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PLC Connection Manual - Fuji Electric Corp. of America

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1. Appendix 5 Ethernet App5 15 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 Memory Input PLC Memory MITSUBISHI QnH aF Type D y 00100 Edit Network Table Intemal Mem Edit Network Table f Mo Y Host Name IP Address Send Timeout l of 3 e rl o PLC 192 168 1 58 15 Indirect Fy Sy Spee Y7 192 168 1 68 15 192 168 1 66 15 4 5 6 c o E eala PESE Cancel Refer 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 e 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 Server Ethernet 00000000 I Ethernet ready PLC gt RS 232C RS 485 e The network table is transferred to the V7 series together with screen data Server Transfer 00000000 Screen data I F driver Network table Appendix 5 Ethernet App5 17 Starting and Closing e Starting Select System Setting gt Network Table Setting gt Ethernet The network table edit window is displayed Cl
2. AJ71C24 S6 A2A A3A AJ71C24 S8 AJ71UC24 RS 232C Wiring Diagram 2 O A2U A3U A4U AJ71UC24 AJ71C24 A1 A2 A3 AJ71C24 S3 A1N A2N A3N AJ71C24 S6 A3H A3M A73 AJ71C24 S8 RS 422 Wiring Diagram 5 O AJ71UC24 A series link A2US A1SJ71UC24 R4 A18J71UC24 PRF A1SJ71C24 R2 A1S A1SJ A2S A1SJ71C24 R4 RS 422 Wiring Diagram 5 A1SJ71C24 PRF CPU built in link port RS 232C Wiring Diagram 1 A1SJ71UC24 R2 RS 232C Wiring Diagram 1 QnH A mode A1SJ71UC24 R4 RS 422 Wiring Diagram 5 RS 232C Wiring Diagram 2 AJ71QC24N RS 422 Wiring Diagram 5 RS 232C Wiring Diagram 2 AJ71QC24 RS 422 Wiring Diagram 5 QnA series link oo x RS 232C Wiring Diagram 1 A1SJ71QC24 RS 422 Wiring Diagram 5 AJ71QC24 R4 CH1 RS 422 Wiring Diagram 6 AJ71QC24 R4 CH2 RS 422 Wiring Diagram 5 QnH Q mode RS 232C Wiring Diagram 1 QJ71C24 Q00 Q01 Q00J RS 422 Wiring Diagram 5 QnH Q series link RS 232C Q00 Q01 Tool port 2 Hakko Electronics cable A link Net10 Standard type link unit for A series link For more information on A link Net10 refer to page 16 13 2 For notes on the connection between the tool port of a Q00 Q01 CPU and the V7 series using the serial communication function refer to page 16 3 For the description of the ladder transfer function refer to page 16 15 3 For connection to MJ2 of a V706 use an MJ2 PLC adaptor plus QCPU2 QCPU2 16 MITSUBISHI ELECTRIC PLC
3. oe cee 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 6 FANUC PLC 6 1 6 FANUC PLC Available PLCs 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 CTI ATT ON O TO CCT TO 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 aa abe AA D X input relay Y output relay keep relay T timer counter O6 WK as word device EE K 6 2 6 FANUC PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Nam pef j r PLC JD42 Half pitch 20 pin 1 Ai 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 RS 422 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame en e sL was xX e A Al ero 7 2 FAs a eo e as 4 Pin No 1 of CN1 is used Use shielded twist pair cables as FG The metal shell of the modular jack
4. C counter contact 13 KOYO ELECTRONICS PLC Switch Setting U 01DM On line Off line switch On line UNIT ADR switch 0 for x10 1 for x1 SW4 DIP switch PC N 2 on lr rmaly 19200 ps Normally 19200 bps a N Response delay time SW5 DIP switch G 01DM 13 KOYO ELECTRONICS PLC 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 e AL ONE 2 F Unit No 1 O ee E O OFF Pe a Co o j SW2 DIP switch on 2 Same as that set on V7 Normally 19200 bps o AECI 13 KOYO ELECTRONICS PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC D sub 25 pin male 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Sianal PLC igna Pin No High density D sub 15 pin male 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 13 KOYO ELECTRONICS PLC RS 422 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame Pa peal fp PLC D sub 25 pin male 1 Pin No 1 of CN1 is used
5. Window No Contents o esme In case of using the Table Data Display s as the entry targets of the Entry mode The line number and the column number will be output to the address n 1 and the block number to the address n 2 of the Info Output Memory when the bit No 12 of Command Memory in the Entry dialog is ON 1 In only this case therefore the window number cannot be referred because the block number is output to the address n 7 ENT2 of the write area Please take note of this n 8 GREPNS global response A response to a global command is written The contents of a response are shown in the following table 0000 Global command not received 0100 ACK Identical to NAK code n 9ton 15 Reserved for functions expanded in the future e Calendar The values written in the calendar area are used for the calendar display Set the top memory number The relationship between memory and the calendar is shown in the following table Calendar settings are performed in the read area under RCVDAT n 0 at the leading edge of bit 11 The V series calendar uses the CPU clock When precise time is necessary set the calendar once a day Time loss approximately 90 seconds a month e 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
6. xl 7 8 9 10 ai 0 a A AA A EN Info Output Memory u16340 cee MV Use Sample Buffer a Memory Designation Door Sampling Method Temp Control Net PLC2 y eal Store Target No of Table 0 g Internal Buffer Sampling Time C SRAM C CF Card No of Samples peepee rm Full Processing tpu 1 l Continuous GN C Stop 7 Use Operation Use Start Bit M Use way 7 Replay Sound Consect Sampling Method Temperature Control Net PLC2 No of Table Select the temperature control network PLC2Way table number for sampling No of Samples Specify the number of sampling times Store Target Internal Buffer SRAM CF Card Choose the desired medium for storing sampling data Internal Buffer Stores data in the internal buffer of the V7 series RAM SRAM Stores data in the SRAM area SRAM mounted on the unit V7EM S REC MCARD SRAM CF Card Stores data in the CF card Full Processing Continuous Stop Choose the desired processing when the target medium space has been used up Continuous When No of Samples has been exceeded data from the oldest is discarded Stop When No of Samples has been exceeded sampling is stopped Calculating the buffering area capacity When Internal Buffer is selected for Store Target in the Buffering Area Setting the maximum available capacity is 32k words When Temp Control Net PLC2 is selected for Sampling Method t
7. A Series CPU QnA Series CPU QnH Series CPU Q00J 00 01 CPU Q02 Q02H QnH Q series QO6H 2 RS 232C Tool port CPU Q12H p Hakko Electronics cable Q25H QCPU2 2 x QnH A series CPU QO6H A Tool port x x Q00J 00 01 CPU Tool port FX Series RS 232C Hakko Electronics cable PC CX24A 4 RS 422 FX series CPU PALA Tool port i Hakko Electronics cable MB CPUQ or Wiring Diagram 7 FXON RS 422 FX2N 1N oa ae cable FX2N series CPU MI4 FX FX2NC or Tool port Hakko Electronics cable x MB CPUQ FX1S series CPU FX1S t MITSUBISHI s conversion cable FX 20P CADP A2A A3A A2U A3U A4U A2US H A1N A2N A3N A series CPU POVAT RS 422 o A3H A3M Hakko Electronics cable A0J2H Tool port MB CPUQ A1S H A1SJ H A2S H or A2CCPUC24 Wiring Diagram 7 A1FX Q2A Q3A Q4A RS 422 Hakko Electronics FX2N 422 BD cable MI4 FX 2 x FX1N 232 BD RS 232C Wiring Diagram 3 EX series link ae FX1N 485 BD RS 485 Wiring Diagram 8 RS 422 Hakko Electronics FX1 N 422 BD cable MI4 FX 2 x FXON 232ADP RS 232C Wiring Diagram 4 WN FXON FXON 485ADP RS 485 Wiring Diagram 8 TN FXON 232ADP RS 232C Wiring Diagram 4 FX2NC FXON 485ADP RS 485 Wiring Diagram 8 For more information of V MDD dual port interface refer to page 16 15 2 For the ladder transfer function used when directly connecting the QnH series CPU refer to page 16 15 3 For connection to MJ2 of a
8. Communication port 1 234 Stop bit 2 bits parity even baud rate 19200 Communication port 2 236 Stop bit 2 bits parity even baud rate 19200 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 XXXXX relay ME _ for word device DXXXX timer counter current value 1 2 3 Fn file register 1 File Register Setting on V SFT Editor Example F1 00002 Enter file number colon address in order ji Address Colon File number 22 SHARP PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male or fea 1 f 7 PLC D sub 15 pin male 1 Pin No 1 of CN1 is used as FG I The metal shell of the E E modular jack 2 on the A o y V706 is used as SG Use shielded twist pair cables Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal CS PLC D sub 15 pin male 4 tee 1ofCN1isused Use shielded twist pair cables as FG The metal shell of the modular jack 2 on the V706 is used as SG 22 SHARP PLC RS 422 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ft euf J PLC D sub 15 pin male 1 P
9. For more information on the cable for 1 1 connection at CN1 refer to Wiring in Chapter 2 to Chapter 33 e This combination of cables MJ D25 1 1 connection cable can be used either for RS 232C or RS 485 RS 422 2 wire connection V7 series 1 1 connection cable E diag RS 232C RS 485 RS 422 E e With RS 485 2 wire connection a maximum of 31 PLCs can be connected For information on connection between PLCs refer to the instruction manual for the PLC Connecting Method 2 Using V6 TMP e Use Hakko Electronics cable V6 TMP 3 m when connecting the V7 series to a PLC at the MJ port 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 V6 TMP Notes on Use of V6 TMP There are six wires in the V6 TMP cable as shown Brown on the right Red The wires to be used are determined depending on g e E the connecting method Yellow For the wires not used be sure to properly insulate Black SD RD with tape etc Green SD RD lt RS 232C Connection gt e Connection example with MITSUBISHI A1SJ71UC24 R2 Modular jack 8 pin a d hee SD Yellow EN RD Orange l l 1 V6 TMP is connected to FG i when the V7 series is used and l to SG when the V706 is used Appendix 1 PLC2Way App1 5 lt RS 485 Connection gt e Connection example with MITSUBISHI A1SJ
10. 14 LG PLC 14 LGPLC Available PLCs MASTER K10 60 200 K10 60 200 RS 232C Wiring Diagram 1 MASTER K500 1000 K500 1000 siping MAL oe 2 RS 422 Wiring Diagram 6 MASTER KxxxS K200S K300S K1000S CPU port RS 232C Wiring Diagram 3 GLOFA CNET G4L CUEA RS 422 Wiring Diagram 7 GLOFA GM series CPU GM4 GM6 GM7 CPU port RS 232C Wiring Diagram 5 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows MASTER K10 60 200 CTI ET ews O o S S MASTER K500 1000 Item Setting on PLC V7 Comm Parameter Setting None ec ee 4 For signal level RS 422 baud rate is fixed to 9600 bps MASTER KxxxS Setting on PLC V7 Comm Parameter Setting Baud rate 38400 bps 38400 bps None Pec ey 14 LG PLC MASTER KxxxS CNET GLOFA CNET GM Series CPU Setting on PLC V7 Comm Parameter Setting Parity Not provided Not provided Transmission Data length BP E Stop bit 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 MASTER K10 60 200 TYPE b Geese CTN m eowyn A K esey O o t TC timer current value E CC counter current value A EE CS counter set value MASTER K500 1000 TYPE P mowo O o eera OOOO O May A A COo T timer current value C counter set v
11. Busy Time 10 msec or less Command Available commands are shown below Signal Name Contents PR Read Reamer OOOO TR WI RC WC AR y Rey when AROS BUSY OOOO y O w itempr Sting Aow irterupt Connection made TY Ri Read interrupt Satus Read interrupt seting status Connection mode 1 1 Re Read CHR Read data memory as characes we wec Wte deta memory as characters App6 30 Appendix 6 Universal Serial Communications 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 Commands for which global port number are active are shown below If commands other than these are used a command error will occur Write CHR Write data memory as characters Responses to global port numbers are not transmitted to the host However responses are written in write area n 8 as shown below 0000H Global command not received 0100H ACK Identical to NAK code See page App6 41 Appendix 6 Universal Serial Communications App6 31 Read CHR Command When memory contents are in the form of characters when data is read 1 character 1 byte is converted into 2 byte ASCII code and transmitted However when this command is used contents are not converted before transmission and thus the transmission time is decreased by approximately 1 2 e Read C
12. C Allowed C Allowed C Allowed C Allowed Cancel s 2 The Comm Parameter dialog comes up In the Main 1 Main 2 and Detail tab windows set When using multi drop go to the Detail tab window check 1 n for Connection and enter Local No It is possible to set the transmission mode by going to the Detail tab window and making settings for Trans Mode Setting Items e Baud Rate Set the communication speed between the host and the V series The possible speed settings are shown below 4800 bps 9600 bps 19200 bps 38400 bps 57600 bps 76800 bps 115 kbps e Signal Level Set the communication level between the host and the V series RS 232C RS 422 App6 16 Appendix 6 Universal Serial Communications e 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 Address Contents n 0 RCVDAT Sub command data SCRN_COM Screen status command SCRN_No External screen command e Write Area This memory area is used to write information regarding screen number overlap and input mode when the screen display status is changed by a command received from the host Be sure to allocate only u memory Address allocation is shown in the table below ss James MCCOY IEC ESC ETT nea sono pio
13. CR counter current value BD data memory 1 WS step control relay 2 Wn file memory 4 For numerical data format where double words can be used Num Data Display Graph Sampling data is processed as double words For those where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits 2 Byte device such as step relay is processed as described below For input Upper 8 bits are 0 For output Lower 8 bits are written 3 To set up the file memory on the V SFT editor enter file number Example W30 00002 colon address in order ow A L Address Colon File number Notes on V4 or GD 80 data conversion When converting data of V4 or GD 80 into the V7 data MICREX F series V4 is automatically selected for the PLC type 8 4 8 Fuji Electric PLC SPB N Mode amp FLEX PC Series SPB N Mode amp FLEX PC CPU Port w wess o a SOS w wos RA M merar M 2 maswa O OO OS C emen k o we 0 oros x mwee x a aswar O OOS Y oware v s veras oras C wife if SSS IN imereurentvany AN en tcounereurentvaney e e times tT es SSS COMTE CI wf SSS ws teepreay TAN FLEX PC COM T NJ Computer Link Toyota Version w ees CTN SSCS Rima A e egte T meet a Fen counterourentvane ECT SSS mean T e emon TIN z waes AR 8 Fuji Electric P
14. Command Registration registration number 2 number read pios es k 4 Latest user Port CPU No 1 Command 0 Normal 3 log read number 0 to 3 0 See Header n th user log Port CPU No 1 1 Command 0 Normal 3 read number 0 to 3 1 to 63 Za Error 3 ASCII Return data Data stored from PLC2Way to V7 series 2 Set 0 for CPU No 1 3 The registration number is stored in special register Z105 4 Ifthere is no user log in the n 2 memory or there is an error in communications 1 is stored App1 18 Appendix 1 PLC2Way Processing Cycle The processing cycle on the V7 series with the PLC2Way function is explained When the temperature control network PLC2Way table is not used PLC data 1 PLC data n a PLC data 1 PLC data 2 connected at PLC data 3 connected at PLC data n Saa the MJ port the MJ port 1 cycle Fig 1 2 When the temperature control network PLC2Way table is used PLC data 1 PLC data 2 PLC data 3 0 PLC data n a 1 screen data read cycle PLC data 1 PLC data 2 PLC data n Pye connected at connected at 2 connected at the MJ port the MJ port the MJ port 1 data read cycle from the PLC connected at the MJ port Fig 2 When the temperature control network PLC2Way table is not used Fig 1 PLC data is not read while the data is read from the PLC connected at the MJ port When the temperature control network PLC2Way table is used Fig 2
15. PLC data is read while the data is read from the PLC connected at the MJ port Consequently it is possible to communicate with the PLC connected at the MJ port without reducing the processing capacity between the V7 lt the PLC When the temperature control network PLC2Way table is used If periodical reading of the PLC data is performed while the PLC connected at the MJ port is accessed using a macro command the macro execution may be delayed It is possible to temporarily stop periodical reading from the PLC connected at the MJ port using the system memory address s762 For more information refer to page App1 22 Appendix 1 PLC2Way App 1 19 Notes on Screen Data Transfer Temperature Control PLC2 Program When using the temperature control network PLC2Way communications it is necessary to transfer the temperature control PLC2 program to the V7 series When the temperature control network PLC2Way setting has been made the program is automatically transferred to the V7 series together with screen data When Temp PLC2 is selected in the Transfer dialog only the temperature control PLC2 program can be transferred to the V7 series xi m Transfer Device m Transfer Data a Screen Data Temp PLCZ Display Card Recorder C F Driver C Ex Font Program SRAM Data Use Simulator Font Data C Station No Table Read comments in data transfer Ladder comm pra J All data transfer C Modbus
16. in V7 Hardware Specifications PLC Selection Select the PLC that is connected e Setting Procedure System Setting gt PLC Type gt Select PLC Type dialog Communication Parameter Setting The communication parameter setting is essential for successful communications between the V7 series lt gt PLC Check the communication parameter setting on the PLC before making the setting on MONITOUCH e Setting Procedure System Setting gt Comm Parameter gt Comm Parameter dialog e Setting Items Connection 1 1 1 n Multi Link Multi Link 2 Select the type of connection between the V7 series and the PLC There are four types available Depending on the selected type the setting items in the Comm Parameter dialog or those for the memory vary Select 1 1 for 1 1 connection Local No Set the port number of the PLC Trans Mode Trans Mode 1 Trans Mode 4 When the PLC has a transmission mode setting set the same on the V7 series This setting must be used for PLCs of MITSUBISHI OMRON HITACHI YOKOGAWA Toyoda Machinery and YASKAWA Baud Rate Signal Level Data Length Stop Bit Parity Make the same setting as the PLC Refer to Chapter 2 and later Baud Rate 4800 9600 19200 38400 57600 76800 115 kbps Set the same communication speed as the PLC Signal Level RS 232C RS 422 Set the same communication interface as the PLC Data Length 7 bit 8 bit Choose either
17. 128 to 127 Visual Basic Integer 32768 to 32767 Double 4 94E 324 to 1 79E 308 App5 30 Appendix 5 Ethernet Function Specifications List e Read PLC Memory int HKEtn_ReadPlcMemory WORD dp unsigned short Wordcent int Page App5 31 Word DeviceType DWORD addr char IpAddr int DFlag 1 ge APP PLC memory int HKEtn_ReadPlcMemory2 DWORD dp unsigned short Double word Wordcnt int Device Type DWORD addr char IpAdar int DFlag 1 Page App5 32 Internal memory int HKEtn_ReadInternalMemory WORD dp unsigned short Word Wordcnt int Device Type DWORD addr char IpAdar int DFlag 1 Memory card memory int HKEtn_ReadCardMemory WORD dp unsigned short Wordcnt int Word FileNo int RecordNo DWORD addr char IpAdar int DFlag 1 i A Page App5 33 PLC memory int HKEtn_ReadPIcBitMemory int IpOnFlag int Bit DeviceType DWORD addr int BitNo char IpAddr Internal memory int HKEtn_ReadInternalBitMemory int IpOnFlag int Bit DeviceType DWORD addr int BitNo char IpAddr Page App5 34 Memory card memory int HKEtn_ReadCardBitMemory int IpOnFlag int FileNo int Bit RecordNo DWORD addr int BitNo char IpAddr e Write PLC memory int HKEtn_WritePlcMemory WORD sp unsigned short Wordcnt int Page App5 35 Word DeviceType DWORD addr char IpAddr int DFlag 1 ISHAPP PLC memory int HKEtn_WritePIcMemory2 DWORD sp unsigned short Double word Wordcnt int Device Type DWORD addr char lpAddr int DFlag 1 Page App5 36 Internal memory int HKEtn_Writ
18. 4800 4 2400 5 1200 6 600 SET2 Data length 7 bits SET3 Stop bit 2 bits 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 Memory data register link register file register current value register input relay output relay internal relay keep relay link relay O Fila jz lt i x z ju o jUo a Q 3 n F timer contact C counter contact U extensional data register H extensional set value register ET extensional timer contact EC extensional counter contact V special register Screen Editing Memory Input Remarks E WX as word device WY as word device NON WM as word device WK as word device NN WL as word device Fg WT as word device WC as word device N WEX as word device WEY as word device ts 15 WEM as word device te 19 20 WEL as word device 13 1 15 1 1 WEK as word device 18 19 WET as word device 20 WEC as word device WWV as word device When Split Data Area is selected for Trans Mode the PRG No setting is available in the Memory Input dialog e Range for PRG No 1 to 3 Memory Input PLC Memory TOYOPUC x m Type D y 0100 Internal Mem a rs a fone 4 5 6 C D 7 Helela e DEERE 29 Toyoda Machine
19. 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 General purpose computer Dedicated commands Read Write Word 16 bits App6 4 Appendix 6 Universal Serial Communications System Composition e 1 1 connection one computer one V series unit For wiring refer to page App6 6 to page App6 9 The system composition for a 1 1 connection is shown 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 Itis possible to use an interrupt when connecting a computer to a V series unit ina 1 1 connection Switch ON OFF ENT key of keypad screen changing macro OUT_ENQ For RS 422 485 2 wire connection interrupts cannot be used General purpose computer V series 1 1 Connection RS 232C RS 422 e 1 n connection one computer multiple V series units A maximum of 32 V series units can be connected For wiring refer to page App6 9 The system composition for a 1 n connection is shown 1 A station number specification is necessary to determine which V series will receive a command when a computer and V series units are 1 n connected 2 Interrupt cannot be used when a computer and V series units are 1 n connected General purpose computer 1 n Connection V series V series V ser
20. The maximum baud rate available with the V7 series is 115200 bps Select the appropriate baud rate depending on the used PLC and environment 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 FA500 TP timer current value TS timer set value CP counter current value CS counter set value FA M3 FA M3R b Gaara CP SSS R emmo Ot OOS Vv ne registeg Cd o w omweg ooy z swags a OOS SOSSSCS TP down timer current value A CP down counter current value A CS down counter set value I 1 E E The CPU number is required in addition to the memory type and address The assigned memory is indicated when editing the screen as shown on the right J E Example 1 D00001 Address Memory type CPU number 33 Yokogawa Electric PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal pin No Pin No Name KEN SHELL EN o dl PLC D sub 25 pin male CIEN 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin m
21. YP gt gt Y gt gt ee Communications between the PLC programming software and the PLC q Communications between the V SFT editor and V7 Communications between V7 and the PLC 1 1 communication cable V6 CP T a Computer PC V6 CP MITSUBISHI QnH FX series When using one V6 CP cable When using the V SFT editor and the PLC programming software it is not possible to use one COM port for both purposes at the same time Stop using either software for communications 1 1 communication cable Computer PC V7 series MITSUBISHI QnH FX series 16 MITSUBISHI ELECTRIC PLC 16 17 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 Select Ladder Tool for Modular Jack 1 or Modular Jack 2 in the Modular Jack dialog xi m Modular Jack 1 Modular Jack 2 Editor port Not used Memory Card Memory Card C Barcode C Barcode O v4 0 C 120 Temp PLC2W ay C Temp PLC2W ay C V Link CO V Link E Lui i fy i C ILI aJi fi Ladder Tool Ladder Tool Printer Serial Port C Printer Serial Port Cancel Communications with V SFT Editor for Scre
22. e Parameters sp Wordcnt DeviceType addr IpAdadr DFlag e Return values Success Failure Error details Target block pointer Word count to be transferred max 2000 words O u 1 s 2 L 3 LD 4 T Top memory address to be written IP address shown as a string of characters separated by dots Example 192 168 XXX XXX 0 1 2 Refer to page App5 31 TRUE FALSE Get using HKEtn_GetLastError Appendix 5 Ethernet App5 37 Write Words to Memory Card Memory int HKEtn_WriteCardMemory WORD sp unsigned short Wordcnt int FileNo int RecordNo DWORD addr char IpAddr 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 e Parameters sp Target block pointer Wordcnt Word count to be transferred max 2000 words FileNo File number RecordNo Record number addr Top memory address to be written IpAdadr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX DFlag 0 1 2 Refer to page App5 31 e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Write Bits to PLC Memory int HKEtn_WritePlcBitMemory int DeviceType DWORD addr int BitNo int OnFlag char IpAddr 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 e Param
23. e When converting data of V4 or GD 80 into the V7 data S5 V4 is automatically selected for the PLC type e With V4 or GD 80 the order of bit strings of input relay Q output relay and F internal relay is byte reversed Please take note of this Example For S5 V4 For S5 S7 Memory setting of F0000217 FO000207 Memory setting of FO0000207 FO000217 V4 or GD 80 FO000210 FO0000200 7 V7 F0000200 F0000210 p Fw20 15j14 13 1211110 9 817 6 5 4 3 2 1 o Fw20 15j14 13 1211 10 918 761 5 4 3 2 1 0 Memory to be pi pi Memory to be J A accessed to PLC F20 0 F21 0 accessed to PLC F20 0 F21 0 i by V7 BAOT AD BU F20 7 F21 7 y F20 7 F21 7 24 Siemens PLC S5 PG Port DB 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 AS absolute address MEN The assigned memory is indicated when editing the screen as Example DB003 000 shown on the right ji Address Block number S7 200PPI V data memory VW as word device IW as word device Possible to write to the unused area input output QW as word device bit memory MW as word device timer current value counter current value TB timer contact Read only CB counter contact Read only HC high speed counter contact Double word usable AIW analog input AQW analog output 10 SM sp
