following network table setti

Appendix 5 Ethernet App5-17Starting and Closing• StartingSelect [System Setting] → [Network Table Setting] → [Ethernet]. The network table edit wind

App5-18 Appendix 5 Ethernet- Cancel Monitor RegistrationClick this menu when canceling monitor registration.[View] menuThe items with a check mark a

Appendix 5 Ethernet App5-19[Send Timeout]Set the time-out time for the V7 series to send a EREAD/EWRITE command on the Ethernet.[Port No.] (256 to 65

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

Appendix 5 Ethernet App5-21V-SFT Setting: MacroThis section explains the macro commands (SEND/EREAD/EWRITE) used for the Ethernet. For more informat

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 fo

Appendix 5 Ethernet App5-23[SEND]Words from the F0 memory are transferred to the server of the network table number specified for F2. F1 designates

App5-24 Appendix 5 EthernetSystem MemoryThe Ethernet status is output to the system memory ($s) of the V7 series.This section explains the memory ad

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

Appendix 5 Ethernet App5-25$s553 Network table 33 status554 Network table 34 status555 Network table 35 status556 Network table 36 status557 Network

App5-26 Appendix 5 Ethernet$s600 Network table 80 status601 Network table 81 status602 Network table 82 status603 Network table 83 status604 Network

Appendix 5 Ethernet App5-27Addresses• $s514, 515These addresses are related to macro commands [SEND], [EREAD] and [EWRITE].$s514: Sets the executing

App5-28 Appendix 5 EthernetEthernet Access Functions (HKEtn10.DLL)To enable Ethernet communications between the server and the V7 series, it is nece

Appendix 5 Ethernet App5-29• Notes on use of the sample programsThe data type to be set when creating a program varies depending on whether Visual C+

App5-30 Appendix 5 EthernetFunction SpecificationsList• Read• Write• OthersPLC MemoryWordint HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int

Appendix 5 Ethernet App5-31ReadRead Words from PLC Memoryint HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAd

App5-32 Appendix 5 EthernetRead Double-words from PLC Memoryint HKEtn_ReadPlcMemory2(DWORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char

Appendix 5 Ethernet App5-33Read Words from Memory Card Memoryint HKEtn_ReadCardMemory(WORD *dp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD a

App5-34 Appendix 5 EthernetRead Bits from Internal Memoryint HKEtn_ReadInternalBitMemory(int *lpOnFlag,int DeviceType,DWORD addr,int BitNo,char *lpA

2. Allen-Bradley PLC 2-12. Allen-Bradley PLCAvailable PLCs*1 When using RS-232C ladder transfer cable made by Allen-Bradley, connect the cable shown

Appendix 5 Ethernet App5-35WriteWrite Words to PLC Memoryint HKEtn_WritePlcMemory(WORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpA

App5-36 Appendix 5 EthernetWrite Double-words to PLC Memoryint HKEtn_WritePlcMemory2(DWORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,char

Appendix 5 Ethernet App5-37Write Words to Memory Card Memoryint HKEtn_WriteCardMemory(WORD *sp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD a

App5-38 Appendix 5 EthernetWrite Bits to Internal Memoryint HKEtn_WriteInternalBitMemory(int DeviceType,DWORD addr,int BitNo,int OnFlag,char *lpAddr

Appendix 5 Ethernet App5-39Receive Wait from V7int HKEtn_Recvfrom(BYTE *dp,short *lpCnt)This function is retained internally until data is received f

App5-40 Appendix 5 EthernetGet Error Contentsint HKEtn_GetLastError()• Error codes and solutionsCode Contents Solution−1 Undefined command (receive

Appendix 5 Ethernet App5-41Server Communication ProcedureData Request from V7 to Server(1) Execute the receive wait thread using “int HKEtn_RecvFrom(

App5-42 Appendix 5 EthernetError DisplayError messages displayed on the V7 series and those stored in the system memory are explained.Communication

Appendix 5 Ethernet App5-43• System memory: $s518No. Contents Solution0 Normal200 Failed in send requestCheck cable connection and network table sett

App5-44 Appendix 5 EthernetErrors during Macro Command ExecutionThe execution result of macro commands SEND/EREAD/EWRITE is stored in system memory

2-2 2. Allen-Bradley PLCSLC500 SeriesMicro Logix 1000Available MemoryThe available memory setting range varies depending on the PLC model. Be sure

Appendix 6 Universal Serial Communications App6-1Appendix 6 Universal Serial CommunicationsInterfaceOutline of CommunicationAs shown in the diagram a

App6-2 Appendix 6 Universal Serial CommunicationsDifferences between Connecting to a General-purpose Computer and Connecting to the PLC• Input forma

Appendix 6 Universal Serial Communications App6-3Memory settings (for lamp, data display, etc.) are required during screen creation, and the memory a

App6-4 Appendix 6 Universal Serial CommunicationsSystem Composition• 1 : 1 connection (one computer, one V series unit)(For wiring, refer to page Ap

Appendix 6 Universal Serial Communications App6-5Input/Output ConnectorThe connection method for communication between a general-purpose personal com

App6-6 Appendix 6 Universal Serial CommunicationsCN1: RS-232C Connector SpecificationsThe specifications for the RS-232C connector that links to the

Appendix 6 Universal Serial Communications App6-7• Interface connector- Use the following types of RS-232C cable connectors.D-sub 25-pin connector (m

App6-8 Appendix 6 Universal Serial Communications<2-wire system>* Use TC485 (Terminal Converter, optional) when V series is connected on the t

Appendix 6 Universal Serial Communications App6-91 : n Connection* When you go to [Comm. Parameters] under the [System Setting], to [Main2], and chec

App6-10 Appendix 6 Universal Serial CommunicationsMJ2 (V706 only) Specifications as an RS-232C ConnectorThe pins of modular jack 2 correspond to sig

2. Allen-Bradley PLC 2-3SLC500 Series, Micro Logix 1000PLC-5 Series: Switch Setting1785-KESW1 (Protocol)SW2 (Station number)Set the station number of

Appendix 6 Universal Serial Communications App6-11MJ2 (V706 only) Specifications as an RS-422 ConnectorThe pins of modular jack 2 correspond to signa

App6-12 Appendix 6 Universal Serial Communications1 : n Connection* When you go to [Comm. Parameters] under the [System Setting], to [Main2], and ch

Appendix 6 Universal Serial Communications App6-13<4-wire system>+SD-SD+RD-RD51278SG+SD-SD+RD-RDSG+SD-SD+RD-RD51278SG+SD-SD+RD-RDSG+SD-SD+RD-RD

App6-14 Appendix 6 Universal Serial CommunicationsSystem SettingModel SettingSelect universal serial as the model that will communicate with the V s

Appendix 6 Universal Serial Communications App6-152. The [Comm. Parameter] dialog comes up. In the [Main 1], [Main 2], and [Detail] tab windows, set

App6-16 Appendix 6 Universal Serial Communications• Read AreaThis memory area is necessary when the display screen is changed by a command received

Appendix 6 Universal Serial Communications App6-17- System memory ($s) within internal memory * The switch interrupt information of SW0 and SW1 is wr

App6-18 Appendix 6 Universal Serial Communications- n + 7 (ENT2) entry information 2The entry mode window number where a write operation was execute

Appendix 6 Universal Serial Communications App6-19• Read Clear Escape (Backup) AddressSet the top address for the read clear backup area. The area s

App6-20 Appendix 6 Universal Serial Communications• InterruptThere are five interrupt settings:Switch ON interruptSwitch OFF interruptKeypad interru

2-4 2. Allen-Bradley PLCSW3 (Network link communication speed)Adjust to the settings of the network you are using.SW4 (Reserved)1770-KF2SW1 (Protoco

Appendix 6 Universal Serial Communications App6-21• Data LengthFixed at 8 bits.• Stop BitStop bit settings are shown below.1 bit2 bits• CodeFixed at

App6-22 Appendix 6 Universal Serial CommunicationsConnection (1 : 1), Transmission Mode (w/ sum check)Used when one host communicates with one V ser

Appendix 6 Universal Serial Communications App6-23<Interrupt Processing (See page App6-38 and page App6-39.)>• Interrupt conditionsAn interrupt

App6-24 Appendix 6 Universal Serial CommunicationsConnection (1 : 1), Transmission Mode (w/ sum check and CR/LF)Used when one host communicates with

Appendix 6 Universal Serial Communications App6-25<Interrupt Processing (See page App6-38 and page App6-39.)>• Interrupt conditionsAn interrupt