24. 1 AFP3463 RS 422 Wiring Diagram 4 MATSUSHITA s RS 232C RS 232 he CP i ES S C tool port on the CPU unit SE AFC8513 1 RS 232C port on the CPU unit RS 232C Wiring Diagram 3 MATSUSHITA s RS 232C RS 232 he CP i ea S C port on the CPU unit abla AFC8513 RS 232C port on the CPU unit RS 232C Wiring Diagram 2 4 For connection to MJ2 of a V706 use an MJ2 PLC adaptor plus AFC8513 RS 232C port on the CPU unit RS 232C tool port on the CPU unit MEWNET Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows moma o a Transmission 7 ASCII Computer link function fixed 1 Control signal Invalid fixed Ifa tool port the ladder port for RS 232C is used the range of PLC parameter setting is limited as below Adjust the PLC parameter setting to communication parameter setting of the V7 series e Baud rate 9600 19200bps maximum 115 kbps available with FP2 e Parity Odd fixed e Data bit 8 or 7 select 8 normally e Stop bit 1 fixed 15 Matsushita Electric Works PLC MEWNET Link Unit Switch Setting or Same as that set on V7 normally 19200 bps on Pot pig Ce o e pe o fesom OOS 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 C CT ON O NT
25. 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Nam a sppenonnn PLC D sub 9 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the Use shielded twist pair cables V706 is used as SG RS 485 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male a SHELL ole 4 ae 1 of CN1 is used Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG 31 Yamatake PLC 31 1 31 Yamatake PLC Available PLCs Select PLC Type PLC UnivPor 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 Setting on PLC V7 Comm Parameter Setting Baud rate 9600 bps 9600 bps 1 Parity Even 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 R M auxiliary relay 1 L latch relay X input relay Y output relay ee E IN 17 menea a as emesos SSS C a SSS es meremas Je O oOo y KA T o AS counter contact P link register 11 _ 31 Yamatake PLC Wiring Wiring diagram with the PLC is shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male o JOER
26. 143 Universal serial port switch output 9 Output code 144 159 080 Universal serial port switch output 10 Outputcade 160 175 Universal serial port switch output 11 Outputcode 176 191 088 Universal serial port switch output 13 Outputcade 206 223 ces al sora por sich ouput 4 Out code 204 209 Universal serial port switch output 15 Output code 240 255 A A eee The switch interrupt information of SWO and SW1 is written only when the Output Action of a switch is Momentary or Momentary W Example The relationship between the switch output memory setting and the switch number is shown in the following table Output Memory Switch No s 085 10 s 095 15 n 5 ENTO entry information 0 n 6 ENT1 entry information 1 The same contents as n O and n 1 of the Info Output Memory that is set in the entry mode are written Write operation occurs when the ENTER key is pressed in the entry mode When the entry selection has changed write operation will not occur When n 5 entry information O is read by the host writing completed bit bit 15 is reset Data is written in the backup escape area before it is read Refer to page App6 19 App6 18 Appendix 6 Universal Serial Communications n 7 ENT2 entry information 2 The entry mode window number where a write operation was executed is written The relationship between the window number and base and the window number and overlap is shown in the following table
27. 20 SAIA PLC PLC PCD7 F110 EJES oxo 10 TR 12 11 T R 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 20 4 20 SAIA PLC MEMO Please use this page freely 21 SAMSUNG PLC 21 1 21 SAMSUNG PLC Available PLCs RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Setting on PLC V7 Comm Parameter Setting 1 1 Terminating resistance ON for RS 485 a 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 R input output a Po fT CONTI SN EE COTTON MEN E YA YA K keep relay F special relay W data register 21 SAMSUNG PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal PLC D sub 9 pin male 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 RS 422 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male a rove roe at fen y f o DES ESE a 1 Pin No 1 of CN1 i
28. 2004 Field Controller emir ao ME ao Era dei PLO S Foo o o lol J T1 SLC500 Poo olol lol p Allen Bradley Automationdirect Bado mint ooo d o y po T y FATEK series Fuji Electric CPU mexrccnm o o o o T merem o e exec ero o eo T A 529 GE Fanuc So series SNPX _2 gt gt o _ _ e T moct o o po po Jf o Hitachi iniestozs o J o o m o mocsiwass gt TE eo fo EA e IDEC moro sm o po o esem o o o _ pasooo a fon TO T id ewes o o o KEYENCE CECI IET POSI EI IE IE II ES SC wwe iP of o prose a Ta To T To sus o oo T T T To wss fo oo S T T mse o o o masters o o o o masters o o T mistereas ner fo o o emmer 9 po o T id roma ones oro fo o o T o Matsushita Electric MEWNET Works 1 n S n 1 Field Controller sear el Multrarop MMII Multi ENOM Network Network 00919 raat CC Link A series CPU QnA series link QnA series link link EPE Link QnA series CPU ee too QnH Q series link QnH Q series link series link CC Link Link Netto jaooucasieru IO o o eum neve ECTS OOOO IU o i masen o Col O T o To asses A o i EEC 0 o o FE Ameren S on o _ woon wees f o o o T SS weu p o Sido
29. 422 baud rate 19200 bps transmission mode 1 STATION No STATION No MODE ON x10 x1 swo01 Swo02 SW03 SWO04 SW05 SWO06 SW07 OFF SW08 SWO09 SW10 Sw11 NOOO DD Sw12 Available Memory The available memory setting range varies depending on the PLC model Be sure to set within the range available with the PLC to be used Use TYPE when assigning the indirect memory for macro programs A Series Link QnA Series Link QnH Q Series Link A Series CPU QnA Series CPU QnH A Series CPU QnH Q Series CPU Q00J 00 01 CPU A Link Net10 w eese NN SSCS mtrs A TN timer current value CN counter current value SPU special unit buffer memory Y output relay TS timer contact TC timer coil CS counter contact CC counter coil ZR file register for continuous access 4 When the A series CPU is in ROM operation R register cannot be used 2 The unit number is required in addition to the memory type and address Convert byte address into word address when entering the data on the V SFT editor if the memory device of link unit is given byte address 16 MITSUBISHI ELECTRIC PLC FX Series FX1S Series D data register TN timer current value CN counter current value 32CN counter 32 bits internal relay state input relay Read only output relay TS timer contact CS counter contact DX file register 4 For numerical data format where double word
30. CIEJER CIEN CIR 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 25 pin male Use shielded twist pair cables 32 Yaskawa Electric PLC 32 Yaskawa Electric PLC Available PLCs JAMSC IF60 JAMSC IF61 RS 232C Wiring Diagram 1 GL60 series JAMSC IF611 n RS 422 Wiring Diagram 5 Memobus GL120 Memobus port on the CPU module RS 232C Wiring Diagram 1 GL130 series JAMSC 120NOM27100 RS 422 Wiring Diagram 6 PROGIC 8 PORT2 on the CPU unit RS 232C Wiring Diagram 2 RS 232C Wiring Diagram 3 CP9200SH CP 2171F Wiring Diagram 4 RS 422 Wiring Diagram 7 CP9200SH MP900 Memobus port on the CPU module RS 232C Wiring Diagram 1 MP920 MP930 2171F RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 8 Other PLCs can also be connected with Memobus Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Memobus AE Select TYPE 1 or TYPE 2 for Trans Mode in the Comm Parameter dialog of the V SFT editor GL60 series PROGIC 8 TYPE 1 Special binary code GL120 130 series TYPE 2 Standard binary code 32 Yaskawa Electric PLC CP9200SH MP900 EC o A 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
31. CU counter contact Read only 1 When using EMn extended data memory specify the bank Example EMO 30000 number CS1 0 to C A The assigned memory is indicated when editing the screen as shown on the right Address Colon Bank number r Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal 4 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 19 OMRON PLC Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal Name Pin No Pin No D sub 9 pin male 4 Pin No 1 of CN1 is Use shielded twist pair cables used as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Pin No D sub 25 pin male 4 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 19 OMRON PLC RS 422 Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male fot peu PLC D sub 9 pin male 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 Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 2
32. Click the Table No button and select the table eared number to be used The appropriate number is Me eiert a DW automatically set for No of Data Memory D00100 econo Appendix 1 PLC2Way App1 17 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 e PLC2 memory lt 0 to 65535 gt lt 65536 and above gt 15 87 0 15 87 0 Model 03 Memory type Model 83 Memory type Memory number address Memory number address upper Memory number address lower o o Bit designation P Bit designation Memory type Depends on the PLC model Refer to Available Memory in Chapter 2 to Chapter 33 when setting Port number Set the port number of the PLC connected at the MJ port User Log Read for YOKOGAWA s PLC The user log set with YOKOGAWA s PLC FA M3 FA M3R connected at the MJ port can be read using the macro command TEMP_CTL Macro TEMP_CTL This macro command controls the operation set in the memory addresses starting from the one specified for FO for the number of words specified for F1 Usable Devices TEMP_CTL Temperature controller PLC2Way control function TEMP_CTL FO F1 User lag Port CPUNo 1
33. Codes 02H 03H 04H 06H OFH 11H 12H 13H Overrun Framing error An overrun or framing error is detected in the received data Send the command again Parity error A parity error is detected in the received data Send the command again Sum check error A sum error occurs with the received data Count error The memory read write count is 0 ETX error No ETX code is found Character error A character not used in the received data is found other than 0 to F Check the character and send the command again Command error An invalid command is given Memory setting error The address or device number is invalid Appendix 7 V Link 1 byte Character Code List Upper pe hm el ae oe fe ae oe oO O Connection Compatibility List V712 V710 V708 V706 DU 01 A One set of the V7 series is connected to one PLC 1 1 connection o dics One V7 series is connected to multiple PLCs Multi link2 One PLC is connected to a maximum of four V7 series n 1 Multi link One PLC is connected to multiple V7 series To use Ethernet communications with the V7 or V706 a communication interface unit is necessary To use field network or controller network a communication interface unit is necessary To perform communications with the PLC at the MJ port using PLC2Way function use the RS 232C or RS 485 2 wire system for connection February
34. DEC should be chosen for Input Type Manufacturer ess nn ES LSB gt MSB Fe Text Processing SHARP JW100 70H COM port JW20 COM port FA M3 YOKOGAWA FA M3R MICREX F series Fuji Electric FLEX PC series e Text processing EZ AH 4 For processing characters the arrangement 15 O B B B of the 1st and 2nd bytes in one word is fixed Rene Mou as LSB gt MSB as shown on the right a IM ee Setting the PLC Memory Connected at the MJ Port 1 Open the Memory Input dialog for the part where the PLC memory connected at the MJ port should be allocated Memory Input PLC2 Memory MITSUBISHI x Type PLC Memory o 00100 Internal Mem aes so e Fl 12 3 8 3 of laser 2 Forthe PLC memory connected at the MJ port select PLC2 Memory for Type and specify the memory address 3 Set the port number of the PLC 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 2 Data sampling from the PLC memory connected at the MJ port It is possible to link the temperature control network PLC2Way table with the buffering ar
35. Electric PLC RS 422 Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name Pin No Pin No Ba E EIEL 4 Z f eH EEES gy R 8 25 1 PN 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 PLC D sub 9 pin male Wiring Diagram 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male spain ole s 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 9 pin male Use shielded twist pair cables 32 Yaskawa Electric PLC Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Entries ol e HH aol r a A Lo e a 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 CP217IF CN3 MR 8 male Wiring Diagram 8 V706 V Series MJ2 CN1 2171F CN3 RJ 45 8 pin D sub 25 pin male MR 8 male at few RES gt lt OS gt lt 1 Pin No 1 of CN1 is used ARA i a O The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG o lalala lt QO rerlt x a 33 Yokogawa Electric PLC 33 Yokogawa Electric PLC Available PLCs LC01 ON RS 232C Wiring Diagram 1 FA500 FA500 RS 232C Wiring Diagram 1 LC02 ON RS 422 W
36. For Send Delay Time Total and Retry Cycle the same values must be set on all the V7 series that are connected in the same communication line App3 6 Appendix 3 n 1 Connection Multi link MEMO Please use this page freely Appendix 4 1 n Connection Multi drop App4 1 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 Maximum length V706 to the terminating PLC 500 m RS 422 RS 485 connection PLC1 Inthe case of V706 DU 01 connect to CN1 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 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 l l l l MJ2 CN1 Link unit Link unit Link unit Name sri fe e HFH hE ee RD terminating resistance Terminating resistance Terminating resistance Terminating resistance ON OFF OFF ON 1 Pin No 1 of CN1 is used as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG V SFT Setting The following settings must be made on the V SFT editor Only the points d
37. IV Store Target PLC Memory Door 00 EE eS 7lelajelr P Indirect 7 sf elel I Store Target Intemal Memory po Ea e OBB Station No 0 A afafale OK Cancel mi al ale Cancel Refer When 1 is clicked the Memory Input dialog is displayed Set the memory address to be read from the PLC connected at the MJ port 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 Double Word This is the data length setting for the memory address to be used Numerical data of two words is handled Data is transferred to the target memory address in the numerical data code of the PLC2 memory Bit Data in the PLC2 memory is handled as bit information of one word Data is transferred to the target memory address without conversion Dummy Word Dummy Double The memory addresses for Target PLC Memory and Target Internal Memory are automatically allocated consecutively in the Temp CTRL PLC2Way Table Setting dialog If you would like to skip any memory address keep the cell in the Temp CTRL PLC2 Mem column blank no setting It is regarded as a dummy word or double word In this case 0 is stored in the target memory address When the data code in t
38. O O FO FE sse IO 6 o perm io ssec JoJ o o T T Toe OMRON svemcesien o o To T Too smcera o oa o a po o To T o T SSS scm Jo o o o T T To san fo o o o T T wes HOT II fo o awe 6 Ma 1 A AAA MA AO A A a JS e Set ee SHINKO ELECTRIC SELMART e ll La e lO E CEA S5 PG port PG S5 PG port A ee m 87 200PPI o 200 PPI Siemens S7 300 400MP AA S7 300MPI HMI ADP S S7 300MPI PC ADP 300MPI S7 300MPI PC ADP ADP S7 300MPI Helmholz SSW7 ADP T1500 505 o DA E E a US ES A oe eS S OP ae L pe Poe eo E TT TOSHIBA rr rr TOSHIBA MACHINE MACHINE AT Works VIGOR M series o M series o AAA A AA O OS Yaskawa Electric CP9200SH MP900 DON ce 00 IE PROS E O A FA500 CO le C o ee A S S Yokogawa Electric FA M3 o e a gt A O FA M3R a 0 a Ma gt MAR e 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 network 2 RS 232C connection only 3 No connection available with FXL N 422 BD 4 A maximum of four PLCs can be connected 5 A maximum of three V7 series can be connected V706 AN One set of the V706 series MJ2 is connected to one PLC 1 1 connection A 0 One V7 series is connected to multiple PLCs e Multi link2 One PLC is connected to a maximum of four V7 series e pn 1 Multi link One PLC is connected to mul
39. RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name 1 se ER PLC D sub 25 pin male 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name 1 shen cx PLC D sub 9 pin female 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 24 Siemens PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male joa a po PLC D sub 25 pin male 4 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 Wiring Diagram 4 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 9 pin female 4 Pin No 1 of CN1 is used as FG a o ps 2y The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG 24 Siemens PLC Wiring Diagram 5 V Series cM HMI Adaptor D sub 25 pin male PC Adaptor Me ol Name EE CIEN ers a Use shielded twist pair cables RS 422 Wiring Diagram 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC eae D sub 15 pin male 1 Pin No 1 of CN1 is used Use shielded twist pair cables as FG The metal she
40. SG D sub 25 pin male Use shielded twist pair cables 9 3 9 4 9 GE Fanuc PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Canas CE cre 6 ol 7 care oj e as gt eo ro po 1 Pin No 1 of CN1 is used as FG The metal shell of the E SD A E RISE PLC D sub 15 pin male modular jack 2 on the V706 is used as SG Use shielded twist pair cables 10 Hitachi PLC 10 Hitachi PLC Available PLCs COMM 2H RS 232C pening Dragram 1 RS 422 Wiring Diagram 4 Peripheral port 1 on the CPU module RS 232C Wiring Diagram 1 EH150 HITACHI s EH RS05 cable RS 232C Wiring Diagram 1 PERIPHERAL 1 RS 232C HIDIC H series Wiring Diagram 1 On H 252C CPU module PERIPHERAL 2 HITACHI s CNCOM 05 cable RS 232C Wiring Diagram 1 sesiones res rs ona When using the HITACHI s EH RSO5 or CNCOM 05 cable connect the cable shown in Wiring Diagram 1 to the D sub 15 pin side for communications with the V7 series 2 Specify the absolute memory address For more information refer to the instruction manual for the PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows COMM 2H sma AT O S If the transmission mode is any type other than listed the above set the mode as shown below Setting on PLC V7 Comm Parameter
41. Sate 744 Temperature contolerPLCanay Staton No 18 st 14 T 7 7 7 7 7 7 7 7 7 E 7 30 31 32 33 34 35 36 l 37 39 l 40 41 l 42 l 43 44 45 7 7 8 i i 3 i 4 i 5 i 6 i 7 5 75 75 7s 761 Ce Temperature controller PLC2Way Station No 31 status 762 Other than 0 periodical reading suspended 763 Other than 0 temperature control network PLC2Way transfer macro forced execution Appendix 1 PLC2Way App1 21 Details e s729 An execution result of macro command TEMP_READ TEMP_WRITE or TEMP_CTL is stored at this address O A command has been executed successfully Other than 0 A command execution has resulted in an error e s730 761 The following status code for the PLC connected at the MJ port is stored ae Ys SS w na OOOO eee mmeo OOOO 8001H Check code error woa oaae OOOO 800BH Error code received from the PLC connected at the MJ port Errors other than the above are stored as shown below MSB LSB ajajaja eps po rT TLL fel tota fofofofofetofo Buffer full error Parity error Overrun error Framing error Break detection Error 0 Bits 0 to 14 are all 0 1 Any bit O to 14 is not 0 ered a O Although a request to send is given to the PLC connected Timeout at the MJ port no answer is returned within the specified Check 1 2 3 described below time The check code in the PLC connec
42. Setting Protocol 1 without port RS 232C Protocol 1 with port Protocol 2 without port RS 422 MODE2 Protocol 1 with port 4 Multi link connection is not available Transmission mode 10 Hitachi PLC CPU Module The peripheral port setting should be transmission control protocol 1 without port No other setting is available HIDIC S100 Setting on PLC V7 Comm Parameter Setting HIDIC H Switch Setting Baud rate 19200 bps MODE switch To connect to both RS 232C and RS 422 set MODE switch to 9 RS 232C protocol 2 without port RS 422 protocol 2 with port ST No switch 0 for both x10 x1 DIP switch Bit length Same as that set on V7 normally 19200 bps Coa pa o S With sumcheck 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 HIDIC H TYPE i TD timer counter contact WN network input output 10 Hitachi PLC 10 3 HIDIC S10 20 Memory TYPE Remarks _ _ Dh _ FW work register input relay XW as word device output relay YW as word device internal relay RW as word device global link keep relay GW as word device KW as word device on delay timer contact TW as word device one shot timer contact 7 UW as word device up down counter contact CW as word dev
43. V7 series are as follows 90 Series Transmission ASCII HEX 90 Series SNP X Transmission Setting on PLC 19200 bps 01 O for x10 1 x1 Host link function fixed O fixed None fixed HEX fixed Setting on PLC 19200 bps V7 Comm Parameter Setting 19200 bps V7 Comm Parameter Setting 19200 bps Functions SNP X fixed 9 2 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 90 Series TYPE pay S S oa GF o 90 Series SNP X TYPE CO NC Doo oew S SSS wo www NT SSS C DEJO PSS C ETS E ANS ed analog output T temporary memory relay SA system status SB system status 10 MOM S system statu Aedo Le to SC system status 11 9 GE Fanuc PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC D sub 25 pin male 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 RS 485 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC SHELL 1 pee profs as 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as
44. V706 use an MJ2 PLC adaptor plus QCPU2 FX2N 232 BD RS 232C Wiring Diagram 3 EX2N FX2N 485 BD RS 485 Wiring Diagram 8 A Protocol 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 Terminating resistance at Provided fixed sender Terminating resistance at Provided fixed receiver 1 Trans Mode 1 without CR LF Trans Mode 4 with CR LF If Trans Mode 4 is selected for Trans Mode in the Comm Parameter dialog of the V7 series select MODE4 in the case of RS 232C or MODE8 in the case of RS 422 QnA Series Link QnH Q Series Link O for both stations x10 x1 RS 232C QnA series link Transmission MODES binary mode fixed mode QnH Q series link RS 422 MC protocol 5 fixed Sumcheck Provided fixed Write while running Possible fixed The maximum baud rate available with the V7 series is 115200 bps Select the appropriate baud rate depending on the used PLC and environment Connection to Q00 Q01 CPU When connecting the tool port of a Q00 Q01 CPU and the V7 series using the PLC serial communication function the following setting is required V SFT Setting Select QnH Q series link in the Select PLC Type dialog GX Developer MITSUBISHI programming software 1 Double click PLC Parameter 2 Inthe Qn H Parameter dialog click the Serial
45. When the data to be read is not continuous DLE is inserted as a delimiter between the breaks V series side Address Top address of the data memory to be read HEX ASCII Count Amount of data memory to be read HEX ASCII 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 Host side V series side Appendix 6 Universal Serial Communications App6 33 Write CHR Command When memory contents are in the form of characters it is necessary to use a write command to convert 1 character 1 byte into 2 byte ASCII code and then transmit However with this command contents are transmitted just as they are and consequently the transmission time is decreased by 1 2 Character codes from 00 to 1F cannot be used e Write CHR command Write ee ore command E Memory E S O U data n t Host side WORD WORD WORD WORD V series side as pt eas Transmission data A Host side There should be no more than 5 DLEs Address Address of the memory to be written HEX ASCII Count Number of write characters HEX ASCII Memory data Data to be written 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 Addr
46. Works PLC Wiring Wiring diagram with the PLC is shown below RS 422 Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame a a et ate Signal 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 29 Toyoda Machine Works PLC MEMO Please use this page freely 30 VIGOR PLC 30 VIGOR PLC Available PLCs Select PLO Type PLC UniVPon RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows 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 D megse oS S E T PSC vY wwen e SSS Mw meranese SSS s wears SSS 32C high speed counter current value TS timer contact CS counter contact TC timer coil CC counter coil 4 For numerical data format where double words can be used Num Data Display Graph Sampling data is processed as double words For those where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits 30 VIGOR PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram
47. 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 No Yes Not satisfied Interlock condition Satisfied External tarp Yes E Output Internal Lamp ON graphics ON macro Continue ON macro Yes Macro command present Address 64 to 66 clear Macro command execution Address 64 0 Address 65 0 Address 66 0 Add repeat function to the switch Suspend repeat function of the switch Repeat macro command NO End App6 48 Appendix 6 Universal Serial Communications MEMO Please use this page freely Appendix 7 V Link App7 1 Appendix 7 V Link V Link e 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 Write V7 series PLC e Connection with computer When connecting to the V7 series or a V706 equipped with DU 01 use the MJ1 port For connection to the PLC using a temperature controller or the PLC2Way function use the other MJ port and use CN1 for communications with the PLC Data of the PLC or temperature controller can be collected through commun
48. at the target station 10 Check the command 20 Check parameters for initialization Requested packet byte exceeds the 51 Check the requested memory type 52 Check the target station 54 Check write protection of the card 55 Check the memory space at the target station 56 Check the command 100 Continue retrying 101 Reduce the frequency of communications 120 Communications are forcibly aborted 121 Reduce the frequency of communications Appendix 5 Ethernet App5 41 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 1 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 User data format Transfer from the V7 series Packet bytes 2 2 1 n n V7 series Command 0x33 User data PLC Data Request from Server to V7 1 A request is sent from the application of the server to the V7 series Use int HKEtn_ReadPlcMemory for a memory request 2 3 The V7 series reads the PLC memory 4 The V7 series returns data read from the PLC memory to the server V7 series 00000000 Ethernet 00000000 Ethernet App5 42 Appendix 5 Ethernet Error Display Error messages displayed on th
49. bps Parity Transmission Data length BC 1 Maximum baud rate available is 38400 bps If a higher baud rate is selected communications are performed at 9600 bps KV10 24 CPU Setting on PLC V7 Comm Parameter Setting Baud rate 57600 bps 57600 bps Maximum baud rate available is 57600 bps If a higher baud rate is selected communications are performed at 9600 bps 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 KZ Series Link TYPE om aa memory ECN IN COTTON A KZ A500 CPU MITSUBISHI A Series Link TYPE b cae o ooo wo weas G R meege o TN timer current value E CN counter current value Ce IO AA AAN TS timer contact TC timer coil CS counter contact CC counter coil KZ KV Series CPU KZ24 300 CPU KV10 24 CPU KV 700 CPU TYPE DM iata memon ICI en wowote SS TC timer current value NY CC counter current value TS timer set value CS counter set value Tttimericontact a C counter contact TM temporary data memory CTH high speed counter current value KV700 only CTC a counter comparator setting KV700 only CT high speed counter comparator contact KV700 only CR control relay KV700 only CM control relay KV700 only 12 KEYENCE PLC
50. case that a communication error occurs Time Out Time x100 msec Select the receive time of the response from the PLC connected at the MJ port If no response is received within the specified time a retrial is attempted Send Delay Time x msec Set a time delay in sending the response to the PLC after receipt of data from the PLC connected at the MJ port Return Time x10 sec When the PLC in the PLC2Way communication is turned off data read from the PLC is temporarily prohibited An inquiry for restoration is sent each time the specified return time has elapsed e The following options may be set depending on the PLC model MITSUBISHI A series Link Trans Mode Trans Mode 1 Trans Mode 4 Trans Mode 1 Without CR LF Trans Mode 4 With CR LF OMRON SYSMAC C SYSMAC CV SYSMAC CS1 Trans Mode Trans Mode 1 Trans Mode 2 Trans Mode 1 Standard BCD without signs Trans Mode 2 Special BCD BCD with sign YOKOGAWA FA M3 FA M3R Trans Mode with sum check without sum check 6 To reset the setting click the Default button or set the desired value Appendix 1 PLC2Way App1 9 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 e 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
51. comm pra Transfer through Ethernet Ladder sys pra 172 16 200 106 C Ladder Mnemonics I Transfer through USB Printer Drv MODEM Transfer PC gt PL PL nig Up date of System Detail Setting When the Main Menu screen is displayed after transferring screen data the Extension switch appears If the Extension switch does not appear transfer font data Pressing the switch brings up the Extension Program Info screen where the temperature control PLC2Way driver setting and temperature control network PLC2way setting can be reviewed For details refer to Chapter 6 MONITOUCH Operations in the separate Hardware Specifications for the V7 series or V706 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 NA DE DEN aa Temperature contolerPLC2My Staton No 06 stas C ras Temperature contoterPLCanay Staton No 05 stas ras Temperature contolerPLCanay Staton No OB sat 787 Temperature controller PLC2Way Station No 07 status 720 Temperature contolerPLCanay Staton No 09 sat 740 Temperature contoterPLCanay Staton No Toses 741 Temperature contoterPLCanay Saton No ties 742 Temperature contoterPLCanay Staton No 12 ts ms Temperature contoterPLCanay Staton No
52. data length for communication Stop Bit 1 bit 2 bit Choose either stop bit for communication Parity None Odd Even Choose any of the parity options for communication Send Delay Time 0 to 255 Unit x1 msec Set a time delay in sending the next command to the PLC PLC after receipt of a response from the PLC Normally use the default setting MONITO pen AE Send delay time t 1 Before Connecting to PLC 1 11 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 lf any communication error has arisen the communications are stopped When restoring use the Retry switch found on the error screen of the V7 series Continuous If any communication error has arisen it is indicated at the top left corner on the V7 screen The V7 series conducts polling of the PLC and if OK the error state is automatically reset Supplemental Information Polling Polling means to constantly monitor and check the state of the other station Time out Time 0 to 999 Unit x10 msec Specify a time for monitoring the receiving of a response from the PLC If no response is received within the specified time a retrial is attempted Retrials 1 to 255 Specify the number of retrial times When the problem persists even after as many retrials as specified the system will start the err
53. dots Example 192 168 XXX XXX DFlag 0 1 2 Refer to page App5 31 e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Read Bits from PLC Memory int HKEtn_ReadPIcBitMemory int IpOnFlag int DeviceType DWORD addr int BitNo char pAddr This function is retained until PLC data is transferred from the V7 series e Parameters IpOnFlag Returns the bit status 0 OFF 1 ON DeviceType Address of the device to be read Refer to Chapter 2 to Chapter 33 addr Top memory address to be read For YOKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 399 D25 gt 24 BitNo Bit number to be read Example 1 When accessing to D20 05 of MITSUBISHI PLC DeviceType 0 addr 20 BitNo 5 Example 2 When accessing to M20 of MITSUBISHI PLC 20 16 1 4 DeviceType 6 addr 1 BitNo 4 IpAddr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Appendix 5 Ethernet Read Bits from Internal Memory int HKEtn_ReadinternalBitMemory int IpOnFlag int DeviceType DWORD addr int BitNo char IpA ddr This function is retained until data is transferred from the V7 series e Parameters IpOnFlag Returns the bit status 0 OFF 1 ON DeviceType 0 Su 1 s 2 L 3 LD 4 T addr Top memory address to be read BitNo Bit nu
54. drop connection communication with the port specified with FO that caused the failure is resumed once Usable Devices Internal Indirect po o Jf RECONNECT FO 0 to 255 Resumes communication with the desired port Resumes communication with all ports When communication is resumed the failure information is cleared from the system memory 8114 to 129 With Internal Memory Set For Read Area Write Area and Calendar e In the case that the internal memory is set for Read Area Write Area and Calendar no initial connection check is performed and calendar information is read when the V7 series establishes communications with the PLC for the first time A communication error does not occur on the V7 series if a timeout is detected while accessing to the PLC App4 4 Appendix 4 1 n Connection Multi drop MEMO Please use this page freely Appendix 5 Ethernet App5 1 Appendix 5 Ethernet Ethernet e 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 RS 232C A lt PLC gt LLL ZY LLL a T fl Elf mi Bi e Communications between the server and the V7 series HKEtn10 dll for UDP IP protocol is provided so that the user can create an original application by using Visual C or Visual Basic etc to allow the
55. interrupt Keypad interrupt Screen interrupt Macro OUT_ENQ For details refer to page App6 38 Execute Flow Control disabled for V706 Check the Execute Flow Control when interrupt from V series is needed to be prohibited e g when the host cannot receive interrupt data The action when you check the Execute Flow Control is shown below When CS pin 4 on V series side is ON Interruption is output When CS pin 4 on V series side is OFF Interruption is not output When CS is ON interruption information stored by then is output in succession Interruption information for 3 times can be stored at the most Execute 4 Wire Control This setting is available only for 1 1 communication with RS 422 using four wire Normally V series uses the same cables to send or receive data See the diagram below For this reason send output remains OFF High impedance except for sending signals from V series However depending on the host specifications four wire control must be used without the send output OFF from the V series In this case you must select four wire processing and check the LI Execute 4 Wire Control lt 2 wire system gt V series CN1 Host Connection Set the connection method for the V series and host mee Ma RA There is one V series machine and one host Ib a eee Multiple V series units are connected to one host Local Station Number When multiple V series machines are connected to one host set a
56. jack 2 on the V706 is used as SG PLC D sub 25 pin male Wiring Diagram 4 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 25 pin male Name EA e a 4 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 14 LG PLC Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male SHELL E SS S2 2423253257 sos 2 CES 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 PLC D sub 9 pin male RS 422 Wiring Diagram 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Name ae pe D sub 25 pin male 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 14 LG PLC Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male A uf 4 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 14 8 14 LG PLC MEMO Please use this page freely 15 Matsushita Electric Works PLC 15 Matsushita Electric Works PLC Available PLCs Select PLC Type Unit Port PLC2Way RS 232C port on the CPU unit RS 232C Wiring Diagram 1 FP10S AFP3462 RS 232C Wiring Diagram
57. m m m m 2 3 4 5 i App2 6 Appendix 2 n 1 Connection Multi link 2 For V706 e 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 e When the PLC and the master station are connected via RS 422 485 set the terminating resistance at the PLC and the master station MJ2 e When the V706 master and slave stations are connected via RS 485 2 wire set the terminating resistance at the V706 master station MJ1 and the terminating slave station MJ2 Terminating Resistance Setting Example 1 When the PLC is connected to V706 master station via RS 232C PLC RS 485 2 wire RS 232C Terminal Terminal Terminal block block block MJ2 MJ1 MJ2 MJ2 MJ2 V706 master station V706 slave station V706 slave station V706 slave station Local Port 1 Local Port 2 Local Port 3 Local Port 4 Bee EEN 123 4 123 4 ON ON 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 e Setting Procedure System Setting gt PLC type gt Select PLC type dialog gt Check Display Multi link 2 PLC The PLC lis
58. macro programs Memobus C CTN EN CO a SS C MXN EE w wa NT SSCS o wwen ECT ETA 7 constant register CP9200SH MP900 ery e oS OOo eam SSCS C ELN When setting the MB IB memory set the bit numbers in the MBxxxx hexadecimal notation Wrong ea s zn DEC Bit No HEX 32 Yaskawa Electric PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name ped i je PLC D sub 9 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal Name Pin No Pin No O ee PLC D sub 15 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 32 Yaskawa Electric PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male CP217IF CN1 2171F CN1 2 Signal EN SHELL ES E 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame we r sos 2 CAE CIEN AN E 5 T 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG CP217IF CN2 D sub 25 pin male 32 Yaskawa
59. modular jack 2 RD terminating resistance for RS 422 CF auto load for USB DU 01 Enlarged view V SFT Setting System Setting PLC model selection and parameter setting to be made on the V SFT editor for the PLC2Way connection at the MJ port are explained Temp CTRL PLC2Way Setting Select the PLC model and make the parameter setting as described below 1 Select System Setting gt Temp CTRL PLC2Way Setting gt Temp CTRL PLC2Way Comm Setting The Temp Control PLC2Way Comm Setting dialog is displayed System Setting Tool Window PLC Type Comm Parameter Edit Model Selection Unit Setting Font Setting Modular Function Switch Setting Buffering rea Setting Memory Card Setting CF Card Setting Printer Setting Parity Even Y Video Setting Sound Setting Iv Sum check Barcode Setting V Link Setting Signal Level Macro Setting Dobie a C AS2320 a AS 485 Time Display Format SRAM Clock Setting ini i a a Stop Bit i e bit 2pit Attribute Table MR400 Format Table RS dE msec Date Lengthe_ _ sa e C Modbus Slave Communication Setting Pau Time 10sec C hi G obi Temp CTRL PLC2Way Comm Setting Temp GIRL PLG2Way Network Table Default Cancel Temp CTRL PLC2Way Setting Network Table Setting v RAA vv Y Station Number Table Setting 2 Check Us
60. once this area is read the data remains at 0 even if you attempt to read again when a read response error occurs Set the area s top address number e Read Clear Words Set the number of words that will be used for clearing the read area Appendix 6 Universal Serial Communications App6 19 e Read Clear Escape Backup Address Set the top address for the read clear backup area The area size will be the same as the previously described read clear area The number of words written in the read clear backup area are the same as the number specified for the read clear area Read Clear and Read Clear Backup Action The action that occurs when a read command from the host tries to access to the read clear area is shown in the following diagram Following allocation of the read clear backup area backup data of the system memory write area is stored as shown below Data transmission to the specified address Address is in the read clear area YES Data is copied to the read clear backup area e Address 1 Transmission word 1 transmission YES Read clear backup area n 0 Backup words CFMDAT SCRN_COM ENTO ENT1 ENT2 GREPNS Reserved 7 words e Default Initial Screen Set the number of the screen to be displayed when power to the V series is turned on Appendix 6 Universal Serial Communications Interrupt There are five interrupt settings Switch ON interrupt Switch OFF
61. pin D sub 25 pin male Signal fo fol PLC D sub 15 pin male arsi a E EJER 4 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal 4 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 7 FATEK AUTOMATION PLC RS 422 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male pa jp 4 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 7 3 7 FATEK AUTOMATION PLC MEMO Please use this page freely 8 Fuji Electric PLC 8 1 8 Fuji Electric PLC Available PLCs NC1L RS2 RS 232C Wiring Diagram 1 MN MICREX F series F70 F70S MICREX F series NC1L RS4 RS 485 Wiring Diagram 3 SE V4 F1408 F150S FFK120A RS 485 Wiring Diagram 3 FLEXPC series ps TS NJRS 2 E q FLEX PC series NJ T RS 232C Wiring Diagram 1 NJRS 4 RS 485 Wiring Diagram 3 RS 485 SPB N Mode amp FLEX PC CPU port Hakko Electronics cable s FLEX PC CPU POTON NJ B16 RS 232C port RS 232C Wiring Diagram 2 FLEX PC COM T FLEX PC NJ JM Computer link terminal block RS 422 Wiring Diagram 4 To use FLEX PC of Toyota version sele
62. switch LINK computer link AS 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 T Series TYPE o aa agite a CI MOVES tree a E mees Oo e CS TN timer current value 9 Readony CN counter current value EX Series TYPE C T TN timer current value CN counter current value 6 Readony 27 TOSHIBA PLC Wiring Wiring diagrams with the PLC are shown below RS 422 Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ens rol e as 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 15 pin male Use shielded twist pair cables R 120 Q 1 2W Wiring Diagram 2 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male 4 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 27 4 27 TOSHIBA PLC MEMO Please use this page freely 28 TOSHIBA MACHINE PLC 28 TOSHIBA MACHINE PLC Available PLCs Port on the CPU unit TC200 TCCMW a TC200 TCCMO RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows ge o A Avai
63. table 78 status Network table 79 status App5 26 Appendix 5 Ethernet s600 Network table 80 status 601 Network table 81 status 602 Network table 82 status 603 Network table 83 status 604 Network table 84 status 605 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 Network table 92 status Network table 93 status Network table 94 status Network table 95 status Network table 96 status Network table 97 status Network table 98 status Network table 99 status Appendix 5 Ethernet App5 27 Addresses e s514 515 These addresses are related to macro commands SEND EREAD and EWRITE s514 Sets the executing status of the macro In the case of 0 the next step of the macro is executed without waiting for the completion of the command when a command request is given to the Ethernet In the case of other than 0 the wait status continues until the command completes and then the next step of the macro is executed Ifthe same port is accessed for execution of commands on one macro sheet set a value other than 0 If O is set the macro command executed next is deleted s515 Stores the result of macro execution An error occurs if a value other than 0 is stored For more information refer to the error codes page App5 44 However when s514 is 0 the dat
64. the shielded cable to the metal shell of modular jack 2 e 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 e The DIP switch on the side or back of V7 series units is used to set the terminating resistors For more information refer to the description of the DIP switch setting in the relevant Hardware Specifications e Twisted pairs of 0 3 mm sq or above are recommended lt 4 wire system gt V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male anal Shield Name ESTER To the PLC s RS 422 port SG Receive data Receive data Send data Send data 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG lt 2 wire system gt V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male z Shield To the PLC s RS 422 port Send receive data Send receive data 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 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 For more information refer to Chapter 6 MONITOUCH Operations
65. the CPU that is connected to the data link system or network system the V7 series can have access to CPUs on NET II B and NET 10 In this case select A Link Net10 for PLC Type on the VSFT editor e When the V7 series has access to the CPU on NET II B or NET 10 With NET II B the V7 series can only have access to CPUs in the network No 1 in the illustration below of the CPU equipped with the standard type link unit that is connected to the V7 series Available CPU No 0 to 30 With NET 10 the V7 series can have access to CPUs in the network No 1 in the illustration below of the CPU equipped with the standard type link unit that is connected to the V7 series as well as those in the other networks Nos 2 and 3 in the illustration below that are connected Available CPU No 1 to 30 Standard type link unit e When the V7 series reads from or writes to the CPU 1 1 in the above illustration equipped with the standard type link unit Set 31 for CPU No for memory setting on the V SFT editor The response time is the same as that with 1 1 connection between the V7 series and the PLC When the V7 series reads from or writes to the CPU memory of the CPU number other than 31 Transient transmission is performed and the response time is not fast Please understand beforehand e To have access to the PLC in the other network on NET 10 specify the network number in the OPE
66. 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 z Po fT Oe 4 2 4 Baldor PLC Wiring Wiring diagram with the PLC is shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male SHELL CINES feof fe 1 Pin No 1 of CN1 is used as FG vo The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 9 pin female NO 5 DELTA PLC 5 1 9 DELTA PLC Available PLCs Select PLC Type PLC UnivPor 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 Setting on PLC V7 Comm Parameter Setting Baud rate 9600 bps 9600 bps 1 Port Parity Even Available Memory 1 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 D data register X input relay output relay 4 timer 7 C counter 32C high speed counter Po fT AA Y E Oe cs TT Oe AAA 5 2 5 DELTA PLC Wiring Wiring diagram with the PLC is shown below RS 485 Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name pii a
67. version or is alash l o 200 201 02 2 The number of connections reaches the maximum 204 TCP connection over and no more connection is possible Check the communication lines Connection cannot be established 205 TCP connection error Check the communication lines or turn the power off and on TCP communication disconnection has failed 206 TCP connection end error Check that the communication partner with the V7 series is present on the line TCP send error TCP communication has failed Check the communication lines Send buffer full The line is busy Consult the network administrator of your company IC receive buffer overflow The communication unit is in the older version or is Driver receive buffer overflow faulty Check the HUB or the link confirmation LED on the Receive processing error communication unit If the LED is not on check Link down error cable connection and the port setting on the network table 802 Check the transceiver and cable connection No IP address at local port Check that the IP address of the local port is set on the network table Duplicated IP address error Check if the same IP address is set on the network 902 Send socket ID error error that may Turn the power off and back it on If the problem occur when V7i LAN port is used persists contact your local distributor 1000 Ethernet I F unit not mounted 1001 Ethernet I F unit not ready 1002 Ethernet I F unit DPRAM error 1003 No respons
68. who support PLC2Way communication are displayed Click The available model names of the selected manufacturer are displayed Select the PLC model name and click OK The message communication Will take default on Comm Parameter OK is displayed Click Yes App1 8 Appendix 1 PLC2Way 5 Set the parameters for the PLC to be connected at the MJ port Temp Control PLC2Way Comm Setting x J Use Temp Control Network PLC2Way Communication Refer to modular Mola MITSUBISHI On series link BaudRate 192008PS y Party fEven y Mode A m Signal Level a R5232C C RS 485 Retrials 3 Time Out Time 5 100msec T Data Length 7bit Sbit Send Delay Time o msec Stop Bit Return Time fi ilsec 1bit 2bit Default OK Cancel 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 Data Length 7 bit 8 bit Select the data length for communications with the PLC connected at the MJ port Stop Bit 1 bit 2 bit Select the stop bit setting for communications with the PLC connected at the MJ port Signal Level RS 232C RS 485 Select the signal level for communications with the PLC connected at the MJ port Retrials Set the number of retrials to be attempted in the
69. 0 Edit No Temp CTRIJPLC2 Mem Name Data Type Target PLC Memory Target Internal Memory PA PO There are 32 tables of temperature control network PLC2Way table No O to 31 A maximum of 128 addresses of the PLC2 memory can be set Appendix 1 PLC2Way App1 11 2 Closing Click Close in the drop down menu or click the Close button at the top right corner Temp Network PLC2Way Table 0 Edit xi E Restore Move Data Type Target PLC Memory Size Psd Minimize O Maximize O _ 1H 3 Comment setting There are 32 temperature control network PLC2Way tables and a comment can be set for each table Click Edit gt Comment The Comment Setting dialog is displayed eee Comment Setting j x Temp Network PLC2Way Table 0 Ec it aaaaaaaaaaaaaaaa aaaaaaaaaaaaaaad No Temp CTRL PLC2 Mem Name Tert Data Cancel E a Enter the desired comment and click OK The entered comment is displayed at the top right corner 4 Setting data in the table Click on a line in the table The selected line turns blue Temp Network PLC2Way Table 0 Edit Nan Temn TARI ipl C Mem Name Nata Tune Tarnet DIC Click a Nata Tune Target PLC Memory Target Internal Memory 5400100 1 Click 2 Click 3 Double click Memory Input PLC2 Memory MITSUBISHI NASSIF Word y r Type A o y Double Yord Bit z ooo Read Cycle 10 sec
70. 00 B u100 C 2 Top memory address The number of words of the target to be transferred Address of the target Top memory address Network table number of the source Contents Two words starting from u100 in V7 A are written into D100 in PLC B Ethernet lt V7 B gt 00000000 00000000 D100 101 lt PLC A gt lt PLC B gt Appendix 5 Ethernet App5 23 SEND Words from the FO 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 PLC Memory Indirect Double A ec ea ca SEND Send to server SEND FO C F1 TO F2 Example Macro command at the V7 B The macro command for V7 B to transfer data to server A is shown below Description SEND u100 C 2 TO A Top memory address The number of words of the source to be transferred Address of the target Network table number Contents Two words starting from u100 in V7 B are transferred to server A Server A Ethernet 00000000 lt PLC B gt 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 LL DN se OCOSOCO
71. 1 CS1W ETNO1 ao Auto CJ1 CJ1W ETN11 A CS1 CJ1 DNA A HIDIC S10 2a S10mini 10 20 ae Ethernet CES Ethernet TCP IP 2 MATSUSHITA FP2 ET1 E ee series 10BASE T connection E ee UDP IP Twist pair cable Category 5 FA M3 FA M3 R FA M3 YOKOGAWA Ethemet EMS F LE01 5T F3LEN 0T 5T F3LE11 0T l nos aerate connection Toyoda Machinery TOYOPUC Ethernet 50 3 series FL ET T V2 AUI cable PLC 5 20E PLC 5 40E PLC 5 Ethernet PLC 5 PLC 5 80E 1747 L 551 ALLEN BRADLEY 2 SLC500 Ethernet SLC 5 05 1747 L 552 1747 L 553 1756 ENET A Control Logix Ethernet Control Logix 1756 ENBT A KEYENCE KV 700 Ethernet KV 700 KV LE20 MASTER K series Ethernet SA LG PEN G6L EUTB series Ethernet EMeSPA Automationdirect Direct LOGIC Ethernet D2 240 H2 ECOM MODBUS TCP IP adapted to MODBUS adapted to MODBUS Ethernet TCP IP TCP IP 1 For AUI connection a transceiver is required 2 Adapted to the V7i series built in LAN port and V706 DU 01 and not to CU 03 2 e The memory use is the same as the one for 1 1 connection Refer to Chapter 2 to Chapter 33 The data code of the V7 series is fixed to the binary code Be sure to set the binary code for the data code on the PLC App5 14 Appendix 5 Ethernet 2 Communication parameter setting e Select System Setting gt Comm Parameter Set the PLC to the V7 series which is connected When the network table is not set Netwo
72. 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 10 Hitachi PLC Wiring Diagram 5 When connecting to the S10xa series add a resistor of 50 Q 1 2 W as shown below V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male a pea p 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 11 IDEC PLC 11 1 11 IDEC PLC Available PLCs RS 232C IDEC cable FC2A KC1 MICRO3 MICRO3 Loader port or 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 made by IDEC connect the cable shown in Wiring Diagram 3 to the D sub 9 pin side of the FC2A KC2 cable for communications with the V7 series Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Setting on PLC V7 Comm Parameter Setting Parity Transmission Data length code Available Memory The available memory setting range varies depending on the PLC model Be sure to set within the range available with the PLC to be used Use TYPE when assigning the indirect memory for macro programs D data register a ovo oo 7 es emesa e C a SSCS 0 11 IDEC PLC Wiring Wiring diagram
73. 2 on the V706 is used as SG PLC JD14 Half pitch 20 pin JD15 Signal Pin No Name CER R 120 Q 1 2W 6 FANUC PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC JD40 Half pitch 20 pin Name ot paa po 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables 6 3 6 FANUC PLC MEMO Please use this page freely 7 FATEK AUTOMATION PLC 7 1 f FATEK AUTOMATION PLC Available PLCs Select PLC Type PLC UniVPon 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 ew O e S S Fg ee e 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 HR data register DR data register inp rea E output ea YA step relay INC IN timer contact HON Read only counter contact Read only RT timer current value RC counter current value DRC 32 bit counter current value 7 2 7 FATEK AUTOMATION PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8