App6-26 Appendix 6 Universal Serial CommunicationsConnection (1 : n), Transmission Mode (w/ sum check)It is possible to attach as many as 32 V serie

Appendix 6 Universal Serial Communications App6-27Connection (1 : n), Transmission Mode (w/ sum check and CR/LF)It is possible to attach as many as 3

App6-28 Appendix 6 Universal Serial CommunicationsData Items for Protocols• Transmission control codeThe transmission control codes are shown in the

Appendix 6 Universal Serial Communications App6-29Response Time and BUSYResponse time varies depending on the type of command.• RM / RI / RCThese com

App6-30 Appendix 6 Universal Serial CommunicationsGlobal Port Number (FFH)Active for connection mode (1 : n).When the port number is set as [FFH] an

PrefaceThank you for selecting the MONITOUCH V7 series.For correct set-up of the V7 series, you are requested to read through this manual to understan

2. Allen-Bradley PLC 2-5SW7 (Network link selection)SW8 (RS-232C/RS-422 selection)SLC500 Series, Micro Logix 100: Transmission Parameter SettingCPU P

Appendix 6 Universal Serial Communications App6-31Read CHR CommandWhen memory contents are in the form of characters when data is read, 1 character (

App6-32 Appendix 6 Universal Serial CommunicationsRead Memory CommandNote: Due to the fact that communication speed is increased when you use the re

Appendix 6 Universal Serial Communications App6-33Write CHR CommandWhen memory contents are in the form of characters, it is necessary to use a write

App6-34 Appendix 6 Universal Serial CommunicationsWrite Memory CommandNote: Due to the fact that communication speed is increased when you use the w

Appendix 6 Universal Serial Communications App6-35Retry CommandUse this command when a write command/write CHR command is sent and an NAK error code

App6-36 Appendix 6 Universal Serial CommunicationsInterrupt Setting Command• Interrupt setting command- Host sideInterrupt conditions can be specifi

Appendix 6 Universal Serial Communications App6-37Interrupt Status Read Command• Interrupt status read command- Host sideInterrupt status is read.Dat

App6-38 Appendix 6 Universal Serial CommunicationsInterrupt (ENQ)When interrupt is used when the connection mode is (1 : 1)*, this code is transmitt

Appendix 6 Universal Serial Communications App6-39It is possible to use a macro command to initiate an interrupt.There are two ways to use a macro co

App6-40 Appendix 6 Universal Serial CommunicationsSwitch Output (See page App6-16, page App6-23 and page App6-38.)When [Output Action] of a switch i

2-6 2. Allen-Bradley PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2TXDRXDPLCRTSCTS23456DSRSG 781113DC

Appendix 6 Universal Serial Communications App6-41The switch number is written in the following way in write areas n + 3 and n + 4.When the MONITOUCH

App6-42 Appendix 6 Universal Serial Communications09H: Received data overThe number of write command data received from the host exceeded that of da

Appendix 6 Universal Serial Communications App6-431-byte Character Code List2SP!"#$%&’()+,./30123456789:;<=>?4@ABCDEFGHIJKLMNO5PQRSTUV

App6-44 Appendix 6 Universal Serial CommunicationsMemory MapMemoryInside the V series, there is internal memory necessary for screen display called

Appendix 6 Universal Serial Communications App6-45System Memory ($s)System memory is memory that writes V series action status when the V Series is c

App6-46 Appendix 6 Universal Serial Communications• Address 0080 to 0095The [Output Memory] of a switch is assigned to bits in this area.Set [Output

Appendix 6 Universal Serial Communications App6-47Switch ON Macro ActionThe macro command that controls a repeat function in the switch ON macro, as

App6-48 Appendix 6 Universal Serial CommunicationsPlease use this page freely.