74. 5 24 IpAdadr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX DFlag 0 1 2 Refer to page App5 31 e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Appendix 5 Ethernet Write Double words to PLC Memory int HKEtn_WritePlcMemory2 DWORD sp unsigned short Wordcnt int DeviceType DWORD addr char IpAddr 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 e Parameters sp Wordcnt DeviceType addr IpAddr DFlag e Return values Success Failure Error details Target block pointer Word count to be transferred max 1000 words Address of the device to be written Refer to Chapter 2 to Chapter 33 Top memory address to be written For YOKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 399 D25 gt 24 IP address shown as a string of characters separated by dots Example 192 168 XXX XXX 0 1 2 Refer to page App5 31 TRUE FALSE Get using HKEtn_GetLastError Write Words to Internal Memory int HKEtn_WritelnternalMemory WORD sp unsigned short Wordcnt int DeviceType DWORD addr chr IpAddr int DFlag 1 This function is retained until write completion is received from the V7 series It is reset on receipt of write completion to the internal memory
75. 5 pin male ot e gt gt PLC D sub 9 pin male 4 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 19 OMRON PLC Wiring Diagram 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC ame EJES 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male O PLC D sub 9 pin male 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 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 V7 series V SFT Setting e Select System Setting gt Comm Parameter gt Detail tab and select 1 n for Connection e Select System Setting gt Network Table Setting gt PLC The network table edit window is displayed Double clicking on the number brings up the dialog where CS1 CJ1 on the network can be registered File Edit View Help alej 8 2 Set Network Table No 0 x DNA T arget Network m DA1 T arget Node Address fi Edit Network Table l Cancel 20 SAIA PLC 20 SAIA PLC Available PLCs PGU port RS 232C Wi
76. 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name SHELL 4 f 7G PLC D sub 25 pin female 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables 2 Allen Bradley PLC 2 9 Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male meeps fey es Signal f PLC D sub 9 pin male 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 2 10 2 Allen Bradley PLC MEMO Please use this page freely 3 Automationdirect PLC 3 1 3 Automationdirect PLC Available PLCs 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 A eee Wiring Diagram 21 D2 240 Port 2 on a CPU unit D2 250 Port 2 on a CPU unit RS 232C Wiring Diagram 3 D4 430 RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 5 D4 450 Port 0 on a CPU unit RS 232C Wiring Diagram 4 Direct LOGIC Port 3 on a CPU unit RS 485 Wiring Diagram 6 D4 440 Port 1 on a CPU unit K Sequence Port 2 on a CPU unit Port 1 on a CPU unit D2 240 RS 232C Wiring Diagram 2 Port 2 on a CPU unit Port 1 on a CPU unit D2 250 Port 2 on a CPU unit RS 232C Wiring Diagram 3 Communication Setting The recommended co
77. 71UC24 R4 1 set Modular jack 8 pin oo 1 6 TMP is connected to FG RDB when the V7 series is used and vol to SG when the V706 is used ol Use shielded cables e Connection example with MITSUBISHI A1SJ71UC24 R4 3 set Modular jack 8 pin PLC PLC PLC Pin No a E re 5 Pea Hron RDB Terminating resistance RDB ON 1 V6 TMP is connected Al ET E ROOT ae eet tenes eee to FG when the V7 Use the shielded Terminating Use shielded Terminating Use shielded Terminating series is used and to cable resistance twist pair cables resistance twist pair cables resistance SG when the V706 is ON OFF ON used Terminating Resistance Setting For V7 Series e The terminating resistance should be set on the DIP switch in the backside of the unit e When MJ1 is used Set DIPSW6 to the ON position When MJ2 is used Set DIPSW8 to the ON position ON 123 4 5 6 7 8 ES MJ2 modular jack 2 terminating resistance CF auto load Notised CN1 RD terminating resistance at pins 24 and 25 MJ1 modular jack 1 terminating resistance CN1 SD terminating resistance at pins 12 and 13 App1 6 Appendix 1 PLC2Way For V706 e The terminating resistance should be set on the DIP switch in the side of the unit e Set DIPSW1 to the ON position Side View MJ1 modular jack 1 terminating resistance for RS 485 MJ2 modular jack 2 SD terminating resistance for RS 422 MJ2
78. 8Pin RJ 45 8Pin RJ 45 8Pin Unshielded twist pair cable Unshielded twist pair cable e Notes on cables Use the following recommended cable Recommended cable 10BASE T Type Twist pair cable category 5 Appendix 5 Ethernet App5 7 AUI Connection e 10BASE5 The following devices are required for 1OBASE5 connection Coaxial cable for 1OBASE5 AUI cable N type connector N type terminator Transceiver Power supply for the transceiver 12 VDC 1 segment max 500 m max 100 nodes a a a Minimum noas gt ie AUI cable interval max 50 m 2 5 m Ethernet CU 03 To extend the length or increase the PLC unit ES number of nodes use repeaters V7 al N type terminator Maximum segments 5 Transceiver Maximum network distance 2500m E i N type connector Maximum network nodes 100 1 12 V power supply is required for each transceiver ote sade e Transceiver Use the transceiver equipped with the SQE TEST function SQE TEST Signal Quality Error Test Recommended transceiver Allied Telesis CentreCOM 107 The I F unit may be broken if the AUI connector is subject to strong force Use the AUI cable when connecting the transceiver When the power lamp of the transceiver is not turned on check the wiring of 12 VDC power supply then replace the fuse refer to page App5 4 of the I F unit CU 03 2 For the replacement procedure refer to the manual CU 03 2 OPERATING INSTRUCTIONS at
79. 999999 1 to 9999999 A0000000 to A9999999 10000000 to 19999999 e Setting procedure Num Data Display Input Type BCD Display Type DEC w sign w signs Available Memory The available memory setting range varies depending on the PLC model Be sure to set within the range available with the PLC to be used Use TYPE when assigning the indirect memory for macro programs SYSMAC C DM Geta memon a TTC C a HR rol rela ae R wen AR auxiliary memory relay EMn extended data memory 4 TU timer contact Read only CU counter contact Read only 1 When using EMn extended data memory specify the bank Example EMO 30000 number C 0 to 7 AA A The assigned memory is indicated when editing the screen as shown on the right Address Colon Bank number p SYSMAC CV DM data memory o AR alarm relay T timer current value C counter current value NON EMn extended data memory TU timer contact Read only CU counter contact Read only 1 When using EMn extended data memory specify the bank Example EMO 30000 number CV 0 to 7 AA A The assigned memory is indicated when editing the screen as Address shown on the right Colon Bank number 19 OMRON PLC SYSMAC CS1 CJ1 SYSMAC CS1 CJ1 DNA E OM ate merry es COTTON TN CONTA AC ao emen A T amencer Te tecnicamente e EMn extended data memory 4 w meae e TU timer contact 9 Read only
80. 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 V7 TC485 V7 TC485 V7 TC485 GD port Signal Signal Signal Signal Name Name m Pin No Name o a peas re a a eee O RA z 1e w i i pe e osr i ot Ero ip gi alk RD terminating resistance RD terminating P RD terminating resistance ON OFF OFF Use shielded twist pair cables i l MD a ee eee For V706 V706 V MDD MJ2 GD port Signal r Signal RD terminating resistance Ze OFP a ES V706 MJ2 co Toy RD o cs A gt a e Bere V706 MJ2 MEA RD terminating resistance E ey a EE ea t po L sc For V706 DU 01 refer to For V7 Series above wA S Slide the slide switch on the V706 SD RD to the lower position for RS 422 A EN dada Appendix 3 n 1 Connection Multi link App3 5 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 Check that the PLC to be connected is ready for multi link connection Refer to Connection Compatibility List at the back of this manual e Setting Procedure System Setting gt PLC Type gt Sele
81. CAUTION may have serious ramifications Never use the input function of MONITOUCH for operations that may threaten human life or to damage the system such as switches to be used in case of emergency Please design the system so that it can cope with malfunction of a touch switch A malfunction of the touch switch will result in machine accident or damage Turn off the power supply when you set up the unit connect cables or perform maintenance and inspection Otherwise electrical shock or damage may occur Never touch any terminals while the power is on Otherwise electric shock may occur You must put a cover on the terminals on the unit when you turn the power on and operate the unit Without the terminal cover in place an electric shock may occur The liquid crystal in the LCD panel is a hazardous substance If the LCD panel is damaged never swallow the leaked liquid crystal If the liquid crystal spills on your skin or clothing use soap and wash off thoroughly For MONITOUCH using a lithium battery never disassemble recharge deform by pressure short circuit nor reverse the polarity of the battery and never dispose of the battery in fire Failure to follow these conditions will lead to explosion or ignition For MONITOUCH using a lithium battery never use a battery that is deformed leaks or shows any other signs of abnormality Failure to follow these conditions will lead to explosion or ignition e Check the appearance of the un
82. COCCCOCSCSC CSCSC CSCs SsSS NC OOCOOOOOCCOCSCSCSCSSSS Address 3553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 Appendix 5 Ethernet App5 25 Contents 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 Network table 45 status Network table 46 status Network table 47 status Network table 48 status Network table 49 status Network table 50 status Network table 51 status Network table 52 status Network table 53 status Network table 54 status Network table 55 status Network table 56 status Network table 57 status Network table 58 status Network table 59 status Network table 60 status Network table 61 status Network table 62 status Network table 63 status Network table 64 status Network table 65 status Network table 66 status Network table 67 status Network table 68 status Network table 69 status Network table 70 status Network table 71 status Network table 72 status Network table 73 status Network table 74 status Network table 75 status Network table 76 status Network table 77 status Network
83. Communication Setting AAA TEE E EE tn 21 1 Available MEMO sai a a a a E cata E echoes 21 1 WIIN A A A T E A a e E S 21 2 SHARP PLC Available PECS 1 aa R A ERRE EEES ES 22 1 Communication Setting see EE A oO EE E A atlduoc 22 1 JW Series Link Unit Switch Setting Sd 22 1 JW100 70H COM Port JW20 COM Port System Memory Setting ooooooccccccccccnncnnccccccnnnnos 22 2 Available Me MOV sonar din A coi 22 2 VNI A A A A IO TTT ene ere wna RRL OTM OSES PP r Tr 22 3 SHINKO ELECTRIC PLC O O A eee EE A 23 1 COMMUNIGATON Setting a acido 23 1 Available Memory ss lia OOOO 23 1 ALA o E A E E CO a a A pee Cee RES 23 2 Siemens PLC Available PEGS 31 odios cales 24 1 COMMUNICATION SST isis 24 1 EE Vea A e a UU SEO To cht hel A 24 4 WINO E 24 7 TAIAN PLC Available PEGS wists cath EE e did 25 1 Communication Setting idas 25 1 Available WIEMORY seria fice teens cccs A e EErEE 25 1 A A A ee weunltua ETRA 25 2 Telemecanique PLC O e o UE ARE A 26 1 COMMUAICA LON SUN e les 26 1 Available Mediano ideas 26 1 A A o E O 26 2 TOSHIBA PLC Avalla BIE PECS rei o 27 1 COMMU MIGAON Setting carr en an E tas ses ence hes a E aaa O T 27 1 AMA E MEMO des 27 2 VATE A O A O RR 27 3 TOSHIBA MACHINE PLC Available PEG A O A ccc s 28 1 Communication eN ren o tt cta ette MALO a sd otto opte AM ao ML nn 28 1 INEA AP AAA 28 1 WING oree anna sss cela ele that aac AN sc scar teil ad gn E TTE 28 2 Toyoda Machine Works PLC Availabe PECS SRR PR RAR aR a err er tee
84. DSS rie regateo S sv imereounteretvauey SSS v imereountereapsesting e OOOO T mene f e Rey 15 Matsushita Electric Works PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal feal 1 yp PLC D sub 9 pin male 1 Pin No 1 of CN1 is used as FG ee aa The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ana GOR 4 EN JEA PLC D sub 9 pin male 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 15 Matsushita Electric Works PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal i i pef t j e PLC 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 RS 422 Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male pa 902 gt CES 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 N 16 MITSUBISHI ELECTRIC PLC 16 MITSUBISHI ELECTRIC PLC Available PLCs A Series Link QnA Series Link QnH Q Series Link A Link Net10
85. Direction V Series gt Communication Device a lema o gt gt gt O r E RO e Wiring Perform wiring as shown below General purpose V706 MJ2 computer Signal Signal sG re 1 SHELL Use twist shielded cables Appendix 6 Universal Serial Communications App6 11 MJ2 V706 only Specifications as an RS 422 Connector To use an MJ2 on a V706 as an RS 422 connector set the slide switch on the V706 to Z CAUTION the lower position RS 422 For details refer to the separate V706 Hardware Specifications The pins of modular jack 2 correspond to signals as given below RS 422 send data RS 422 send data 12345678 RS 422 receive data RS 422 receive data pe recone see o e e Wiring Perform wiring as shown below lt 4 wire system gt General purpose V706 MJ2 computer Name Pin No Use twist shielded cables lt 2 wire system gt General purpose V706 MJ2 omen Use twist shielded cables 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 e Wiring Perform wiring as shown below lt 2 wire system gt General purpose computer V706 MJ2 TIR Terminating resistance OFF V706 MJ2 ia se Terminating resistance AS EZ OFF V706 MJ2 Terminating resist
86. E Fanuc PLC Palla ple PELO Si a ci 9 1 COMMUMIGAUOM SETI io 9 1 Available Memory APA Ag aye caee cain wah als ee eae OEE ees 9 2 O A ent ern ere orice Sic nrrean cant iiineemRenirnt ts Rarer eee hce nc etn nit enn mente eT Te nee eet rey ce eer ne rah ner 9 3 10 11 12 13 14 15 16 17 18 19 Hitachi PLC Available PLES eai EAEE ee oon 10 1 COMMUNICALON STUNG srera iiini O E a E aa AAAs dobbs 10 1 HIDIC HA Switeh Settih cido ii 10 2 Available MEMO eel 10 2 WIHA Geen ea ce ctsteenesee toa ann A HONEA ENE re Ree ec naire a eR een Mattia ter ron Ame ASN ee eY Pe 10 4 IDEC PLC AS N E Ge iananan ns neeuunn enna vanes E saunas 11 1 COMMUNICATION Settihg irere es aa aereo ced ERREN Y 11 1 Available Memory tii 11 1 A O O O ET ARO 11 2 KEYENCE PLC Available PLCS a cc 12 1 Communication Setting A Raid 12 2 EA A E E a aie aacceul EEEE 12 4 WIRING ei sastuissoa danas Jossacauualset E sada aenaenaieaauuian doasnoner ede cuethauieeeneee accasentoees 12 5 KOYO ELECTRONICS PLC AV aN DIE PGS IA o A A Saeed areas 13 1 Communication Setting ai id 13 2 Avala ble Memo a RA eo 13 2 A N E E r eei as 13 3 A PER EEEE EEEE EE EEE A S ecards E E ETT 13 5 LG PLC Fa ie F210 PUES o e ET 14 1 COMMUNICATION SEUNG asa A Azeaawedeese oh ieelMawansawdecedeeees 14 1 Ann e 14 2 A IIS 14 4 Matsushita Electric Works PLC Available RA A A acca oc Ge Nats 15 1 COMMUNICATION gt Ne E GOON OS 15 1 MEWNET Link Unit Switch Set 53cnccc
87. ESANTE Bytes for Record fo g Stor arget d zal No of Table f f Internal Buffer poro SOT 00100 Sampling Time Ex Ser Cc SRAM Memory 10001 El Pp CF Card fic CF Card i No of Samples m Full Processing Output File No 0 r Continuous Message No jo E C Stop Select the tab of the same number 7 Use Operation I Use Start Bit F Use yay pa Replay Sound Consect F Use E Mail Receivers Cancel 3 Trend sampling or data sampling setting To show data stored in the specified buffer number trend sampling or data sampling must be set Click the Trend Sampling or Data Sampling icon and make the setting For more information refer to the Reference Manual Function Trend sampling Data sampling Lay 6 Editor for Windows Yersion 2 00 D Japanese monitouch y7 Ether 7 Y 10T 640 803200 10 x 3 File Edit Display Draw Part Item System Setting Tool Window Help x MAIRENA AE m0 HESSRHRMOVEEVe kion No 04 EJE ARES b ES Ss OOH HAR oK Zus BOO ALE 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 To perform batch data transfer from the PLC2 memory the followi
88. Ethernet etc is used 2 The V6 series master or slave station is used for the temperature control network or PLC2Way function e The V7 and V6 series can be used together The V6 series can be the master station However when V606 V606i is the master station the slave station must be V606 V606i Also depending on the hardware version of the V6 series multi link 2 connection may not be supported Refer to the V6 Hardware Specifications Notes on Connection For more information refer to Appendix 2 n 1 Connection Multi link 2 1 4 1 Before Connecting to PLC n 1 Connection Multi link Outline e 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 Maximum length PLC to the terminating V7 series 500 m RS 422 RS 485 connection MALI GF ak a i The PLC must be of the type of signal level RS 422 RS 485 with port numbers For the available PLC models refer to Connection Compatibility List at the back of this manual RS 422 connection between the V7 series lt gt PLC must be in 2 wire connection e The V7 and V6 series can be used together Notes on Connection For more information refer to Appendix 3 n 1 Connection Multi link 1 Before Connecting to PLC 1 5 Interface CN1 D sub 25 pin V7 series and V706 DU 01 Ps
89. Flash Environment Setting IP Address Setting Display Item Display All Convert DIO Input memory to bit memory Validate Text Process setting when using JIS code character strings JRelay Priority Display on Screen Call Use 128 Colors Use 3D Parts pecial Operation Pressing two switche etoisecnmaiaen et en Loss Not display Check screen Not convert NULL to space by LD_RECIPE macro 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 Ethernet Information Trans Speed 10BASE T Stat No 192 168 1 68 PORT 10000 MAC 0050FF000035 ana TS Editor Editor MJ1 When the F2 switch is held down for three seconds Editor MJ1 changes to Editor and communications with the PLC programming software become possible _ van menu v710iTD 200241 aao PAM communications with the V SFT editor become Syste Inf ti M ee possible ENGLISH CPU Port oration mn Communications with Communications with Ee the PLC programming the V SFT editor lone bear software possible possible PLC Stat No 0 Stop Bit 1 Parity Odd Send Delay Omsec o o o e Communicating statuses with the PLC programming software and the PLC during communications between the V SFT editor and the V7 s
90. HR command Read CHR command nono QAQA gt 5C00 NN 000 5C00 Host side A O moro V series side Transmission data D Memory D Memory EJS L data L data ie E E X M HL a a oa Transmission data Host side There should be no more than 5 DLEs Address Top address of the data memory to be read HEX ASCII Count Number of characters to be read HEX ASCII When the data to be read is not continuous DLE is inserted as a delimiter between the breaks V series side Address and count are omitted and DLE and data are transmitted 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 shown below SID TILIA BC D XIE 0211104 41n 42u 43 444 oda 31n4e Send data Host side V series side App6 32 Appendix 6 Universal Serial Communications Read Memory Command Note Due to the fact that communication speed is increased when you use the read CHR command to read characters it is recommended that you use this command e Read memory command Read memory command NAAA ss A Cc DIdjC O dlo u rju n ein t E sjt Host side S V series side i T T Transmission data Host side There should be no more than 5 DLEs Address Top address of the data memory to be read HEX ASCII Count Number of characters to be read HEX ASCII
91. IAN PLC Available PLCs Select PLC Type PLC Unit Port Communication Port T R T R RS 422 Wiring Diagram 1 TPO2 TPO2 7 l MMI Port 9 pin 4 5 Short Computer Link Mode RS 422 Wiring Diagram 2 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows V7 Comm Parameter Setting 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 7 WC Constant register i 25 TAIAN PLC Wiring Wiring diagrams with the PLC are shown below RS 422 Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male A eu i J e PLC Name SHLD 4 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ai sof 2 13 o a a 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 9 pin male _ E Use shielded twist pair cables 26 Telemecanique PLC 26 Telemecanique PLC Available PLCs TSX Micro TSX Micro RS 485 Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC an
92. ITSUBISHI ELECTRIC PLC 16 15 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 When connecting to the CPU of the MITSUBISHI A QnA series Insert the connector on the backside into the CPU port directly or use the MDD CPU optional cable for connection NN N When connecting to the CPU of the MITSUBISHI FX1 2 series Use the MDD CP U cable optional for connection When connecting to the CPU of the MITSUBISHI FX2N 1N 0N 1S series Slide switch A 1 A series 2 QnA series 3 FX series ae Use MITSUBISHI s conversion cable FX 20P CADP Y MB CPUA cable optional Set the slide switch before turning the power on XA AAA eee eee eee ST Te AAA AA AAA AAA ee V MDD cannot be used with the MI4 FX cable e The power to the V MDD is supplied from the CPU Check the electric capacity of 5 V at the CPU Current consumption Max 350 mA e Keep the cable between the CPU and V MDD as short as possible Max 1 to 1 5 m e Be sure to consider noise problems when performing wiring e When V MDD is used for connection with the V7 series set 1 5 seconds or above for the timeout time in the Comm Parameter dialog e Please read the instruction manual for V MDD before use Ladder Transfer Function Up until now it has been necessary to debug the data by
93. LC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal pa i jee PLC D sub 25 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male i l apa i jr NJ B16 D sub 15 pin male 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 ID Fuji Electric PLC RS 485 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal 4 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 RS 422 Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male fel 92 so e E sesnieed inis pat cables EJES 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 9 GE Fanuc PLC 9 1 9 GE Fanuc PLC Available PLCs Select PLO Type PLC UnivPor 90 series 90 series SNP X Communication Setting Series 90 30 Programmable coprocessor PCM teres rang ae Series 90 micro Series 90 30 FENO RS 485 Wiring Diagram 3 The recommended communication parameter settings of the PLC and the
94. MORE eE 1 A SS E OOO OE e AMS AE AM AE pers SS ls 4 dd gel Bores RAS TA AE RA peces oN ISR Ae A Ac As AAA AAA a EC NS EE ENE NERO E SEE SE ESE AA MAA Sa eT SAMSUNG Pe ES SS E AE SEO AAA e TM RS AE E EA Ha TAS SOME E TOA SHARP Ea SO a O IST IES EE A A pere Sl Fed lt a prefer ee 1 2 CI lt a BEA 0500 E EA ee eee ee ree gt aaa Pe le de AA O E EAS AAA e EE AAA s r _ _ A ff S7 300MPI PC ADP PE a 7 300MPI Helmholz SSW7 ADP TISOO 5O5 O AA en E N Tig EA E A E ee es pe Ss Oe Os gt 3 A TOSHIBA emm opo c _ _ AA TOSHIBA MACHINE MACHINE EA Works VIGOR M series o M series o O E E S EEE A O N E Memobus o oll oll T Y Yaskawa Electric CP9200SH MP900 Fla e M2 gt E de FA500 So a rra S A a Yokogawa Electric FA M3 A A A LO E a FA MSR Or oe he ee EI A 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 network 2 RS 232C connection only 3 No connection available with FXLJN 422 BD 4 A maximum of four PLCs can be connected 5 A maximum of three V7 series can be connected 6 Connection available only with FXON 7 RS 422 connection only for COMM 2H 9 SLX DDD hy MONITOUCH 2200NE0a Hakko Electronics Co Ltd Sales Tokyo Office Osaka Office Nagoya Office Head Office 890 1 Ka
95. N macro for the screen on the V SFT editor This macro command should be OUT_ENQ of system call SYS It is not possible to have access to the CPU on the different network from the same screen 16 14 16 MITSUBISHI ELECTRIC PLC e 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 system code should be 1 NET 10 2 NET II B For n 3 network number set 0 when NET II B is selected for n 2 system code or the network number to be accessed when NET 10 is selected Do not use this macro for any purpose other than OPEN macro for a screen Doing so triggers network switching at the time of macro execution resulting in a communication error For more information on the macro function refer to the Reference Manual Function Also refer to the explanation on network registration contained in the operation manual for MITSUBISHI s Standard Link Multi drop Link Unit e For the NET II B data link system and NET 10 network system refer to MITSUBISHI s manual Available Memory For the available memory of the PLC to be accessed refer to Available Memory page 16 6 Note that the CPU number must be set on the V SFT editor Wiring Refer to the wiring diagram with the standard type link unit 16 M
96. Nate REAR AE EE Ae ee eR teen EERE er eae 29 1 CO MMUNIGANON Setting unre 2 dienes hic ctccce a sad aa 29 1 O 29 1 Available Memory e dol e tens le 29 2 ScreemEditing Memory IA ess bone caters 29 2 VIELEN O OE 29 3 VIGOR PLC E O O ca tala ec 30 1 Communication Setting e E A mutts SieaacnnnaterotteniRdiaasact tind Sitansiaasasasedddeutitiadtadn 30 1 PVA AIS WMO IMONY a e a e E EE E Eaa A E E E EEE E AEEA 30 1 WINA O eea a e E AS E S E E o tenes aera re 30 2 31 Yamatake PLC Available P LC Secs dd aiii 31 1 COMMUNICIALON S SUN e eco Aa dd cabblal 31 1 Available MEMO asistida ii 31 1 A e PR PE E A E 31 2 32 Yaskawa Electric PLC Available RLC Si een ee eee O EEA ce OO eee ee ee ey emer ee eee eer 32 1 Communication Setting enn s Sct aa sacl Mannan seas Accides San acenese 32 1 Available M mo Aten rene enetatserehn Eddie 32 2 WING oh Baa ae Oe ce teas vases Coes econ E ah ee nas cece basalaa S4aucenamaebae S aE 32 3 33 Yokogawa Electric PLC Appendix 1 Appendix 2 Appendix 3 Appendix 4 Appendix 5 Appendix 6 Available PEG Saiz tne o ee mee PERO a N 33 1 Communication Setti saspi aeaa e E EE aa E EA aE 33 2 Available WIG IM ONY es A aci 33 3 VIII geeet a a a tela da 33 4 PLC2Way PE ao E AA EEE E eae E S App1 1 Limitations on Connection at PLC2Way cccccccncccccnccoccoooocccononononnnnnnnononnonononononnnccnonnnanonnnnonnnos App1 2 PLCs Compatible with PLC2Way Connection at MJ Port oocccccccccc
97. OKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 399 D25 gt 24 IP address shown as a string of characters separated by dots Example 192 168 XXX XXX 0 1 2 Refer to page App5 31 TRUE FALSE Get using HKEtn_GetLastError Read Words from Internal Memory int HKEtn_ReadinternalMemory WORD dp unsigned short Wordcnt int DeviceType DWORD addr char IpAddr int DFlag 1 This function is retained until data is transferred from the V7 series e Parameters dp Wordcnt DeviceType addr IpAdadr DFlag e Return values Success Failure Error details Target block pointer Contents Word Count Word count to be transferred max 2000 words O u 1 s 2 L 3 LD 4 T Top memory address to be read IP address shown as a string of characters separated by dots Example 192 168 XXX XXX 0 1 2 Refer to page App5 31 TRUE FALSE Get using HKEtn_GetLastError Appendix 5 Ethernet App5 33 Read Words from Memory Card Memory int HKEtn_ReadCardMemory WORD dp unsigned short Wordcnt int FileNo int RecordNo DWORD addr char IpAddr int DFlag 1 This function is retained until data is transferred from the V7 series e Parameters dp Target block pointer Wordcnt Word count to be transferred max 2000 words FileNo File number RecordNo record number addr Top memory address to be read IpAdadr IP address shown as a string of characters separated by
98. PLC Connection Manual 0 lt HAKKO TOUCH OPERATION FLAT PANEL MONITO U CH V Series TI A A A SA Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual Printing Date Revised Contents February 2004 2200NE0 First edition October 2004 2200NE0a only in PDF file Preface Thank you for selecting the MONITOUCH V7 series For correct set up of the V7 series you are requested to read through this manual to understand more about the product For more information about the V7 series refer to the following related manuals Reference Manual Operation The V SFT operating procedure is described 1043NE Reference Manual Function The functions and instructions of the V7 V6 series are 1044NE explained V7 Hardware Specifications Notes on usage and hardware specifications for the 2010NE V7 series are described V706 Hardware Specifications Notes on usage and hardware specifications for the 2012NE V706 are described Temperature Control Network The temperature control network function is 1033NE explained Specifications for CC LINK Instructions for CC LINK are contained 1028NE Communication Unit Specifications for PROFIBUS Instructions for PROFIBUS are contained 1036NE Communication Unit Connection with AB Control Logix The connection communication parameters and tag 1041NE setting for AB Control Logix are explained M CARD SFT Operation Manual The operating proce
99. PU31 33 C200HS CPU21 23 C200HS CPU31 33 CQM1 CPU21 CQM1 CPU41 42 43 44 C200H LK202 V1 CPU unit with built in port host link port RS 232C C500 C500F RS 232C C1000H C500 LK203 C2000 C2000H RS 422 SYSMAC C CPU unit with built in port C200HX host link port C200HG C200HE Mounted on the CPU slot RS 232C C200HW COM02 to 06 RS 422 Wiring Diagram 3 Wiring Diagram 4 Wiring Diagram 3 Wiring Diagram 4 Wiring Diagram 2 Wiring Diagram 3 Wiring Diagram 4 RS 232C Wiring Diagram 2 Wiring Diagram 2 Wiring Diagram 5 SRM1 C02 RS 232C interface RS 232C Wiring Diagram 2 CPU unit EAU peripheral port OMRON s cable CQM1 CIFO1 2 CQM1 CIFO1 2 RS 232C interface RS 232C Wiring Diagram 2 CPM2A OMRONs cable CPU unit peripheral port CPU unit peripheral port CPM2C CV500 CV1000 CV2000 RS 232C RS 422 RS 232C PORT PORT2 RS 422 PORT2 CPU unit with built in port host link port CVM1 CV500 LK201 SYSMAC CV OMRONs adaptor unit CPM2C CIF01 RS 232C Wiring Diagram 2 OMRON s cable CS1W CN118 RS 232C Wiring Diagram 2 Wiring Diagram 2 Wiring Diagram 6 Wiring Diagram 3 Wiring Diagram 2 Wiring Diagram 5 PLC2Way O O x x x x O O x O 19 OMRON PLC CPU unit RS 232C port CS1W SCU21 RS 232C Wiring Diagram 2 CS1 Mounted on the CPU slot CS1W SCB21 SYSMAC C
100. RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male EJES 7 PLC D sub 25 pin male me 4 EN 7 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 24 Siemens PLC 24 Siemens PLC Available PLCs Sant CP 521Sl S5 100U 3964R Transmission Protocol S5 115U 5 135U RS 232C Wiring Diagram 1 CP 524 3964R RK512 RS 232C Wiring Diagram 1 S5 155U CP 544 3964R RK512 RS 422 Wiring Diagram 6 S5 95U Second serial interface SIEMENS s 3964R Transmission Protocol 6ES5 734 1BD20 cable S5 PG port Programming port on the CPU unit RS 232C Wiring Diagram 3 S7 300 CP 341 3964R RK512 RS 232C Wiring Diagram 2 S7 400 CP 441 3964R RK512 RS 422 Wiring Diagram 6 S7 200 PPI S7 200 series PP RS 422 Wiring Diagram 7 S7 300 400MPI S7 300 400 series MPI port RS 422 Wiring Diagram 9 S7 300MPI aisha HMI Adapter HMI ADP 6ES7 972 0CA11 0XA0 S7 300 400 series SIEMENS s MPI port PC Adapter 6ES7 9720CA23 0XA0 S7 300MPI Helmholz s Helmholz SSW7 ADP Adapter fur MPI Bus SSW7 T1500 505 RS 232C Wiring Diagram 4 TI500 505V4 Noe GPU Pol Bulian RS 422 Wiring Diagram 8 4 When using the 6ES5 734 1BD20 cable made by SIEMENS connect the cable shown in Wiring Diagram 3 to the D sub 25 pin side of the 6ES5 734 1BD20 cable for communications with the V7 series 2 135
101. Ro RS 2226 reoeive deta fe eses ee ets Co preees O ets E IESO IEA TI O eses O eses C a te rante 778 nat usec aa Use orante 7708 not uses Ca eses as o RS Az2 receive data D sub 25 pin male 000000 00 The following connector is recommended Recommended connector DDK make 17JE23250 02 D8A D sub 25 pin male metric thread with hood 1 6 1 Before Connecting to PLC MJ2 V706 only Not used Not used SD RS 422 send data A Not used Not used SD RS 422 send data MEN 5 V Externally supplied 5 V 2 Max 150 mA 7 D 12345678 5 Signal ground RD RS 232C receive data R RS 422 receive data SD RS 232C send data RD RS 422 receive data 1 Switch between RS 232C and RS 422 for pin Nos 1 2 7 and 8 with the slide switch on the MONITOUCH For more information refer to Slide Switch 2 The maximum current for the output power supply 5 V is 150 mA when MJ1 or MJ2 is used 1 1 4 3 5 4 8 1 Pin arrangement on the MONITOUCH Pin arrangement 12345678 on the cable 87654321 Le 2 we o yA Oo The pin arrangement shown above assumes the cable is viewed as shown in the figure RJ 45 8 pin Slide Switch e Whether MJ2 is used as an RS 232C or RS 422 4 wire port is selected with the slide switch Before connecting a V706 to a PLC check that the switch is set to the correct side e The slide switch is adjacent to the DIP switch on t
102. S1 CJ1 Mounted on the CPU slot ae DNA CS1W SCB41 RS 422 Wiring Diagram 7 CPU unit with built in port AS host link port RS 232C Wiring Diagram 2 amp CJ1H CJ1M RS 232C Wiring Diagram 2 MEN CJ1W SCU41 RS 422 Wiring Diagram 7 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 an MJ2 PLC adaptor plus CQM1 CIF01 3 For SYSMAC CS1 CJ1 DNA refer to page 19 8 SYSMAC CS1 CJ1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows CN S o Terminating resistance The maximum baud rate available with the V7 series is 115200 bps Select the appropriate baud rate depending on the used PLC and environment V SFT Setting Set Trans Mode in the Detail tab window of the Comm Parameter dialog of the V SFT editor Trans Mode 1 BCD w o sign Trans Mode 2 BCD w signs 1 BCD w signs Data in the PLC memory can be shown as data with signs When higher 4 bits in the memory indicates F or A it is treated as negative F Regards higher 4 bits as 0 A Regards higher 4 bits as 1 e Displayable range 1word 1999 to 9999 2 words 19999999 to 99999999 19 OMRON PLC Example PLC Memory Indication on V7 0000 to 9999 0 to 9999 F001 to F999 1 to 999 A000 to A999 1000 to 1999 00000000 to 99999999 0 to 99999999 FO000001 to F9
103. SE T Stat No 192 168 1 68 PORT 10000 MAC 0050FF000035 PORT 10000 MAC 0050FF000035 a BRAM kl lernet Fo 1 O Test tes 5 Transfer screen data from the server Appendix 5 Ethernet Transferring Screen Data from V SFT Editor 1 Click the Transfer icon The Transfer dialog is displayed eed Y6 Editor for Windows Yersion 4 O File Edit Display Draw Part E Sa 5 IKE n fmt a AA MO DA ral gt x Transfer Device Transfer Data Display C Memory Screen Data C IF Driver c J Use Simulator Program I Read a Font Data ead comments in data transfer c Temp PLC2 _ All data transfer C Ex Font I Transfer through Ethemet 0 0 0 8 C SRAM Data 2 Attach a check mark M to Transfer through Ethernet 3 Click the Detail Setting button The IP Address Setting dialog is displayed 4 Enter the IP address of the V7 series to which the screen data is to be transferred When a list is shown select the IP address of the V7 series and click the lt lt button The host name and the IP address are automatically entered Click OK C Station No Table C Ladder comm pra MODEM Transfer PC gt PC lt PC o Info Up date of system Detail Setting t Font Data Temp PLC2 C Ex Font C SRAM Data Station No Table C Ladder
104. To set port No 1 ADR LOW HI Make sure that each I F unit on the network has a unique port number Fuse This is the fuse for 12 VDC power supply Rating 2 A 10BASE T connector This connector is used for 10BASE T connection Compliant with IEEE802 3 AUI connector This connector is used for connecting the transceiver cable in the case of 10BASE2 or 10BASE5 12 VDC power supply terminal The power source is required for the transceiver of AUI connection Be sure to take account of a voltage drop at CU 03 2 max 0 7 V Itis not necessary to use 10BASE T Appendix 5 Ethernet CNT Option Unit DU 01 Specifications Specifications Item 10BASE T Baud rate 10 Mbps 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 UTP unshielded twisted pair Connecting cable 22 26AWG Port Position When the DU 01 mounted on the V706 the LAN port faces downward Bottom View DU 01 Ey V706 App5 6 Appendix 5 Ethernet Wiring 10BASE T Connection e Cable connection diagram UTP cable Straight or cross cable For more information refer to the HUB specifications UTP cable Straight HUB Distance between the node and the HUB 100 m maximum Maximum network nodes 100 Straight cable Cross cable with HUB without HUB 10BASE T 10BASE T 10BASE T 10BASE T RJ 45 8Pin RJ 45
105. U 921 not supported S7 300MPI PC ADP RS 232C Wiring Diagram 5 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows S5 S5 V4 S5 90U S5 95U S5 100U Setting on PLC V7 Comm Parameter Setting ey Sepa o s a O o mease 7 S 24 Siemens PLC S5 S5 V4 S5 115U S5 135U S5 155U S7 S7 300 S7 400 Setting on PLC V7 Comm Parameter Setting S5 PG Port Communication parameters are automatically set S7 200PPI CCT ANY T7 O 7 300 400MPI AO ec A e Set MPI SETTING in the Comm Parameter dialog of the V SFT editor Highest MPI Address 15 31 63 126 Source No V7 port number a Sa Highest MPI Address Set the maximum value of the port numbers for the PLC or the V7 series Source No Set the V7 series port number Set different numbers for Source No and Local No and be sure that Source No lt Highest MPI Address Highest MPI Address setting example If port numbers 13 and 20 are selected respectively for the PLC and the V7 series select oo y a 24 Siemens PLC 7 300MPI HMI ADP PC ADP Helmholz SSW7 ADP V7 Comm Parameter Setting Setting on PLC PC ADP E Helmholz SSW7 ADP Baud rate 38400 bps 38400 bps fixed 38400 bps e Set MPI SETTING in the Comm Parameter dialog of the V SFT editor Highest MPI Address 15 31 63 126 Source No V7 port number Highest MPI Add
106. V7 series starts fo ex Ea laa MelQnA lern Files of type 4 lem y Cancel 16 MITSUBISHI ELECTRIC PLC 16 19 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 2 Also when the ladder program is transferred in the RUN mode of the V7 series communications are synchronized therefore the performance of both the V7 series and the PLC programming software decreases 16 20 16 MITSUBISHI ELECTRIC PLC MEMO Please use this page freely 17 MODICON PLC 17 MODICON PLC Available PLCs Select PLC Type PLC Unit Port Modbus RTU Modbus RTU RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Setting on PLC V7 Comm Parameter Setting Baud rate 9600 bps 9600 bps Parity Transmission Data length 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 0 output coil 4 1 input relay NON Read only 17 MODICON PLC Wiring Wiring diagram with the PLC is shown below RS 232C Wiring Diagram 1
107. V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal 1 2 1 Pin No 1 of CN1 is used as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG 18 MOELLER PLC 18 MOELLER PLC Available PLCs RS 232C Wiring Diagram 1 dd Pago TMM PREPO ZB4 303 KB1 Cable made by MOELLER Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Setting on PLC V7 Comm Parameter Setting pot 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 M marker o MW as word device 18 MOELLER PLC Wiring Wiring diagram with the PLC is shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Name 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables 19 OMRON PLC 19 OMRON PLC Available PLCs CPU unit with built in port E C20H C28H C40H host link port RS 232C Wiring Diagram 1 C120 C120F RS 232C eee C120 LK201 V1 R C120 LK202 V1 RS 422 C2000 C2000H C200H C200H LK201 RS 232 C200HS CPUO1 03 C200H LK201 V1 iia C200HS CPU21 23 C200H LK202 RS 422 C200HS C
108. V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal PLC D sub 15 pin male A 3 09 d hir ep O 0 HN 1 Pin No 1 of CN1 is used as FG The metal shell of the 1 modular jack 2 on the V706 is used as SG a Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC D sub 25 pin female 1 Pin No 1 of CN1 is used as FG The metal shell of the vod modular jack 2 on the A k V706 is used as SG es Use shielded twist pair cables 2 Allen Bradley PLC Wiring Diagram 3 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 9 pin female SHELLI 4 a Se SaaS EIN CER 4 Pin No 1 of CN1 is used as FG A de The metal shell of the A Re ee y modular jack 2 on the V706 is used as SG Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC D sub 9 pin female 1 Pin No 1 of CN1 is used as FG vo The metal shell of the Me eet TA ee z modular jack 2 on the Use shielded twist pair cables V706 is used as SG 2 7 2 8 2 Allen Bradley PLC Wiring Diagram 5 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 9 pin male Signal pa y a A B s RS 232C Ladder transfer 1 PinNo 10fCN1isused E as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG RS 422 Wiring Diagram
109. Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal PLC igna Nee Pin No Pin No D sub 25 pin male 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name a p a pepa 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 12 KEYENCE PLC Wiring Diagram 3 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male Modular Connector 6 pin eeu Jo 123456 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 Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name skeli Pogo PLC D sub 25 pin male 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 12 KEYENCE PLC Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame E i ya PLC Modular jack 6 pin 123456 l I Md bea 4 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 RS 422 Wiring Diagram 6 V706 V Serie
110. a before the command request is stored e 8518 Stores the current status of the Ethernet An error occurs if a value other than 0 is stored For more information refer to the error codes page App5 43 e 8520 to 619 Stores the statuses of network table No 0 to 99 hel fel afolele 7le s s 2 s o Network table use status Macro command execution Command execution status Command execution result Bit O Network table use status 0 Not used 1 Used For the current station 0 not used is input Bit 1 Macro command execution status Stores the execution status of macro command SEND EREAD or EWRITE 0 Waiting 1 Executing Bit 2 Command execution status Stores the execution status of the command from the server or other station 0 Waiting 1 Executing read write command Bit 3 Macro command execution result Stores the execution result of macro command SEND EREAD or EWRITE 0 Normal 1 Error Bits 4 to 15 System reserved Not used at present Always set 0 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 folder for Ethernet communications is included in the V SFT CD ROM The Ethernet folder cont
111. a maximum of four V7 series e An original network is created where the V7 series Local Port 1 that is directly connected to the PLC is the master station and other three V7 series are slave stations Only the master station makes communications directly with the PLC and the slave stations make communications with the PLC via the master station V7 master station V7 slave station V7 slave station V7 slave station O Local port 1 Local port 4 Local port 2 je Local port 3 Oo 00000000 C0000000 0906000 RS 232C gt RS 422 RS 485 Hakko Electronics cable RS 485 connection A V6 MLT 3 m NP ll PLC 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 V706 master station V706 slave station V706 slave station V706 slave station Hakko Electronics cable RS 485 connection V6 MLT 3 m In the case of V706 DU 01 connect to CN1 e Communications between the V7 master station and the PLC depend on the communication speed set on the PLC The maximum available speed for the V7 series is 115 kbps which is higher than the one available with multi link connection described in Appendix 3 n 1 Connection Multi link Wiring Appendix 2 n 1 Connection Multi l
112. agram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male i l a pafi j PLC D sub 9 pin male 4 Pin No 1 of CN1 is used as FG 4S Se The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG 16 MITSUBISHI ELECTRIC PLC Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal o paa y a PLC D sub 25 pin male 1 Pin No 1 of CN1 is used as FG The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal E r apa i j e PLC D sub 9 pin female 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables 16 10 16 MITSUBISHI ELECTRIC PLC Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC S ae CITAR 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables RS 422 Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame fot eu a gt gt 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 16 MITSUBISHI ELECTRIC PLC 16 11 Wiring Diagram 6 V706 V Seri
113. ains sample programs created using Visual C and the VBA folder contains those created using VBA Refer to these sample program when creating an application If necessary you can copy and tailor the program to your requirements V SFT CD ROM o Sample Eng Ethernet Release Res VBA Jpn e Ethernet The following files are contained in the respective folders Ethernet ESmpl dsp ESmpl h ESmpl cpp ESmpl rc ESmpl clw MainFrm h MainFrm cpp ESmplDoc h ESmplDoc cpp ESmplView h ESmplView cpp StdAfx h StdAfx cpp Resource h ReadMe txt HKEtn10 h Release HKEtn10 dll HKEtn10 lib res ESmpl ico ESmpl rc2 Toolbar omp ESmplDoc ico e VBA The following files are contained in this folder VBA HKEtn10 dll VBA_Sample xls To execute this program copy the above files to the C TEST folder Port No 10000 is set When changing the copy target or the port number change the setting in the program accordingly Appendix 5 Ethernet App5 29 e 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 short unsigned short Integer WORD int long Long DWORD Visual C unsigned short 0 to 65535 WORD 2147483648 to 2147483647 int 2147483648 to 2147483647 DWORD 0 to 4294967295 char
114. ale E a pafi po PLC D sub 9 pin male 1 Pin No 1 of CN1 is used as FG aia ias marl The metal shell of the Use shielded twist pair cables modular jack 2 on the V706 is used as SG 33 Yokogawa Electric PLC RS 422 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male 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 33 Yokogawa Electric PLC MEMO Please use this page freely Appendix 1 PLC2Way PLC2Way Appendix 1 PLC2Way e 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 e When the V7 series or a V706 equipped with DU 01 is used connect the first PLC to the CN1 connector When a V706 is used connect the first PLC to MJ2 Connect the second PLC to the MJ port to MJ1 when a V706 is used V7 series or V706 DU 01 oom RS 232C RS 422 RS 485 PLC MITSUBISHI ee RS 232C RS 422 RS 485 2 wire connection PLC YOKOGAWA V706 RS 232C RS 422 RS 485 L PLC MITSUBISHI RS 232C RS 422 RS 485 2 wire connection YOKOGAWA 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 conn
115. alue D data register EE 14 LG PLC MASTER KxxxS P mwoga ATT wo ewen S Co wee CTN SS CON TN DET F care ACTO CT tamente vas SPSS e comesa CTN SOS bo wes 7 MASTER KxxxS CNET P input output relay NN PW as word device input read only M auxiliary relay MW as word device L link relay LW as word device K keep relay KW as word device F special relay FW as word device read only TC timer contact CC counter contact GLOFA CNET GM Series CPU M internal memory Lo MW as word device Q output QW as word device l input IW as word device 14 LG PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male D sub fe male Name 7 so a 2 RD a aa 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 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male SHELL T pma ASS SO sole 2 pro 7 3 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 PLC D sub 25 pin male 14 LG PLC Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male A i pegea lt a CES 1 Pin No 1 of CN1 is used Use shielded twist pair cables as FG The metal shell of the modular
116. ance a ED Appendix 6 Universal Serial Communications App6 13 lt 4 wire system gt General purpose computer Signal V706 MJ2 es a Terminating resistance EA V706 MJ2 a Terminating resistance E rss Hss V706 MJ2 Name o U O Terminating resistance ON 8181318 NENA A App6 14 Appendix 6 Universal Serial Communications 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 System Setting Tool Window Cem Comm Parameter Edit Model Selection Unit Setting Font Setting Windows Font List Modular Function Switch Setting Buffering rea Setting Memory Card Setting CF Card Setting Printer Setting Video Setting Sound Setting Barcode Setting Link Setting Macro Setting Time Display Format SRAM Clock Setting 2 The Select PLC Type dialog comes up Select Universal Serial and click the OK button Select PLC Type MITSUBISHI VIGOR DELTA Baldor Adept MODBUS RTU Free Format MODBUS TCP IP Ethernet FL Net PROFIBUS DP Not connect PLC Display Multidink2 PLC Display All PLC Cancel Communication Parameter Make communication parameter settings 1 From the menu bar go to System Setting and click on Comm Parameter System Setting T
117. 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 Plug connectors or sockets of MONITOUCH in the correct orientation Otherwise it may cause a malfunction Do not use thinners for cleaning because they may discolor the MONITOUCH surface Use alcohol or benzine commercially available If a data receive error occurs when MONITOUCH and the counterpart PLC temperature controller etc are started at the same time read the manual for the counterpart unit and handle the error correctly Avoid discharging static electricity on the mounting panel of the MONITOUCH Static charges can damage the unit and cause malfunctions Otherwise malfunction may occur due to noise Avoid prolonged display of any fixed pattern Due to the characteristics of the liquid crystal display an afterimage may occur If a prolonged display of a fixed pattern is expected use the auto OFF function of the backlight Contents Preface Notes on Safe Use of MONITOUCH Before Connecting to PLC Io pep GORMCCIION am e CO ON 1 1 A ea tanpiasnamuladsecatanad sled tances E a a a ad iyasececcecs 1 5 Wiring 1T PEONES addict 1 8 V SFT Setting 1 1 Connection ooocccccnnnnnccccccnnononononccnnnnnnnnnnnnnnnnonononnnrononnnnnnonnnnnonnnnnnnnnnnnnnnnnnnos 1 10 Allen Bradley PLC Available PLCS a aa E i ERRER a 2 1 Com
118. are two connecting methods between the V7 series and the PLC A Connecting to the PLC through RS 232C or RS 485 interface B Connecting to the PLC on the Ethernet The contents of the system setting vary depending on the method selected Check the connecting method and make the setting on the V SFT editor A Connecting to the PLC through RS 232C or RS 485 interface 1 PLC type setting Select System Setting gt PLC Type and select the PLC to be used 2 Communication parameter setting Select System Setting gt Comm Parameter x Attach a check mark M to Use Ethernet Main 1 Detail 3 Select System Setting gt Network Table Baud Rate 132008PS Setting gt Ethernet gt The network table edit Signal Level AS232C C AS422 window is displayed Edit the network table ae po a For more information on network table editing refer to page App5 16 Vte Area D00080 tl Read Write Area GD 80 Compatible Calendar i Default Cancel Apply Appendix 5 Ethernet App5 13 B Connecting to the PLC on the Ethernet 1 PLC type setting Select System Setting gt PLC Type and select the PLC that shows xxxxx Ethernet XXXXX At present February 2004 the following PLC models are supported AJ71QE71 AJ71QE71 B5 QnA series Ethernet Q2A Q3A Q4A Q2ASx A1SJ71QE71 B2 MITSUBISHI A1SJ71QE71 B5 QnH ae series ae QnH Q mode QJ71E71 QJ71E71 B2 SYSMAC CS1 CJ1 Ethernet ao CS1 CJ1 CS
119. as FG The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name ot pea i PLC D sub 25 pin male 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 13 KOYO ELECTRONICS PLC Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male po sofa of rol as 4 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 Wiring Diagram 6 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame pot peu PLC High density D sub 15 pin male 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the A E V706 is used as SG I Ey EE E 13 KOYO ELECTRONICS PLC Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male pot eeu fps PLC D sub 25 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the i V706 is used as SG Ve Wiring Diagram 8 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ame e J PLC D sub 25 pin male 4 Pin No 1 of CN1 is used Use shielded twist pair cables SU 6M as FG Terminal block connectable The metal shell of the modular jack 2 on the V706 is used as SG
120. ca E A martin E E App5 6 TANIA Screen o App5 9 V SFT Setting PLC Type Communication Parameter ooooocccnccccccccccccccccnnnnnnonononononnnnnnnnnnnnnos App5 12 V SFT Setting Network Table Eqitin vic tienaledisdsqesedsueccnevadassasancueseddeveanvexssadtelagsseues towns App5 16 VSF T SENO Macio atte NN E OO E AA App5 21 System Memo Aopen E A App5 24 Ethernet Access Functions HKEtn10 DLL oooocccccocooococcnnnccconocicnnnnncnnnanononnonnoncconnnnos App5 28 Server Communication Procedure ooocccccnnnnnncccccnnoonoooooocononononononnnononononnnnnnnnnnnononnnnnnnnnnnnnnnnnoos App5 41 A ecee EE c Onan tes tensa ead is ace e ta rue scanners s App5 42 Universal Serial Communications RR sel e eer r e E R S E Snare TEEGA App6 1 SAS aa e a A Aa ule App6 14 Standard Type PROTOCOL atesreruan rar d ooo cid staannatet leu OSS a Sangagec Adnan App6 21 lebyte Character CodeLists sson ienr T a E E E OEEO App6 43 Memon MAD eo o a AAA AO App6 44 Appendix 7 V Link VENK AA o tanec e arene A App7 1 A A A E A Ty TaRCee G Semen ener Cg cca tte A nee App7 2 WES FT ad yl OP A lose a Ere a EEEE Eeen App7 4 oil AP O E 5 App7 5 NAK TEMO ad 0 0 eee bd ooo AnOrO App7 9 1 byte Character Code List Connection Compatibility List 1 Before Connecting to PLC 1 1 1 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 t