Appendix 7 V-Link App7-1Appendix 7 V-LinkV-Link• “V-Link” is the network where the computer reads from and writes to the internal memory of the V7 se

App7-2 Appendix 7 V-LinkWiringCableUse Hakko Electronics’ cable “V6-TMP” (3 m) for connection with a computer.The shielded cable of V6-TMP is connec

2. Allen-Bradley PLC 2-7Wiring Diagram 3Wiring Diagram 4DCDRXDTXDDTR12345COMDSR 678RTSCTSPLC123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cable

Appendix 7 V-Link App7-3RS-485 (V7 series: maximum 31 sets)Wiring example of above (a) and (b)CN1CN1CN1MJ2/1MJ2/1 MJ2/1abV6-TMPRS-232CRS-422RS-485PLC

App7-4 Appendix 7 V-LinkV-SFT SettingThe V-SFT settings required for V-Link are explained.V-Link Setting1. Click [System Setting] → [V-Link Setting]

Appendix 7 V-Link App7-5ProtocolRead (with sum check and CR/LF)STXCommandResponse(Normal communication)Read Command*11111111222222218441221112STXACKS

App7-6 Appendix 7 V-LinkWrite (with sum check and CR/LF)1111222218440064H30H31H02HBA 2102H03H30H30H36H34H41H42H31H32H34H32H34H31H33H32H33H31H01H02H3

Appendix 7 V-Link App7-7Data Items for Protocols• Transmission control code: 1 byte• V7 port number: 2 bytesPort numbers are used so that the host co

App7-8 Appendix 7 V-Link- Expansion codeSet the slot number of the CPU memory of the MITSUBISHI PLC or the CPU number of the YOKOGAWA PLC.Example:MI

Appendix 7 V-Link App7-9NAK: Error Codes02H: Overrun/Framing errorAn overrun or framing error is detected in the received data.Send the command again

App7-10 Appendix 7 V-Link1-byte Character Code List2SP!"#$%&’()+,./30123456789:;<=>?4@ABCDEFGHIJKLMNO5PQRSTUVWXYZ[]^_6’abcdefghijklmn

List-1Connection Compatibility ListV712/V710/V708/V706+DU-01• 1 : 1...One set of the V7 series is connected to one PLC (

List-2 *1 When the V7 series is connected to the PLC on a controller network, it is possible to perform communications with other PLCs on the same n

2-8 2. Allen-Bradley PLCWiring Diagram 5RS-422Wiring Diagram 6PLCRDSDRS2CD 134GND 5DR 6RS 7CS 8MicroLogix1000123457SDRDRSCSSGSHELL875*1* Use shielde

List-3V706• 1 : 1...One set of the V706 series (MJ2) is connected to one PLC (1:1 connection).• 1 : n...

List-4 *1 When the V7 series is connected to the PLC on a controller network, it is possible to perform communications with other PLCs on the same n

402000002200NE0Hakko Electronics Co., Ltd.890-1, Kamikashiwano-machi, Matto-shi, Ishikawa, 924-0035 JapanTEL (076)274-2144 FAX(076)274-5208TE

2. Allen-Bradley PLC 2-9Wiring Diagram 7TXDRXDPLCCOMRXD+12569TXD+1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 9-pin (ma

2-10 2. Allen-Bradley PLCPlease use this page freely.

3. Automationdirect PLC 3-13. Automationdirect PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and

3-2 3. Automationdirect PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range av

3. Automationdirect PLC 3-3Wiring Diagram 2Wiring Diagram 3SGPLCRxDTxD134654321123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.Modular con

3-4 3. Automationdirect PLCWiring Diagram 4RS-422Wiring Diagram 5TXDRXDPLC0V2313123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-sub 15-

Notes on Safe Use of MONITOUCHIn this manual, you will find various notes categorized under the following levels with the signal words “DANGER,” and “

3. Automationdirect PLC 3-5Wiring Diagram 6TXD3+TXD3−PLCRXD3+RXD3−12132425SG 71712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-

3-6 3. Automationdirect PLCPlease use this page freely.

4. Baldor PLC 4-14. Baldor PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as

4-2 4. Baldor PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1PLCRXDTXDDTRSG2345DSRRTSCTS678123SDRDSHELL87*17SG5* Use shi

5. DELTA PLC 5-15. DELTA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as f

5-2 5. DELTA PLCWiringWiring diagram with the PLC is shown below.RS-485Wiring Diagram 1+PLC-1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist

6. FANUC PLC 6-16. FANUC PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as f

6-2 6. FANUC PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-422Wiring Diagram 2SDBPLCJD42RDB1790V18123457SDRDRSCSSG

6. FANUC PLC 6-3Wiring Diagram 3PLCJD40RXDTXD13245RTS67CTS8*CTS*RTS*TXD*RXD120V1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D

6-4 6. FANUC PLCPlease use this page freely.