121. check Execute 4 Wire Control 1 n connection is not available e Wiring Perform wiring as shown below lt 2 wire system gt When TC485 is used General purpose V TC485 SW Lower V TC485 SW Lower V TC485 SW Lower computer Signal Signal Signal Name Name Name 7 R os y ES Terminating resistance Terminating resistance Terminating resistance ON OFF OFF Use twist shielded cables oe When TC485 is not used Install jumpers between RD SD and RD SD lt 4 wire system gt General purpose V TC485 SW Upper V TC485 SW Upper V TC485 SW Upper computer Name Name FO E SD SD SG Terminating resistance Terminating resistance Terminating resistance ON OFF OFF Use twist shielded cables e Twist shielded Cables Use twist shielded cables provided by the following manufacturers CO SPEV SB A 3P x 3SQ SPEV SB MPC 3P x 3SQ App6 10 Appendix 6 Universal Serial Communications MJ2 V706 only Specifications as an RS 232C Connector To use an MJ2 on a V706 as an RS 232C connector set the slide switch on the V706 to Z CAUTION the upper position RS 232C For details refer to the separate V706 Hardware Specifications The pins of modular jack 2 correspond to signals as given below pe SG Signal ground RS 232C receive data The specifications for the RS 232C connector that links to the communication device are shown below Signal
122. comm pra Read comments in data transfer a All date tassis MODEM Transfer reo ree reo Info Up date of System e Detail Setting IP address Setting Host name IF address 1003 ox Cancel Reference x Host 7 Ke Eos k ES 7 68 1 68 os i SE 68 1 66 IP address 192 168 1 68 i OK Cancel Reference Appendix 5 Ethernet App5 11 5 Check the IP address and click PC gt x m Transfer Device Transfer Data Display Memory Screen Data C F Driver c P Use Simulator Pres rc C Font Data Read comments in data transfer C Temp PLC2 7 All data transfer Eon ES Transfer through Ethernet C IP address for transfer target vireo 168 1 60 SRAM Data C Station No Table C Ladder comm pra MODEM Transfer PC lt PC lt gt Info Up date of System 6 Data transfer is started 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 e PLC type setting e Communication parameter setting e Network table editing In this section the PLC type setting and communication parameter setting are explained Connection Example Server Ethernet l Ethernet ready PLC Ai y A _RS 232C RS 485 There
123. csasuncalssscnnen ddddcesoodieanadcucmerbtecepbonbesebsaatecdcccementsannasaaet enee 15 2 Available MEMO E cosh nta at sananehaals Wot sie cee Warren Jai ea EEN 15 2 A A sence T EA 15 3 MITSUBISHI ELECTRIC PLC A e 16 1 COMMUNICALON SUN or Aa yey 16 3 A Series Link QnA Series Link Switch Setting oooocccccnnnonccccccnnnoonononcconnnnnnnnnnnonononnnnnnnnnnnos 16 5 Available a ee ee 16 6 5 AY Ua A ANC TORT ene On tr 16 8 A ancaiceccatiiimavianctt pagans named le tseedga6s a eree EEEE aaa E TENEO 16 13 V MDD Dual Port Interact AA 16 15 Er E A 16 15 MODICON PLC E RAAE coat Sale Cachan soma ues ceceeaen el ASA nnn arcane soc Sites 17 1 COMMUNICATION SE o AA E OE AN E A 17 1 AValable MEMON A A AA AI dci 17 1 A E ns o RS 17 2 MOELLER PLC A A 18 1 COMMUNICATION SUN aceite 18 1 EE O T LANA ALS te 18 1 A A A A etree aeraeC eee o a 18 2 OMRON PLC A OT 19 1 COMMUNES UNar dentine essnossotuiaounncesnsneanns 19 2 Available ME ane Ae cca tse Macaansass Ath ass soaeee si saan sdua leaned acc dd duliuls sch 19 3 WIRING E AC O aa a aa a eee 19 4 SYSMAC CS1 CJ1 DNA dano AEEA E E EE EEEE dade Rasen EEE EESE 19 8 20 21 22 23 24 25 26 27 28 29 30 SAIA PLC A o e E E E E a e D 20 1 C mmu nicaton Setting e ds 20 1 S BUS Configuratio Me pan eee aaae erai A RA ERa 20 1 Available MEMORY saeta E E T Aa T e Ee aa AE Ea 20 1 A A A ET 20 2 SAMSUNG PLC A Anna ea sss ouunus se casnces ANU 21 1
124. ct FLEX PC T 2 To use FLEX PC CPU of Toyota version select FLEX PC CPU T 3 For connection to MJ2 of a V706 use an MJ2 PLC adaptor plus FU CPUNS Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows MICREX F Series SPB N Mode amp FLEX PC Series CO E O S 1 asynchronous non protocol by RS 232C Transmission RS220 command fixed mode RS 422 3 asynchronous non protocol by command fixed code Stop bit bit receiver SPB N Mode amp FLEX PC CPU Port Connect to the CPU port Communication parameters for the V7 series are automatically set 8 2 8 Fuji Electric PLC FLEX PC COM T NJ Computer Link Toyota Version Setting on PLC V7 Comm Parameter Setting Port Oo o S MICREX F Series SPB N Mode amp FLEX PC Series Switch Setting MODE switch RS 232C 1 RS 485 3 RS 485 Port Setting SW 0 for both x10 x1 RS 485 terminating resistance ON Character switches w J sew tes e on mese oN we Ce on e Co pe Co CN Same as that set on V7 normally 19200 bps 8 Fuji Electric PLC 8 3 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 MICREX F Series M emaye MIN ae CONTI o a eee TR timer current value W9 timer current value 0 1
125. ct PLC Type dialog Communication Parameter Setting e Setting Procedure System Setting gt Comm Parameter gt Comm Parameter dialog e Setting ltems Connection Select Multi Link Click Setting The Multi Link dialog is displayed Make the necessary settings Local Port 1 to 31 Set the port number of the V7 series Set the unique port number for each V7 series If the number duplicates communications will not be performed correctly Send Delay Time 0 to 255 Unit x1 msec PLC Set a time delay in sending the response to the PLC after receipt of data from the PLC MONITOUCH ls Default setting 20 msec Send delay Total 2 to 31 Ane Set the total number of the V7 series included in the connection Retry Cycle x 10 When the V7 series has a problem it is temporarily removed from the communication targets and the master station sends an inquiry for restoration every number of cycles specified for Retry Cycle This setting does not affect the communication speed if no problem is occurring however if there is any problem it does affect the communication speed e When the setting value is small It will not take a long time before restoration e When the setting value is large It will take a longer time before restoration Supplemental Information Retrials in the Detail tab window of the Comm Parameter dialog is the number of retrials that the V7 series sends an inquiry to the PLC
126. d no 2 Data in the read area n 2 remains the same even Screen No 2 if the actual screen has been switched internally v0 0 To show screen No 5 again using an external screen command set 0 1 to bit 14 of read area n 1 no o Screen forced switching bit 14 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 D000 AAA poo1 oJ1Fo oToToToTofoToJoTofoTofoTo D002 O O 0 Screen No 0 Je Screen No 5 Jrz 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 Refer to the GD 80 User s Manual CFMDAT Same as data in read area n SCRN_No Displayed screen number e CFMDAT n AS a ES LAA E Free BZO BZ1 System reserved setting 0 Calendar setting System reserved setting 0 e SCRN_COM n 1 Screen status ESO i Eat CA ESCOEo E AL AL Aa Overlap 1 Overlap 0 Overlap 2 System reserved setting 0 Serial extension I O Global macro execution Printer busy Print data transferring Backlight System reserved setting 0 Screen internal switching Screen forced switching Data read refresh e SCRN_No n 2 Displayed screen number O RO AA ALA LALA COCA Screen number System rese
127. d e V7 master station To be installed by the user V7 slave station V7 slave station V7 slave station MJ1 2 Terminal block CN1 TC485 CN1 TC485 CN1 TC485 Signal Signal ae Terminating resistance Terminating resistance Terminating resistance Terminating resistance OFF For V706 For V706 DU 01 refer to For V7 Series above PLC Communications between V706 RS 485 2 wire maximum length 500 m 3 a b d e c c 0 MJ2 MJ1 2 2 2 V706 master station V706 slave station V706 slave station V706 slave station Local Port 1 Local Port 2 Local Port 3 Local Port 4 0 5 m recommended 1 0 m maximum 2 Set the slide switches on the V706 slave stations to the lower position RS 422 3 Use twisted pair cables of 0 3 mm sq or greater between terminal blocks a Connection between PLC lt gt V706 master station MJ2 The communication parameter setting and connecting method are the same as those for 1 1 connection Refer to Chapter 2 to Chapter 33 b Connection between V706 master station MJ1 lt V706 slave station MJ2 The connecting port of the V706 master station should be MJ1 Select Modular Jack from the System Setting menu Select Multi Link for Modular Jack 1 The multi link 2 master cable b V6 MLT is 3 m long From the M706 master station the V6 MLT cable is connected to the terminal block From the terminal block cables are r
128. d the V7 series are as follows Setting on PLC V7 Comm Parameter Setting Baud rate 9600 bps 9600 bps Available Memory Connection 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 MW memory word KW Constant wo AA M bit memory 26 Telemecanique PLC Wiring Wiring diagram with the PLC is shown below RS 485 Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male EE potato tt NE ro e as 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC MiniDIN 9 pin male Use shielded twist pair cables 27 TOSHIBA PLC 27 TOSHIBA PLC Available PLCs 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 Transmission e PLC Transmission Parameter Setting When setting parameters on the PLC use the T series programmer and enter the following data for system information 7 COMPUTER LINK Station number 1 Baud rate 19200 bps Parity Odd Data length 8 bits Stop bit 1 bit EX Series Setting on PLC V7 Comm Parameter Setting Parity CI gt Transmission Data length B Communication selector
129. ddr 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 e Parameters FileNo File number RecordNo Record number addr Top memory address to be written BitNo Bit number to be accessed OnFlag 0 OFF 1 ON lpAddr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Others Functions Initialization Function int HKEtn_Init unsigned short Port 10000 int Retry 3 int RecvTime 2 int RecvTime2 10 Creates a socket e Parameters Port Set 10000 or above Retry Number of send retrials RecvTime Receive timeout RecvTime2 Receive timeout 2 2 1 When HKEtn_Recvfrom is used the time for Recv Time is used for timeout judgment 2 When HKEtn_Readxxx or HKEtn_Writexxx is used both the times for RecvTime and RecvTime2 are used for timeout judgment Total time for timeout RecvTime x RecvTime2 x Retry seconds e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Appendix 5 Ethernet Receive Wait from V7 int HKEtn_Recvfrom BYTE dp short IpCnt 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 th
130. ditor on the server to MONITOUCH via Ethernet For the procedure using the V6 CP cable refer to the Reference Manual Operation Prerequisites When screen data is to be transferred for the first time via Ethernet or when the V7 series has been replaced due to trouble the server cannot transfer screen data because the network table has not been transferred to the V7 series In this case the following setting must be made on the Main Menu screen IP address Default gateway Subnet mask The port number must be 10000 When the network table is transferred from the V SFT editor the above data is updated e Setting Procedure 1 Press the Ethernet switch on the Main Menu screen 2 The Ethernet screen is displayed For more information refer to Chapter 6 MONITOUCH Operations in the V7 Hardware Specifications Manual or V706 Hardware Specifications Manual Set the IP address If necessary set the default gateway and subnet mask When attaching the I F unit CU 03 2 to V7 set the connecting method 10BASE T AUI as well 3 When the setting has been completed press the Setting Finished switch The Main Menu screen is displayed again 4 The setting data can be reviewed on the Main Menu screen V710iTD 2002 4 1 07 23 30 System Information FONT VF DRV VER 1 310 SYSTEM PROG VER 1 010 VER 1 300 1 000 1 000 YOKOGAWA FA M3 ENGLISH Ethernet Error Stol Ethernet Information Trans Speed 10BA
131. dix 5 Ethernet App5 21 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 FO memory F2 designates the number of words to be read Usable Devices Internal PLC Memory Indirect Double EREAD Read into memory EREAD FO F1 C F2 F3 Example Macro command at the V7 A The macro command for V7 A to read data from PLC B and transfer it to PLC A is shown below Description EREAD D200 D100 C 2 B Top memory address Address of the source of the target Network table number Top memory address The number of words of the source to be transferred Contents Two words starting from D100 in PLC B are read into D200 in PLC A Ethernet lt V7 B gt App5 22 Appendix 5 Ethernet EWRITE Words from the F2 memory are written into the FO 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 PLC Memory Indirect Double ol o op o yo EWRITE Write to memory EWRITE FO F1 F2 C F3 Example Macro command at the V7 A The macro command for V7 A to write data in V7 A to PLC B is shown below Description EWRITE D1
132. djust to the settings of the network you are using Switch Setting Content ontents A a ab SW6 Asynchronous link communication speed Adjust to the settings of the V7 series Contents 9600 bps Execution of diagnosis command A Ca ea 4 N 2 Allen Bradley PLC 2 5 SW7 Network link selection Switch Setting Contents o o Peer transmission link SW8 RS 232C RS 422 selection Switch Setting ener 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 Driver DF1 Full Duplex Baud 19200 Parity EVEN Control Line No Handshaking Error Detection BCC Embedded Responses Auto Detect ACK Timeout x20 ms 20 NAK Retries oa ENQ Retries oo Duplicate Packet Detect ON 1747 KE Set up the parameters for 1747 KE using the software specifically designed for this purpose DF1 Port Setup Menu Baudrate 19200 Bits Per Character 8 Parity Even Stop Bits 1 DF1 Full Duplex Setup Parameters Duplicate Packet Detection Enabled Checksum BCC Constant Carrier Detect Disabled Message Timeout 400 Hardware Handshaking Disabled Embedded Response Detect Auto Detect ACK Timeout x5 ms 90 ENQuiry Retries qe NAK Received Retries 3 2 6 2 Allen Bradley PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1
133. dure of the memory card editor is 1023NE described V SFT Additional Specifications Additional specifications for the Reference Manual are 5044NE explained Ladder Monitor Specifications Instructions for the ladder monitor function are 1045NE contained For further details about PLCs programmable logic controllers see the manual attached to each PLC Notes This manual may not in whole or in part be printed or reproduced without the prior written consent of Hakko Electronics Co Ltd The information in this manual is subject to change without prior notice Windows and Excel are registered trademarks of Microsoft Corporation in the United States and other countries All other company names or product names are trademarks or registered trademarks of their respective holders This manual is intended to give accurate information about MONITOUCH hardware If you have any questions please contact your local distributor 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 serious injury lt gt DANGER A CAUTION Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury and could cause property damage Note that there is a possibility that the item listed with A
134. e Outline of Communication V series internal V series user memory Screen No 0 General purpose computer Dedicated commands lt gt Read Write 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 When a screen is changed internally by a switch etc the changed screen number is read and written in the memory specified for the screen App6 2 Appendix 6 Universal Serial Communications Differences between Connecting to a General purpose Computer and Connecting to the PLC e Input format code The input format used for screen number block number message number etc is fixed in DEC e 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 swo swi Reserved 7 words Appendix 6 Universal Serial Communications App6 3 Memory settings for lamp data display etc are required during screen creation and the memory addresses are mapped as shown below The memory addresses are u0 to 16383
135. e When connecting the shielded cable to the V7 series side connect it to pin 1 of the connector or the connector case cover 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 e Twisted pairs of 0 3 mm sq or above are recommended V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male To the PLC s RS 232C port Shield e pene SN a an Receive data Send data 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG e f noise disturbs communications use twisted pairs between SD SG and RD SG V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Shield To the PLC s RS 232C port Receive data SG SG Send data 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 1 Before Connecting to PLC 1 9 RS 422 485 Connection e Connect twisted pairs between SD SD and RD RD e If the PLC has the terminal for signal ground SG be sure to connect a wire e Connect the shielded cable either to the V7 series or PLC side This connection diagram shows the case where the shielded cable is connected on the V7 series side When connecting the shielded cable to the V7 series side connect it to pin 1 of the connector or the connector case cover The metal shell of the modular jack 2 on the V706 is used as SG signal ground Connect
136. e Temp Control Network PLC2Way Communication Temp Control PLC2Way Comm Setting xj V Use Temp Control Network PLC2Way Communication Refer to modular Maker MITSUBISHI Qn series link i Baud Rate 19200BPS Parity Even he Appendix 1 PLC2Way App1 7 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 Temp Control PLC2Wa Cor x MV Use Temp Control Network PLC2Way Communication Refer to modular Modular ade et Makar m Modular Jack 1 Modular Jack 2 Editor port Notused EE gy Memory Card Memory Card Barcode C Barcode C 4 0 C V0 C Temp PLC2Way C Temp PLC2Way Retrials Touch Switch Touch Switch Time Dut Modbus Slave C Modbus Slave C pi Cop gt Send Dele Printer Serial Port Printer Serial Port Return Tir Cancel Default OK Cancel 4 Select the PLC model to be connected at the MJ port MITSUBISHI Maker A series link Aa On series link QnH Q series link OMRON SHARP YOKOGAWA FUJI Retrials Time Out Tir PLC 2Way Send Delay emperature control Return Time Cancel Default OK Cancel Click the Setting button The Type Setting dialog is displayed Select PLC2Way The PLC manufacturer names
137. e V7 series and those stored in the system memory are explained Communication Errors The Ethernet status is stored in system memory address s518 of the V7 series during Ethernet communications The communication error occurs when a code other than 0 normal is stored in system memory address s518 e Inthe RUN mode When Continue is selected for Comm Err Handling in the Detail tab window of the Comm Parameter dialog a following screen is displayed Communication Error Etherne Erro1 XXXX Screen No Received Code No Communication Error Ethernet Error XXXX 00 The error number is displayed here e To check the occurrence of an error on the Main Menu screen aes 2002 4 1 07 23 30 Pearce Information META DRV VER 1 310 Screen Data Ethernet Infor mation an C ime at 1 05 Trans Speed 10BASE T Stat No 192 168 1 68 PORT 10000 Ethernet Information Trans Speed 10BASE T Stat 192 nes 1 68 PORT 000 MAC 0050FF000035 The error number is displayed here O Test POWER Appendix 5 Ethernet App5 43 e System memory s518 Contents Solution Normal Failed in send request Check cable connection and network table setting of the target station Check that the setting on the target station is consistent with the network table setting Internal port error A a unit is in the older
138. e from Ethernet I F unit 1004 Ethernet receive buffer over 1005 Ethernet send registration error Check whether the Ethernet I F unit is mounted correctly and then turn the power off and on 1006 I F unit unregistered interrupt If the problem persists contact your local distributor 1100 to 1115 Initialization error Communication unit 1120 Dual port access error 1200 Undefined register 1201 Send receive buffer area over 1202 MAC address error Lee Check whether the Ethernet I F unit is mounted 1301 Watch dog overflow correctly and then turn the power off and on 1302 JAVA error LANC error If the problem persists contact your local distributor 2 07 350 351 352 801 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 e System memory address s515 response to the request 0 Nema Refer to Communication Errors The number of words being sent Check the number of words that can be sent in exceeds the limit macro editing Specified table not used Check the setting on the network table Cannot use the send command Check the macro command in macro editing E AS Check that system memory address s514 is set If Specie table pein Heed not reduce the frequency of communications Appendix 6 Universal Serial Communications App6 1 Appendix 6 Universal Serial Communications Interfac
139. e macro execution will be delayed Fig a To avoid this periodical reading can be suspended using memory address s762 Fig b Fig a TEMP_READ TEMP_WRITE TEMP_CTL MOV BMOV BSET BCLR BINV When the PLC2 memory is used for the above command Um Execution of macro a Execution of macro a V7 communication cycle A EE E AM re ME Temperature control network PLC2Way table periodical reading TEMP_CTL u100 2 TEMP_CTL u100 2 Temperature control TEMP_CTL u110 2 TEMP_CTL u110 27 network PLC2Wa a y table TEMP_CTL u120 2 TEMP_CTL u120 K periodical reading TEMP_CTL u300 2 TEMP_CTL u300 2 Fig b Execution of macro b Execution of macro b V7 communication cycle Temperature control network PLC2Way table periodical reading s762 1 s762 1 TEMP_CTL u100 2 TEMP_CTL u100 2 TEMP_CTL u110 2 TEMP_CTL u110 2 TEMP_CTL u120 2 TEMP_CTL u120 2 TEMP_CTL u300 2 TEMP_CTL u300 2 s762 0 s762 0 e s763 Forced execution of macro commands TEMP_READ and TEMP_WRITE using the temperature control network PLC2Way table O When any station that has failed is included in the specified table the macro command is not executed Other than 0 The macro command is forcibly executed to the stations that are working properly Appendix 2 n 1 Connection Multi link 2 App2 1 Appendix 2 n 1 Connection Multi link 2 Multi link 2 e One PLC is connected to
140. e received data and create the next action This function must be executed within the thread e Parameters dp Top pointer of receive buffer Allocate 5000 bytes IpCnt Returns the number of bytes received e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Cancel Receive Wait Function void HKEtn_Cancel void Cancels the function in the receive wait status such as Recvfrom Request Connection Information int HKEtn_GetIinf struct inf Ipinf char IpAddr e Parameters Ipinf All 0 IpAdadr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Close Processing int HKEtn_Close Execute this function when ending HKEtn10 dll Get Source s IP Address int HKEtn_GetSinAddr char lpAddr Execute this function after the recvfrom function or receiving the data App5 40 Appendix 5 Ethernet Get Error Contents int HKEtn_GetLastError e Error codes and solutions 1 Check the command 2 Check the IP address 3 Reduce the frequency of communications 4 Check response processing at the target station Packet bytes exceed the maximum Reduce the send packet size number Check that the target station is in the RUN mode Preparing for communications id when the target station is Check the target station Check the memory space
141. ea and perform sampling of data in the PLC memory that is connected at the MJ port 3 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 according to the temperature control network PLC2Way table Temperature Control Network PLC2Way Table 1 Starting Click System Setting gt Temp CTRL PLC2Way Setting gt Temp CTRL PLC2Way Network Table Temp CTRL PLC2Way Network Table becomes active only when the setting in the Temp Control PLC2way Comm Setting dialog has been completed as described in the previous section System Setting Tool Window PLC Type Comm Parameter Edit Model Selection Unit Setting Font Setting Modular Function Switch Setting Buffering rea Setting Memory Card Setting CF Card Setting Printer Setting Video Setting Sound Setting Barcode Setting Set the temperature control network PLC2Way table iria number 0 to 31 and click OK Time Display Format SRAM Clock Setting E Attribute Table Temp Control Network x MR400 Format Table Modbus Slave Communication Setting gt Ho li Temp CTRL PLC2Way Setting Y Temp CTRL PLC2Way Comm Setting E Temp CTRL PLC2Way Network Table Network Table Setting gt ap Station Number Table Setting Cancel The Temp Network PLC2Way Table Edit window is opened ll Temp Network PLC2Way Table
142. ecial memory special relay 11 SMW as word device S stage SW as word device S7 300 400MPI B Data Word Use memory address DB1 and later input IW as word device Marker Word T timer current value C counter current value The assigned memory is indicated when editing the screen as Example DB0001 0000 shown on the right MW as word device onl output QW as word device Address Colon Block number 24 Siemens PLC T1500 505 TI500 505 V4 TPE CA a C ECTS SSCS w w e SSS E MEJO PSS v wwe e SSS CR control relay TCP timer counter set value TCC timer counter current time DCP drum count set value DCC drum count current value 9 Readony DSC drum step current value EF SS i K thedmemoyy e o ooy sw wsm e 14 In case of using DCP drum count set value set drum step Example DCP03000 1 No 1 to 16 The assigned memory is indicated when editing the screen if as as shown on the right ae p Address Notes on V4 or GD 80 data conversion e When converting data of V4 or GD 80 into the V7 data TI500 505 V4 is automatically selected for the PLC type e With V4 or GD 80 the order of words is reversed in the case of double words Please take note of this For V4 or GD 80 For V7 MSB LSB MSB LSB poo 1 word l 1 word _J A 1 2 words E a 2 words 24 Siemens PLC Wiring Wiring diagrams with the PLC are shown below
143. ection 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 When the PLC2Way function is used connection at the MJ port is possible via RS 232C or RS 485 2 wire connection With RS 232C one PLC can be connected with RS 485 a maximum of 31 PLCs can be connected RS 232C RS 422 RS 485 0000000 PLCn n 1 to 31 Constant reading sampling of PLC data connected to the PLC2Way When read write memory addresses are preset on the temperature control network PLC2Way table background data transfering is performed at regular intervals It is also possible to save the read data in the V7 internal buffer SRAM or CF card Data transfer between PLCs The PLC memory data can be transferred to another PLC in blocks using a macro command For the description of 1 1 connection refer to Chapter 1 Hereunder the PLC connection at the MJ port and settings required for PLC2Way connection are described Limitations on Connection at PLC2Way There are some limitations on the connection at the MJ port 1 It is not possible to make a selection for code and text processing in the communication parameter setting Code Fixed to DEC or BCD appropriate for the PLC Text processing Fixed to LSB gt MSB Even if a communication error occurs it is not possible to stop communications Error codes are stored in s730 to 761 for eac
144. elnternalMemory WORD sp unsigned short Word Wordcnt int Device Type DWORD adadr char IpAdar int DFlag 1 Memory card memory int HKEtn_WriteCardMemory WORD sp unsigned short Wordcnt int Word FileNo int RecordNo DWORD addr char IpAdar int DFlag 1 Page App5 37 PLC memory int HKEtn_WritePlIcBitMemory int Device Type DWORD addr int Bit BitNo int OnFlag char IpAddr Internal memory int HKEtn_WritelnternalBitMemory int DeviceType DWORD adar int Bit BitNo int OnFlag char IpAddr Page App5 38 Memory card memory int HKEtn_WriteCardBitMemory int FileNo int RecordNo DWORD Bit addr int BitNo int OnFlag char IpAddr e Others ere f int HKEtn_Init unsigned short Port 10000 int Retry 3 int IIS HON RecvTime 2 int RecvTime2 10 Page App5 38 Receive wait from V7 int HKEtn_Recvfrom BYTE dp short IpCnt Cancel receive wait l void HKEtn_Cancel void Request eonnecron int HKEtn_GetInf struct inf Ipinf char lpAddr information Page App5 39 Close processing int HKEtn_Close Get source s IP address int HKEtn_GetSinAddr char IpAddr Get error contents int HKEtn_GetLastError Page App5 40 Appendix 5 Ethernet App5 31 Read Read Words from PLC Memory int HKEtn_ReadPlcMemory WORD dp unsigned short Wordcnt int DeviceType DWORD addr char IpAddr int DFlag 1 This function is retained until PLC data is transferred from the V7 series e Parameters dp Target pointer of the data to be read Wordcnt Word co
145. en Data Transfer On line editing between the V SFT editor and the V7 series is not possible If attempted communications between the PLC programming software and the PLC will not be performed correctly e With Ladder Tool selected for Modular Jack 2 MJ1 will be Editor Port when the Main Menu screen is displayed on the V7 series and communications with the V SFT editor become possible e With Ladder Tool selected for Modular Jack 1 even when the Main Menu screen is displayed on the V7 series communications with the V SFT editor are not avaliable There are two methods for enabling communications with the V SFT editor With the V609E employ the method for automatically enabling communications with V SFT At this time check the system program version and update it if the version is old before transferring the screen data Enabling V SFT communications automatically adapted to V SFT editor version 2 0 9 0 or later V7 system program version 1 080 or later and V6 system program version 1 570 or later To enable communications with the V SFT editor automatically when the Main Menu screen is displayed make the following settings on V SFT From the System Setting menu select Unit Setting and open the Environment Setting tab window In the window check Ladder Communication Is Not Used in Local Mode Touch Switch DIOMem Overlap EMail Memory Expansion Backlight Buzzer System Mode Switch Blink
146. en OUT_ENQ in a macro command is run e 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 To use an interrupt it is necessary to enable interrupt code detection when a response is received on the host program Host side command V series side Interrupt occurrence Interrupt data Response e Interrupt code When a regular switch is pressed When the ENTER switch on the keypad is pressed When a screen internal switching occurs In the case of macro command user setting App6 26 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 Protocol o ID o JETS Transmission data L TIU El PatA JE PatB X M HL Transmission i Transmission D ission E S 7 Ll y sequence data When V series data is L TJU M HL TOZ 30 00 a5w3300 T read from the host side El PatA JE PatB X 253183300 o 1D o JETS Transmission Transmission data L data T U El PatA JE ParttB X M HL Transmission sequence I F When the host writes data on the V series OZ 50 00 I Appendix 6 Universal Serial Communications App6 27 Connectio
147. er to page App6 23 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 E SOS N Screen No SWO SW1 ENTO ENT1 V series side Q WORD WORD WORD WORD WORD EEE nan When the ENTER switch on the keypad is pressed When the ENTER switch on the keypad is pressed E V series side N 01 Screen No SWO SW1 ENTO Q WORD WORD WORD WORD ENTO0 1 2 is the same as system memory area n 5 n 6 n 7 When a screen internal switching occurs Y E V series side N 02 ScreenNo SWO SW ENTO ENT Q WORD WORD WORD WORD WORD Appendix 6 Universal Serial Communications App6 39 It is possible to use a macro command to initiate an interrupt There are two ways to use a macro command to transmit data You can either convert the data into HEX code and transmit it or you can transmit the data just as it is without converting it Use the macro command OUT_ENQ For details refer to Chapter 13 in the Reference Manual Function Transmission Number of Word data memory transmission address words WORD WORD E Word transmission Interrupt code 10H to 2FH Character transmission V series side Transmissio Number of Word data memory transmission address characters WORD WORD o Character transmission Interrupt code 10H to 2FH App6 40 Appendix 6 Universal S
148. ere is an attachment 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 o D o JETS Transmission data L TIU Parta JE PatB X M HL Transmission sequence xao O 4 Oo Z asv3300 2583300 EST When V series data is read from the host side Transmission Transmission data data El PartA E PatB X 25013300 I Transmission sequence C When the host writes data on the V series K or Appendix 6 Universal Serial Communications App6 23 lt Interrupt Processing See page App6 38 and page App6 39 gt e Interrupt conditions An interrupt code is sent to the host for the following actions When the switch status changes from ON to OFF or from OFF to ON When the ENTER switch on the keypad changes from OFF to ON If _ Use the Write Flag in System Setting is checked write enable bit must be set in order to send interruption When the screen changes by using an internal switch When OUT_ENQ in a macro command is run e 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 To use an interrupt it is necessary to enable interrupt code detection when a response is received on the host program Hos
149. erial Communications Switch Output See page App6 16 page App6 23 and page App6 38 When Output Action of a switch is set to Momentary and Output Memory is set in location s80 95 of system memory the following actions occur when the switch is pressed When the bit memory specified in system memory is set and the switch is released it is reset 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 e V series analog type Normally only one switch can be pressed Fixed to 1 output However if you go from the menu bar to System Setting to Function Switch Setting or if you go from the menu bar to Edit to Local Function Switch Setting and check Use Function Switch it is possible to press two points 2 outputs at the same time For 1 output Use Function Switch is not checked the switch number and switch information are written in n 3 For 2 outputs Use Function Switch is checked the switch number and switch information are written in n 3 and n 4 when two points are pressed Function Switch Setting E 3 xj Fl r2 r3 ra rs re r7 MV Use Function Switch Function None Change Action Momentary y M Output Memory u00100 00 pte Use ON Macro ON Macro Edit Use OFF Macro OFF MscoEdt Interlock e V series matrix type When yo
150. eries V SFT PLC Programming Software Writing to V7 Communications disconnected normal communications on completion of writing 3 PLC programming software communication setting For communication specifications between the PLC programming software and the PLC the communication parameter settings for the V7 series and the PLC can be used Select Comm Parameter from the System Setting menu and check the settings in the Comm Parameter dialog e Baud rate setting There will be no problem if the setting for Baud Rate in the Comm Parameter dialog of the V SFT editor is not consistent with the baud rate setting on the PLC programming software The baud rate set on the PLC programming software is automatically selected when communications monitoring etc are performed When the V7 series is turned off and back on the setting for Baud Rate in the Comm Parameter dialog becomes valid again Making the above baud rates the same will improve performance 4 Transferring the ladder communication program When transferring screen data the ladder communication program is also transferred To transfer the ladder communication program only follow the procedure described below 1 Select Ladder com prg in the Transfer dialog and click PC gt 2 The dialog box below is displayed Select the ladder communication program that corresponds to the PLC model see page 16 15 and click the Open button Program transfer to the
151. es Appendix 6 Universal Serial Communications App6 7 e Interface connector Use the following types of RS 232C cable connectors D sub 25 pin connector male DDK type 17JE23250 02 D8A or equivalent e Twist shielded cables Use twist shielded cables provided by the following manufacturers Hitachi Cable CO SPEV SB A 3P x 3SQ Mitsubishi Cable SPEV SB MPC 3P x 3SQ CN1 RS 422 Connector Specifications The specifications for the RS 422 connector that links to the communication device are shown below C a reme w e Contact arrangement of the pin insert e Wiring Perform wiring as shown below lt 4 wire system gt General purpose V series CN1 computer Signal Name Use twist shielded cables Appendix 6 Universal Serial Communications lt 2 wire system gt General purpose V series CN1 computer Name 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 lt Executing Flow Control gt TC485 can not be used V series CN1 laa Signal Signal Use twist shielded cables e Twist shielded cables Use twist shielded cables provided by the following manufacturers Appendix 6 Universal Serial Communications App6 9 1 n Connection When you go to Comm Parameters under the System Setting to Main2 and
152. es as FG The metal shell of the modular jack 2 on the V706 is used as SG 3 4 3 Automationdirect PLC Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal Name 4 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 RS 422 Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male aaa RENREN EJES 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 isusedasSG saa PLC D sub 25 pin male 3 Automationdirect PLC 3 5 Wiring Diagram 6 1 Pin No 1 of CN1 is used Use shielded twist pair cables V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal Joa y lt gt LT TXD3 1 sao gt mol r a gt Profs a H In case SU 6M it is possible to use terminal blocks PLC D sub 25 pin male as FG The metal shell of the modular jack 2 on the V706 is used as SG 3 Automationdirect PLC MEMO Please use this page freely 4 Baldor PLC 4 1 4 Baldor PLC Available PLCs NextMove Comms Data Array 7 l 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 A E Available Memory The available memory setting range
153. es MJ2 CN1 RJ 45 8 pin D sub 25 pin male EES 1 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 25 pin male U Wiring Diagram 7 V Series CN1 D sub 25 pin male PLC Signal i Name Pin No D sub 25 pin male QOJ T I I WD 31414 N Injo 3 F d Ulan Use shielded twist pair cables 16 MITSUBISHI ELECTRIC PLC According to our noise tests the attachment of a ferrite core improves noise voltage by 650 to 900 V and aids in preventing communication errors e When connecting to the A QnA series CPU directly attach a ferrite core to the communication cable between the V7 series and A QnA series CPU to avoid noise problems Ferrite core gt A QnA series V7 series CPU Ferrite cores are optionally available When ordering the ferrite core state GD FC ID 8 mm OD 20 mm 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 MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name ot pen y oo 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG Use shielded twist pair cables 16 MITSUBISHI ELECTRIC PLC 16 13 A Link Net10 e When the V7 series is connected to the standard type link unit on
154. ess 0101 0065H GH Address 0102 0066H IJ Address 0103 0067H KL TIWCIL O 064 000 8 EF GHIJK LITI8 5 X E Host side 0241 574434 1104 304 304 364 34 304 304 30438 454 46n 474 484 494 4An 4Bn 4Cu 03H 3835 V series side gt App6 34 Appendix 6 Universal Serial Communications Write Memory Command Note Due to the fact that communication speed is increased when you use the write CHR command to write characters it is recommended that you use this command e Write memory command Write Sa command A A d d d Memory D d Memory EJS data l data e e Ss s Host side s s WORD WORD WORD WORD V series side ec data Host side There should be no more than 5 DLEs Address Address of the memory to be written HEX ASCII Count Data memory contents to be written HEX ASCII 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 Address 0102 0066H a 4A49 H Address 0103 0067H KL 4C4B H TIWMIL I0 0641000 4 F 46H Host side 102 5714Du 10H 304 30H 36H 34 304 304 304 34u 34u 361 341 35H 34u 38H 34n 37H 34n 41H 34u 39H 34n 43H 34H 42H 03H 43 304 A V series side O Appendix 6 Universal Serial Communications App6 35 Retry Command Use this command when a write command w
155. eters DeviceType Address of the device to be written Refer to Chapter 2 to Chapter 33 addr Top memory address to be written For YOKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 399 D25 24 BitNo Bit number to be accessed Example 1 When accessing to D20 05 of MITSUBISHI PLC DeviceType 0 addr 20 BitNo 5 Example 2 When accessing to M20 of MITSUBISHI PLC 20 16 1 4 DeviceType 6 addr 1 BitNo 4 OnFlag 0 OFF 1 ON IpAdadr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Appendix 5 Ethernet Write Bits to Internal Memory int HKEtn_WritelnternalBitMemory int DeviceType DWORD addr int BitNo int OnFlag char IpA ddr 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 e Parameters DeviceType 0 u 1 s 2 L 3 LD 4 T addr Top memory address to be written BitNo Bit number to be accessed OnFlag 0 OFF 1 ON IpAddr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Write Bits to Memory Card Memory int HKEtn_WriteCardBitMemory int FileNo int RecordNo DWORD addr int BitNo int OnFlag char IpA
156. h station Connections using both the PLC2Way and multi link 2 functions are possible at the same time when the system program is version 1 010 or later and the V SFT editor is version 2 0 2 0 or later Appendix 1 PLC2Way App1 3 PLCs Compatible with PLC2Way Connection at MJ Port e 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 e PLCs compatible with PLC2Way connection at MJ port as of February 2004 are shown below MITSUBISHI OMRON SHARP YOKOGAWA Fuji Electric MATSUSHITA For the applicable PLCs refer to PLC2Way under Available PLCs in Chapter 2 to Chapter 33 O Connectable x Not connectable e The communication parameter setting and available memory for the PLC connected at the MJ port for PLC2Way connection are the same as those for 1 1 connection Refer to the communication setting and the available memory for each manufacturer in Chapter 2 to Chapter 33 App1 4 Appendix 1 PLC2Way Wiring Two kinds of cables are available for PLC2Way connection at the MJ port Cable connections are explained Connecting Method 1 Using MJ D25 e 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
157. haracter entry write Allowed Screen internal switching Allowed In this case the data contents are as shown below oz 06 os 04 03 02 01 00 Lojolojof1 fojo Switch ON Switch OFF Host side V series side Keypad write amp character entry Screen internal switching Appendix 6 Universal Serial Communications App6 37 Interrupt Status Read Command e 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 1 Interrupt allowed Switch OFF Keypad write amp character entry Screen internal switching Example Interrupt status is read Switch ON Allowed Switch OFF Allowed Keypad character entry write Prohibited Screen internal switching Prohibited In this case the data contents are as shown below 07 06 os 04 03 02 01 o0 folojofofojol 1 Switch ON Switch OFF Host side fob gov 108 141 300 V series side Keypad write amp character entry L Screen internal switching 02H 30H 33H 03H 36H 38H App6 38 Appendix 6 Universal Serial Communications Interrupt ENQ When interrupt is used when the connection mode is 1 1 this code is transmitted The transmission occurs when a regular key is pressed or when the ENTER key is pressed in the entry mode For information on interrupt timing ref
158. he 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 V7 series RS 232C or RS 422 RS 485 The host link unit of the PLC or the CPU port is used and the V7 series master station establishes communications according to the protocol of the PLC Consequently it is not necessary to have the dedicated communication program on the PLC slave station The V7 series reads the PLC memory for screen display It is also possible to write switch data or numerical data entered through the keypad directly to the PLC memory V7 series PLC Connection The interface used for 1 1 connection varies depending on the V7 series model e CN1 D sub 25 pin for V7 series and V706 DU 01 e MJ2 RJ 45 8 pin for V706 o O Oo Oo Oo Oo gt For details on wiring and settings for 1 1 connection refer to page 1 8 1 2 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 PLCn n 1 to 31 Notes on Connection For more information refer to Appendix 4 1 n Connection Multi drop 1 Before Connecting to PLC 1 3 n 1 Connection Multi link 2 Outline e One PLC is con
159. he required capacity can be calculated as shown below 1 sample Words 2 words Buffer size No of Samples x 1 sample Words here means the number of words in the memory addresses used in the temperature control network PLC2Way table that is set for No of Table Appendix 1 PLC2Way App1 15 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 1 Click System Setting gt Memory Card Setting The Memory Card dialog is opened Memory card 8 EC rl E ae o i Ja Ja Js 5 e I F Memory u02000 ae F Use Temp Control Net PLOZWay Type MES m liransfer Mode 340 O records 1 a No of Records E Nt No of Data fi TableWo Bytes for Record fo Memory o 00100 Data Record Name 2 Select Buffering File for Type 3 Match the file number tab in the Memory Card dialog with Output File No in the Buffering Area Setting dialog xi Memory Card me xi i 8 9 10 11 Son in ine el el A Pe aa E Ee E MV Use Sample Buffer Type EME Use Temp Control Net PLEZWay lransfer Mode E Memory Desianation D00100 SH No of Records Cc Data Ji No of Date 1 r TableNo Sampling Method Temp Control Net PLC2 y SiS Jl Cia P
160. he side of the V706 The switch is factory set to RS 422 When RS 422 is selected the slide switch is in the lower position To select RS 232C slide the switch to the upper position Side View Slide switch Lower position RS 422 4 wire Upper position RS 232C 1 Before Connecting to PLC 1 7 Connection between MJ2 and PLC There are two connection methods e With MJ2 PLC 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 PLC MJ2 PLC MJ2 m efi ro Ja o 0 E o PA O e With V6 TMP Refer to the PLC wiring diagram and the MJ2 pin arrangement Example Connecting to MITSUBISHI A1SJ71UC24 R2 MJ2 RJ 45 8 pin V6 TMP 1 8 1 Before Connecting to PLC Wiring 1 1 Connection o DANGER Electric shock hazard Shut the power off before connecting cables Prepare the communication cable with the PLC on your side Refer to the following information for the cable For more information on the connection to respective PLCs refer to Chapter 2 and later RS 232C Connection e Connect the shielded cable either to the V7 series or PLC side This connection diagram shows the case where the shielded cable is connected on the V7 series sid
161. he target memory address is BCD The code numerical data format for the PLC2 memory is fixed as mentioned above Refer to page App1 9 Normally the V7 series handles numerical data as DEC with signs For numerical data to be handled on the PLC connected to the MJ port select Word or Double Word for Data Type for data to be handled as bits select Bit Example Word Double Word Code Bit Data MSB LSB Temperature control BCD 15 114 13 112 111110 9 8 7 6 5 4 3 2 1 0 10 PLC2 memory 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 MSB LSB vistes DEC 15114 13 12 11 110 9 8 7 6 5 4 3 2 1 0 10 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 0 MSB LSB Target PLC memory BCD 151411312111 10 9 8 7 6 5 4 3 2 10 10 Depends on the communication ololo olololo olo o olol1lo 1lo parameter setting mnum Not necessary to be aware Example Bit Code Bit Data Temperature control BCD 10 PLC2 memory MSB LSB V7 series DEC 15 14 13112 11 101918 7 16 514 312 110 16 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 Y Target PLC memory BCD dd Depends on the communica tion parameter setting B ee ae Not necessary to be aware Appendix 1 PLC2Way App1 13 When 3 is double clicked
162. ication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows KZ Series Link Setting on PLC V7 Comm Parameter Setting CC EE E S Terminating resistance owners SSS fOperatonmede we SSS Set the port with the port setting switch the terminating resistance with terminator and the baud rate data bit parity stop bit with SET B DIP switches KZ A500 CPU CPU Modular Port Setting on PLC V7 Comm Parameter Setting S a ew o o O S S Temata resistance wers OOOO O SS 1 For signal level RS 422 baud rate is fixed to 9600 bps MITSUBISHI A Series Link Link Unit KZ L10 V7 Comm Parameter Setting CS A O A Transmission Data length code Stop bit 1 Terminating resistance ON for RS 422 Transmission mode Protocol code 1 Trans Mode 1 Set the port with the port setting switch the terminating resistance with terminator and the baud rate data bit parity stop bit with SET B DIP switches For more information refer to the instruction manual for KZ L10 KZIKV Series CPU Communication parameters for the V7 series are automatically set 12 KEYENCE PLC KV 700 CPU Setting on PLC V7 Comm Parameter Setting Baud rate 9600 bps 9600 bps 4 Maximum baud rate available is 57600 bps Select the appropriate baud rate depending on the used PLC and environment KZ24 300 CPU Setting on PLC V7 Comm Parameter Setting Baud rate 38400 bps 38400
163. ications with the V7 series Data collection is available even between the products of different manufacturers When connecting to the V7 series or a V706 equipped with DU 01 use the MJ port e Either signal level RS 232C or RS 485 can be selected With RS 232C one V7 series can be connected with RS 485 a maximum of 31 V7 series can be connected lt RS 485 connection gt RS 485 MJ1 a V706 a Local Port Local Port 31 RS 232C RS 422 RS 485 Temperature controller inverter or PLC App7 2 Appendix 7 V Link 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 V6 TMP Notes on Use of V6 TMP There are six wires in the V6 TMP cable as shown on the Brown right Red The wires to be used are determined depending on the A connecting method For the wires not used be sure to Yellow properly insulate with tape etc Black SD RD Green SD RD RS 232C V7 series 1 set 4 RS 232C 4 A RS 232C RS 422 PLC RS 485 Wiring example of above a Modular jack 8 pin Cx IKE 4 V6 TMP is connected to FG when the V7 series is used and to SG when the V706 is used Computer D sub 9 pin female Appendix 7 V L
164. ice S on delay timer set value C on delay timer elapsed value US one short timer set value 11 UC one shot timer elapsed value CS up down counter set value CC up down counter elapsed value 14 DW data register event register 16 17 18 19 EW as word device system register SW as word device transfer register JW as word device receive register QW as word device extensional internal register 20 MW as word device HIDIC S10 ABS Remarks gt po Memory TYPE Remarks A o O IS ME A A Booo S O EC A O CS MOR O A OOOO CA A 10 Hitachi PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V Series CN1 D sub 25 pin male Sig ha PLC peas Use shielded twist pair cables Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal PLC D sub 9 pin female 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 10 Hitachi PLC Wiring Diagram 3 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 9 pin female 1 Pin No 1 of CN1 is used as FG voy eG The metal shell of the ea Se See v modular jack 2 on the Use shielded twist pair cables V706 is used as SG RS 422 Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name A pafa pera
165. ies When V series units are 1 n connected it is convenient to use the TC485 Terminal Converter optional For more information refer to TC 485 Terminal Converter Operation Instructions Appendix 6 Universal Serial Communications App6 5 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 e For V series General purpose computer RS422 O a RS232C a e For V706 DU 01 V706 General purpose computer i RS422 O RS232C 4 e For V706 General V706 purpose computer RS422 lt E RS232C N GA gt App6 6 Appendix 6 Universal Serial Communications CN1 RS 232C Connector Specifications The specifications for the RS 232C connector that links to the communication device are shown below O o reeave sia o e Contact arrangement of the pin insert e 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 If both of the terminals are connected problems such as noise might result in abnormal data transmission e Wiring Perform wiring as shown below V series CN1 eae Use twist shielded cables lt Executing Flow Control gt General purpose V series CN1 computer Use twist shielded cabl
166. ifferent from those described in V SFT Setting 1 1 Connection page 1 10 are explained here PLC Selection Select the PLC that is connected Check that the PLC to be connected is ready for 1 n connection Refer to the Appendix e Setting Procedure System Setting gt PLC Type gt Select PLC Type dialog Communication Parameter Setting e Setting Procedure System Setting gt Comm Parameter gt Comm Parameter dialog e Setting Items Select 1 n for Connection PLC Port Setting Set the port number of each PLC not in the Comm Parameter dialog but in the Memory Setting dialog for each part Appendix 4 1 n Connection Multi drop App4 3 Notes on Communication Errors Processing for PLC Failure e f 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 If a communication error timeout is detected while accessing the Read Area the error is processed in the same manner as for 1 1 connection Supplemental Information Internal system memory The internal system memory is the one for the V7 series system e Using the macro command RECONNECT communications can be resumed without the display screen change RECONNECT In the case of a multi