• Check the appearance of the unit when it is unpacked. Do not use the unit if any damage or deformation is found. Failure to do so may lead to fire

7. FATEK AUTOMATION PLC 7-17. FATEK AUTOMATION PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and

7-2 7. FATEK AUTOMATION PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RTS1RXD1CTS1SG1346TXD1 2PLC1234

7. FATEK AUTOMATION PLC 7-3RS-422Wiring Diagram 3SGD+DPLC1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 25-pin (male)RJ-4

7-4 7. FATEK AUTOMATION PLCPlease use this page freely.

8. Fuji Electric PLC 8-18. Fuji Electric PLCAvailable PLCs*1 To use FLEX-PC of Toyota version, select [FLEX-PC (T)].*2 To use FLEX-PC CPU of Toyota v

8-2 8. Fuji Electric PLCFLEX-PC COM (T) (NJ Computer Link) Toyota VersionMICREX-F Series, SPB (N Mode) & FLEX-PC Series: Switch SettingMODE swit

8. Fuji Electric PLC 8-3Available MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range availa

8-4 8. Fuji Electric PLCSPB (N Mode) & FLEX-PC Series, SPB (N Mode) & FLEX-PC CPU PortFLEX-PC COM (T) (NJ Computer Link) Toyota VersionStand

8. Fuji Electric PLC 8-5WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2SDRDRSCSDRPLC23456SGCD78123457SDRDR

8-6 8. Fuji Electric PLCRS-485Wiring Diagram 3RS-422Wiring Diagram 4SDASDBRDARDBSGPLC1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair c

[General Notes]• Never bundle control cables and input/output cables with high-voltage and large-current carrying cables such as power supply cables.

9. GE Fanuc PLC 9-19. GE Fanuc PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series ar

9-2 9. GE Fanuc PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available

9. GE Fanuc PLC 9-3WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-485Wiring Diagram 2SDPLCRDRS2345CS7GND123457SDRDRSCSS

9-4 9. GE Fanuc PLCWiring Diagram 3RTS(A)PLC0VCTS(B’)6789RT101112RD(A’)RD(B’)SD(A)SD(B)RTS(B)CTS(A’)1314151712132425SG+SD-SD+RD-RD51278SHELL*1* Use

10. Hitachi PLC 10-110. Hitachi PLCAvailable PLCs*1 When using the HITACHI’s EH-RS05 or CNCOM-05 cable, connect the cable shown in [Wiring Diagram 1]

10-2 10. Hitachi PLCCPU ModuleThe peripheral port setting should be “transmission control protocol 1 without port.” No other setting is available.H

10. Hitachi PLC 10-3HIDIC-S10/2αHIDIC-S10/ABSMemory TYPE RemarksFW (work register) 0X (input relay) 1 XW as word deviceY (output relay) 2 YW as word

10-4 10. Hitachi PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RDCS35SDRSSD 2RDCSFG 1SG 7DRPHLSGPV122

10. Hitachi PLC 10-5Wiring Diagram 3RS-422Wiring Diagram 4RDSDERSGDRRSCS2CD 1345678PLC123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-su

10-6 10. Hitachi PLCWiring Diagram 5When connecting to the S10xα series, add a resistor of 50 Ω (1/2 W) as shown below.URX HUTX HURX LPLCUTX L50501S

ContentsPrefaceNotes on Safe Use of MONITOUCH1. Before Connecting to PLCTypes of Connection...

11. IDEC PLC 11-111. IDEC PLCAvailable PLCs* When using RS-232C cable “FC2A-KC2” made by IDEC, connect the cable shown in [Wiring Diagram 3] to the D

11-2 11. IDEC PLCWiringWiring diagram with the PLC is shown below.RS-232CWiring Diagram 1PLCSDRDER2CD 134GND 5DR 6RS 7CS 8123457SDRDRSCSSGSHELL875*1

12. KEYENCE PLC 12-112. KEYENCE PLCAvailable PLCs*1 For connection to MJ2 of a V706, use an MJ2-PLC adaptor plus KZ-C20 and MB-CPUQ.*2 To connect KZ-

12-2 12. KEYENCE PLCCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as follows:KZ Series Link

12. KEYENCE PLC 12-3KV-700 CPU*1 Maximum baud rate available is 57600 bps. Select the appropriate baud rate depending on the used PLC and environmen

12-4 12. KEYENCE PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available

12. KEYENCE PLC 12-5WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2SDPLCRD234RSCSSG57123457SDRDRSCSSGSHELL

12-6 12. KEYENCE PLCWiring Diagram 3Wiring Diagram 4SDCSPLCSGRDRS31456123456123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-sub 25-pin

12. KEYENCE PLC 12-7Wiring Diagram 5RS-422Wiring Diagram 6PLC345RDSDSG123456123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.Modular jack,

12-8 12. KEYENCE PLCPlease use this page freely.

10. Hitachi PLCAvailable PLCs ...

13. KOYO ELECTRONICS PLC 13-113. KOYO ELECTRONICS PLCAvailable PLCs*1 When connecting to MJ2 on the V706, use an MJ2-PLC adaptor plus the designated

13-2 13. KOYO ELECTRONICS PLCCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as follows:Avail

13. KOYO ELECTRONICS PLC 13-3Switch SettingU-01DMOn-line/Off-line switch: On-lineUNIT ADR switch: “0” for ×10, “1” for ×1SW4 DIP switch:SW5 DIP switc

13-4 13. KOYO ELECTRONICS PLCG-01DMOn-line/Off-line switch: On-lineShort plug 1: openShort plug 2: RS-232C . . . . . ENABLERS-422 . . . . . . DISENA

13. KOYO ELECTRONICS PLC 13-5WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2SDRDPLCRSCSSG23457123457SDRDRS

13-6 13. KOYO ELECTRONICS PLCRS-422Wiring Diagram 3Wiring Diagram 4+RTS−RTSPLC+CTS−CTS+OUT−OUT−IN+IN−IN+IN101112131415161724251500V 71712132425SG+SD

13. KOYO ELECTRONICS PLC 13-7Wiring Diagram 5Wiring Diagram 6T1T2PLCT3FG1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 25

13-8 13. KOYO ELECTRONICS PLCWiring Diagram 7Wiring Diagram 8RXD+RXDPLCCTS1+TXD1+TXD1RTS1+RTS1CTS1+910111416181923SG 71712132425SG+SD-SD+RD-RD51278S

14. LG PLC 14-114. LG PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the V7 series are as foll

14-2 14. LG PLCMASTER-KxxxS CNET / GLOFA CNET / GM Series CPUAvailable MemoryThe available memory setting range varies depending on the PLC model.

20. SAIA PLCAvailable PLCs ...

14. LG PLC 14-3MASTER-KxxxSMASTER-KxxxS CNETGLOFA CNET / GM Series CPUMemory TYPE RemarksP (input/output relay) 0 Input: Read onlyM (auxiliary relay)

14-4 14. LG PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2PLCRXDTXDGND235123SDRDSHELL87*17SG 5* Use s

14. LG PLC 14-5Wiring Diagram 3Wiring Diagram 4PLCRXDTXDGND235RTSCTS78123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-sub 25-pin (male)D

14-6 14. LG PLCWiring Diagram 5RS-422Wiring Diagram 6PLCRXDSGTXD457123SDRDSHELL87*17SG 5* Use shielded twist-pair cables.D-sub 9-pin (male)D-sub 25-

14. LG PLC 14-7Wiring Diagram 7RDARDBPLCSGSDASDB1712132425SG+SD-SD+RD-RD51278SHELL*1* Use shielded twist-pair cables.D-sub 25-pin (male)RJ-45 8-pinV

14-8 14. LG PLCPlease use this page freely.

15. Matsushita Electric Works PLC 15-115. Matsushita Electric Works PLCAvailable PLCs*1 For connection to MJ2 of a V706, use an MJ2-PLC adaptor plus

15-2 15. Matsushita Electric Works PLCMEWNET: Link Unit Switch SettingAvailable MemoryThe available memory setting range varies depending on the PLC

15. Matsushita Electric Works PLC 15-3WiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2PLCSDSGCD278ER 9RS 4C

15-4 15. Matsushita Electric Works PLCWiring Diagram 3RS-422Wiring Diagram 4PLCSDSGRD123457SDRDRSCSSGSHELL875*1* Use shielded twist-pair cables.D-su