167. in No 1 of CN1 is used as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 4 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name EE ay aaa 1 Pin No 1 of CN1 is used as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 5 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name swe PLC D sub 15 pin male 1 Pin No 1 of CN1 is used as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG 23 SHINKO ELECTRIC PLC 23 SHINKO ELECTRIC PLC Available PLCs Select PLC Type PLC UnivPor SELMART SELMART 100 and later Version 01M2 UCI 6 RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Setting on PLC V7 Comm Parameter Setting Baud rate 19200 bps 19200 bps Available Memory The available memory setting range varies depending on the PLC model Be sure to set within the range available with the PLC to be used Use TYPE when assigning the indirect memory for macro programs Only D register of SELMART is available No other devices can be used Be sure to note the above though the setting on the V SFT editor is possible 23 SHINKO ELECTRIC PLC Wiring Wiring diagram with the PLC is shown below
168. ink 2 e This multi link connection is available with almost all the PLC models that support 1 1 connection refer to the Appendix The connection between the master station and the PLC is the same as the one for 1 1 connection e 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 e In the following cases multi link 2 connection is not available 1 A communication interface unit example OPCN 1 CC LINK Ethernet etc is used 2 The V6 series master or slave station is used for the temperature control network or PLC2Way function e The V7 and V6 series can be used together The V6 series can be the master station However when V606 V606i is the master station the slave station must be V606 V606i Also depending on the hardware version of the V6 series multi link 2 connection may not be supported Refer to the V6 Hardware Specifications Connection For V7 Series Communications between V7 series RS 485 2 wire maximum length 500 m CN1 V7 master station lie V7 slave station V7 slave station V7 slave station Local Port 1 Local Port 2 Local Port 3 Local Port 4 a Connection between PLC lt V7 master station The communication parameter setting and connecting method are the same as those fo
169. ink App 7 3 RS 485 V7 series maximum 31 sets RS 232C gt RS 485 conversion Terminal block Terminal block RS 485 b V6 TMP deis RS 232C RS 422 PLC PLC PLC RS 485 0 5 m recommended 1 0 m maximum Wiring example of above a and b Terminal Terminal y m ewe ee e e V7 series V7 series Modular jack 8 pin Modular jack 8 pin Signal Name Pin No o E C eeatt tr 4 6 TMIP is connected to FG when the V7 series is used and to SG when the V706 is used 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 gt V Link Setting 2 The V Link Setting dialog is displayed 3 Check C Use MJ Port as V Link and make the setting for communications between the V7 series and the computer Refer to Modular Select the modular jack to be used Modular Jack 1 Modular Jack 2 Baud Rate 4800 9600 19200 38400 57600 115k bps Local Port 1 to 31 Set the port number of the V7 series Send Delay Time msec Set a time delay in sending a response after receipt of data Parity None Odd Even Signal Level RS 232C RS 485 With RS 232C one V7 series can be connected with RS 485 a maximum of 31 V7 series can be connected Data Length 7 bit 8 bit Stop Bit 1 bit 2 bit Use Sum Check Check this option when using a sum check Add CR LF Check this
170. iring Diagram 3 F3LC12 1F RS 232C Wiring Diagram 2 Programming tool porton the YOKOGAWASs ladder transfer CPU module cable KM11 2N 2 d F3LC01 1N FA M3 FA M3 y A F3LC11 1N F3LC11 2N RS 422 Wiring Diagram 3 MEA Programming tool porton the YOKOGAWASs ladder transfer FA M3R FA M3 R CPU module cable KM11 2N 2 The CPUs that can be connected directly to the programming tool port on the CPU module are F3SP21 0N F3SP25 2N F3SP35 5N F3SP28 3N F3SP38 6N F3SP53 4H and F3SP58 6H 2 For connection to MJ2 of a V706 use an MJ2 PLC adaptor plus KM11 2N 3 When the link unit F3LC01 1N is used the communication setting and available memory are the same as those for FA 500 However B common register cannot be used 33 Yokogawa Electric PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows FA500 Setting on PLC V7 Comm Parameter Setting V7 Comm Parameter Seting FA M3 FA M3R Baud rate 19200 bps Terminal character Protection function When directing connecting to the programming tool port on the CPU module the data length is fixed to 8 Select 8 bit for Data Length in the Comm Parameter dialog of the V7 series Also set CPU Communication Port of Configuration in the ladder creation tool as below Personal computer link function Use
171. is station App2 8 Appendix 2 n 1 Connection Multi link 2 MEMO Please use this page freely Appendix 3 n 1 Connection Multi link Appendix 3 n 1 Connection Multi link Multi link e 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 00000000 00000000 00000000 00000000 Maximum length PLC to the terminating V7 series 500 m RS 422 RS 485 connection 000000 000000 000000 Maximum length PLC to the terminating V7 series 500 m RS 422 RS 485 connection 4 In the case of V706 DU 01 connect to CN1 e The PLC must be of the type of signal level RS 422 RS 485 with port numbers RS 422 connection between the V7 series lt gt PLC must be in 2 wire connection e The V7 and V6 series can be used together V706 No 2 V706 No 3 V7 series No n n 1 to 31 2 Use twisted pair cables of 0 3 mm sq or greater between terminal blocks App3 2 Appendix 3 n 1 Connection Multi link 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 e 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 RS 422 port of the link un
172. it eceive data end data eceive data end data Terminating resistance Terminating resistance Terminating resistance Terminating resistance ON OFF OFF ON When no jumper is required on the PLC To the PLC s RS 422 port of the link unit Send receive data Send receive data Terminating resistance Terminating resistance Terminating resistance Terminating resistance ON OFF OFF ON e When TC485 is not used Install jumpers between RD SD and RD SD Appendix 3 n 1 Connection Multi link App3 3 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 MJ2 To the PLC s RS 422 Shield port of the link unit Signal melee Ad i EME ap pe OE IE E Por Terminating resistance OIEA pu ee gs Poi i Receive data OBE RD 7 i Send data eet oes i Send data eei io SG N 1 w NE tes a SG X IAE x Terminating resistance ON V706 nd MJ2 Signal SHELL pao t K Terminating resistance eHre ory a z AA Lo po V706 MJ2 CS Terminating resistance EIN ON mad SG 0 lala BEE Slide the slide switch on the V706 to the lower position for RS 422
173. it when it is unpacked Do not use the unit if any damage or deformation is found Failure to do so may lead to fire damage or malfunction e For use in a facility or for a system related to nuclear energy aerospace medical traffic equipment or mobile installations please consult your local distributor e Operate or store MONITOUCH under the conditions indicated in this manual and related manuals Failure to do so could cause fire malfunction physical damage or deterioration e Understand the following environmental limits for use and storage of MONITOUCH Otherwise fire or damage to the unit may result Avoid locations where there is a possibility that water corrosive gas flammable gas solvents grinding fluids or cutting oil can come into contact with the unit Avoid high temperature high humidity and outside weather conditions such as wind rain or direct sunlight Avoid locations where excessive dust salt and metallic particles are present Avoid installing the unit in a location where vibration or physical shock may be transmitted e Equipment must be correctly mounted so that the main terminal of MONITOUCH will not be touched inadvertently Otherwise an accident or electric shock may occur e Tighten the fixtures of the MONITOUCH with a torque in the specified range Excessive tightening may distort the panel surface Loose tightening may cause MONITOUCH to come off malfunction or be short circuited e Check peri
174. la oren O OOOO Pasa A XT Pave CTA owne SS Paes E Ensyintomaton0 Pave fens Eneyintomaton CO aor enna eneyintomaton ave RePNS orearen OOOO n 9 Reserved 7 words n 15 For details on addresses n 0 to n 2 refer to Chapter 1 in the Reference Manual Function n 3 SWO switch data No 0 n 4 SW1 switch data No 1 When the switch output memory is set at an address location from 80 to 95 in the system memory s of internal memory the switch number is written on lower 8 bits The relationship between the switch number and the bit is shown in the following table Refer to page App6 40 n 3 n 4 SW0 SW1 asaje 2 0 00 68 ov 08 05 04 09 62 0500 fofofofofojofo Switch status Switch number 0 OFF 1 ON Appendix 6 Universal Serial Communications App6 17 System memory s within internal memory Address Contents ooo arena SSS Co S AA Universal serial port switch outputO Output code 0 15 Universal serial port switch output 1 Output code 16 31 Universal serial port switch output2 Output code 32 47 Universal serial port switch output3 Output code 48 63 Universal serial port switch output 4 Output code 64 79 Universal serial port switch output 5 Output code 80 95 Universal serial port switch output6 Output code 96 111 Universal serial port switch output 7 Outputcode 112 127 Universal serial port switch output 8 Output code 128
175. lable 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 CONT TI TN IN o egter 2 E Y ovpu rly H extension temporary storage 2 HWasworddevie Ss emes Sa ee E een aser des P ameona Jooo v meone A 28 TOSHIBA MACHINE PLC Wiring Wiring diagram with the PLC is shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal PLC D sub 9 pin female 1 Pin No 1 of CN1 is used as FG voy vo The metal shell of the da a ba a a ni y modular jack 2 on the Use shielded twist pair cables V706 is used as SG 29 Toyoda Machine Works PLC 29 Toyoda Machine Works PLC Available PLCs Select PLO Type PLC UniVPon TOYOPUC A a CMP LINK RS 422 Wiring Diagram 1 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Set Trans Mode in the Detail tab window of the Comm Parameter dialog of the V SFT editor e PC3J Select Single Data Area or Split Data Area e L2 PC2 series Select Single Data Area Split Data Area Each PLC device is divided into program files Switch Setting Baud rate 19200 bps SW1 a g Station address lower half SW2 o E Station address upper half 4 Baud rate 1 19200 2 9600 3
176. le This setting does not affect the communication speed if no problem is occurring however if there is any problem it does affect the communication speed e When the setting value is small It will not take a long time before restoration e When the setting value is large It will take a longer time before restoration Supplemental Information Retrials in the Detail tab window of the Comm Parameter dialog is the number of retrials that the V7 series master station sends an inquiry to the PLC Baud Rate of Multi Link 4800 9600 19200 38400 57600 76800 115k bps Set the baud rate used for communications between the V7 series The setting must be the same as other V7 series on the same communication line For Total and Baud Rate of Multi Link the same values must be set on all the V7 series that are connected in the same communication line Make the following setting when 1 is set for Local Port on the Comm Parameter dialog on the V7 series master station Select System Setting gt Modular Jack Select Multi Link for Modular Jack 1 or Modular Jack 2 Connect the multi link 2 master cable V6 MLT to the modular jack selected for Multi Link Communication Error e When the master station has a communication error the slave stations do not work and the communication error Time out is displayed When the V7 series slave station has a failure a communication error occurs only on th
177. ll of the modular jack 2 on the V706 is used as SG 24 10 24 Siemens PLC Wiring Diagram 7 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC i D sub 9 pin male er eu 1 f fel sf gt pt toe TxD RxD 3 TxD RxD Ea 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 e 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 If the terminating resistance is not connected a communication error may occur V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 24 Siemens PLC Wiring Diagram 8 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male role a 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 PLC D sub 9 pin male Wiring Diagram 9 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male ft euf i J a PLC D sub 9 pin male 4 Pin No 1 of CN1 is used as FG The metal shell of the modular jack 2 on the V706 is used as SG 24 12 24 Siemens PLC MEMO Please use this page freely 25 TAIAN PLC 25 TA
178. m nicati n Settings tosco 2 1 Available MEMO Sd A 2 2 PLC Series SWIC Setting sinere e E a T S 2 3 SLC500 Series Micro Logix 100 Transmission Parameter Setting oooooococcccccccccccncnnnnnnnnos 2 5 WINO A NS 2 6 Automationdirect PLC AO APA A O r ta eee eaten E sneak LUO 3 1 Communication Setting AA PS OO eect A AA 3 1 Available Memo esse dato ss 3 2 AI O o A a ts 3 2 Baldor PLC Avalla Dle PES acoso cian 4 1 COMMUNICATION Si A N E E e Ea a 4 1 Available ME MOTY APC OL SE UU ne a A 4 1 WAITING A aaa a a oee aa e EN EEEE 4 2 DELTA PLC Available PLG So nee ees A E E rene Cary Herre rn n nts ane ee 5 1 COMMUMICAUON SEEING sais 5 1 Available Memon Gosacter terse O ets rere dae ik ak cane Ace btn iG seals ohhh do 5 1 MW VIII eree Ooedete nasa waned sada pasa E gee cutdi Ny coro a RN 5 2 FANUC PLC PAY ANGIE FC So T E 6 1 COMMUNICA Sel dins rise so une led a AEs A bal cat on 6 1 Available MGMOry roland 6 1 WINO A E o E E PETT O ee dase nantimoabucaaaitncsedtoes 6 2 FATEK AUTOMATION PLC E e A 7 1 Sole eel e EE enter CE EEE RRR E AA 7 1 Aral Dl MEMON ot dead o 7 1 A e n E a A diets Bonadesagesens abes be maton E a SS 7 2 Fuji Electric PLC Available PEG Sas yet tC Nc carne a AA AA AAAS Le ae pce uy nid ESS 8 1 Communication Seti lO 8 1 MICREX F Series SPB N Mode amp FLEX PC Series Switch Setting ooococoooccccnnnncccoooooo 8 2 Available Memory AAA RO eaten OO a Pca 8 3 WINO e q A EAN 8 5 G
179. m called system memory s User Memory u 16384 words are available for user memory This area is usable as desired for screen data Also the host computer can write to and read from the area The memory map is as shown below User memory 16884 words PAS 16383 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 System memory cannot be read or written from the host computer In the table below a small part s80 to 95 of system memory is extracted For more information on other areas of system memory refer to Appendix 1 in the Reference Manual Function Address 79 91 92 93 94 95 97 Universal serial port switch output 0 Output code 0 15 Universal serial port switch output 1 Output code 16 31 Universal serial port switch output 2 Output code 32 47 Universal serial port switch output 3 Output code 48 63 Universal serial port switch output 4 Output code 64 79 Universal serial port switch output 5 Output code 80 95 Universal serial port switch output 6 Output code 96 111 Universal serial port switch output 7 Output code 112 127 Universal serial port switch output 8 Output code 128 143 App6 46 Appe
180. macro programs PLC 5 Series Remarks CO EE l input o wm o y Ro eom ME jf a J a 2 m 2 Allen Bradley PLC 2 3 SLC500 Series Micro Logix 1000 N o integer Ass CA ee o TACC timer currentvalue 2 TPRE _ timer set value oo CACC countericurrent value f 4 C PRE _ counter set value 8 sd doo o oww O o CAT T o Status E T timereontop ff o __ counter contro E Of R onto a A RLEN controdatalength 2 RPOS controidataposiion 18 S BC E o FASC O o PLOT O o ST STRING A O O PLC 5 Series Switch Setting 1785 KE SW1 Protocol Ne A ents Pp tN BCC even no OFF Se ice message naccepaDe Ps ON Eset gros command SW2 Station number Set the station number of 1785 KE This station should not be duplicated in the network to ON ON 1st digit octal ON OFF ON OFF 2nd digit octal ON OFF ON OFF 3rd digit octal ON OFF ON OFF 2 4 2 Allen Bradley PLC SW3 Network link communication speed Adjust to the settings of the network you are using Data highway 57 6 kbps Link communication speed 19 2 kbps ACI CCA Localiremote selection SW4 Reserved For extension always OFF 1770 KF2 SW1 Protocol w J sew es A on tata message unaccenable SW2 SW3 SW4 Station number Set the station number of 1770 KF2 This station should not be duplicated in the network SW5 Network link communication speed A
181. mands from the PLC are received for screen display changes Consecutive three words from the specified memory address are used as read area RCVDAT Sub command data n 1 SCRN_COM Screen status command When you have created screens with the following function the number of required memory addresses vary e When the sampling function is used Refer to the Reference Manual Function e L Read Write Area GD 80 Compatible is checked Refer to the GD 80 User s Manual Set 0 for all the bits not used in the read area e RCVDAT n Sub command data AO a PC r o L Free BZO 0 gt 1 leading edge Z 0 0 idad d To forcibly change the bits for free BZ1 10 gt 1 leading edge area the same data is written to System reserved setting 0 CFMDATA in Write Area after the screen is displayed Calendar setting 0 gt 1 leading edge Use this rl for watch dog or System reserved setting 0 display scanning im Semn zz l a aN oa a a l l e SCRN_COM n 1 Screen status command ENS EEES Ea LE E e Gee ee Ee EEE EA A Overlap 0 Overlap 1 Overlap 2 System reserved setting 0 Global macro execution 0 gt 1 leading edge Data sheet output 0 gt 1 leading edge Screen hard copy 0 gt 1 leading edge Backlight level DEA A AAA S Normal overlap or call overlap System reserved setting 0 l 0 1 ON Screen internal switching level 1 gt 0 OFF Sc
182. mber is 16 bit data from 0 to 65535 However since some numbers are already used the setting range available with V7i or V706 is from 256 to 65535 It is recommended to set a greater number Note that 8001 is allocated to the port for screen data transfer from the editor Use a number other than 8001 Select Port Select either AUI or 10BASE T When connecting to the 10BASE T connector LAN of V7i or V706 DU 01 select 1OBASE T Select either 10BASE T or AUI when CU 03 2 is mounted Memory Protect Attach a check mark M when write protecting the internal memory or memory card Default Gateway Attach a check mark M when setting the default gateway Default Gateway A gateway and a router are used for communicating between different networks The IP address of the gateway router should be set to communicate with the node s on other network App5 20 Appendix 5 Ethernet Sub Net Mask Attach a check mark M 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 Class B 1 0 Network address 14 Host address 16 255 255 255 0 Subnet mask 11111111 11111111 11111111 00000000 Network address Subnet address Host address Appen
183. mber to be read lpAddr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Read Bits from Memory Card Memory int HKEtn_ReadCardBitMemory int IpOnFlag int FileNo int RecordNo DWORDaddr int BitNo char lpAddr This function is retained until data is transferred from the V7 series e Parameters IpOnFlag Returns the bit status 0 OFF 1 ON FileNo File number RecordNo Record number addr Top memory address to be read BitNo Bit number to be read IpAdar IP address shown as a string of characters separated by dots Example 192 168 XXX XXX e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError Appendix 5 Ethernet App5 35 Write Write Words to PLC Memory int HKEtn_WritePlcMemory WORD sp unsigned short Wordcnt int DeviceType DWORD addr char IpA ddr 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 e Parameters sp Target block pointer Wordcnt Word count to be transferred max 2000 words DeviceType Address of the device to be written Refer to Chapter 2 to Chapter 33 addr Top memory address to be written For YOKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 gt 399 D2
184. mikashiwano machi Matto shi Ishikawa 924 0035 Japan TEL 076 274 2144 FAX 076 274 5208 TEL 03 3255 0166 FAX 03 3255 0298 TEL 06 6385 8234 FAX 06 6385 7851 TEL 052 789 0096 FAX 052 789 0098 238 Kamikashiwano machi Matto shi Ishikawa 924 0035 Japan PRICE Y 1 000 41000000
185. mmunication parameter settings of the PLC and the V7 series are as follows Por O for lt 10 Y for A CTA O AI eS Eee EEES IEEE ER code EXT EN Faroe tiamina dS Response delay O 0 O Mime o oe O CET O o SS 3 2 3 Automationdirect 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 PE v es A SSS x waen ETS SSCS v wwen e SSS C CO ELN SSS e wwa ECT SSS To we S Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Signal p PLC 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 3 Automationdirect PLC 3 3 Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male SHELL feos a feof fs CER CIEN CIEN 1 TE 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 PLC Modular connector 6 pin N N 09 iN 0 a 654321 a 0 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name PLC High density D sub 15 pin male 4 Pin No 1 of CN1 is used Use shielded twist pair cabl
186. n 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 Contents Protocol o 1D o JETS CIL L TIIU RIF El PartA JE PatB X M HL Transmission sequence Z 530 98 gt 0Q0 2538y3300 TIO Bl I FE When V series data is read from the host side Z 53JO 0 0 Transmission D Transmission E S ciL data L data Tlu R F PatA E PatB X IM HL I O moi Z 5JO D 0 IO E 25043300 Transmission sequence When the host writes E data on the V series E OZ 50 00 Z TJO 98 0 IO E App6 28 Appendix 6 Universal Serial Communications Data Items for Protocols e Transmission control code The transmission control codes are shown in the table below Signal Name Contents e Port number Port numbers are used so that the host computer can identify each V series for access The data range is from OOH to 1FH 0 to 31 and is converted into two digit ASCII code HEX before use The port number of the V series should be set on the V SFT editor e Sum check code SUM Data is added up SUM and the lower one byte 8 bits of the sum is converted into the 2 digit ASCII code hexadecimal A sum check code is shown below Example Sum check will be as is shown below when data is transmitted as command WM data writing address O5AD 1453 and memory data OF2A 3882 in tran
187. nding on the network size Class A 0 Network address 7 Host address 24 Class B 1 0 Network address 14 Host address 16 Class C 110 Network address 14 Host address 8 Notation A string of 32 bit data is divided into four and each segment delimited with a period is in decimal notation Example The IP address in class C shown below is represented as 192 128 1 50 11000000 10000000 00000001 00110010 Send Timeout Set the time out time for the V7 series to send a EREAD EWRITE command on the Ethernet Port No 256 to 65535 Default 10000 Set the port number The port number may be fixed depending on the PLC model Refer to the instruction manual for the PLC Example MITSUBISHI QnA series 5000 Default changeable by sequence QnH Q series link with auto open UDP port 5000 Default changeable by sequence HITACHI 10 2a 510 mini 4301 Fixed YOKOGAWA FA M3 12289 Fixed A B PLC 5 SLC500 Control Logix 44818 Fixed LG MASTER K series 2005 Fixed GLOFA GM series 2005 Fixed MODBUS TCP IP 502 Fixed KEYENCE KV700 8501 Default changeable by sequence Automationdirect D2 240 28784 Fixed Port No Multiple applications are running on each node and communications are carried out for each application between the nodes Consequently it is necessary to have a means to identify the application that data should be transferred to The port number works as this identifier Each port nu
188. ndix 6 Universal Serial Communications e 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 Refer to page App6 16 The relationship between the bit and the switch number is shown in the following diagram For details about the output of a switch refer to page App6 40 MSB LSB Address 0080 15 14 13 12 11 10 09 08 07 06 o5 04 03 02 o1 00 15 14 13 12 1110 9 8 7 6 5 4 3 2 1 0 Switch number MSB LSB Address 0081 15 14 13 12 11 10 09 08 o7 06 05 o4 o3 02 o1 o0 Switch number 34 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 Address 0080 15 14 13 12 11 10 09 08 o7 06 05 o4 03 02 o1 o0 Switch number 175 174 173 172 174 170 169 168 167 166 165 164 163 162 161 160 Address 0094 swith number z00 200 207 250 2520 200 202 204 1200220 28 227 220 226 224 MSB LSB Address 0095 15 14 13 12 11 10 09 08 o7 06 os o4 03 02 01 oo Switch number 955 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 Appendix 6 Universal Serial Communications App6 47 Switch ON Macro Action The macro command that controls
189. nected to a maximum of four V7 series e An original network is created where the V7 series Local Port 1 that is directly connected to the PLC is the master station and other three V7 series are slave stations Only the master station makes communications directly with the PLC and the slave stations make communications with the PLC via the master station V7 master station V7 slave station V7 slave station V7 slave station Local port 1 Local port 3 0000000 RS 485 connection Hakko Electronics cable V6 MLT 3 m e Communications between the V7 master station and the PLC depend on the communication speed set on the PLC The maximum available speed for the V7 series is 115 kbps which is higher than the one available with multi link connection described in n 1 Connection Multi link page 1 4 e This multi link connection is available with almost all the PLC models that support 1 1 connection refer to the Appendix The connection between the master station and the PLC is the same as the one for 1 1 connection 0 e 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 e n the following cases multi link 2 connection is not available 1 A communication interface unit example OPCN 1 CC LINK
190. ng settings are required e Temperature control network PLC2Way table editing Refer to page App1 10 For temperature control network PLC2Way table editing page App1 13 the setting in the Temp CTRL PLC2Way Table Setting dialog is not necessary e Macro TEMP_READ TEMP_WRITE e Memory card setting when a memory card is used 1 Macro TEMP_READ Data in the PLC2 memory addresses set in the temperature control network PLC2Way table specified for F1 is transferred to the memory addresses starting from FO Usable Devices Internal Constant Temperature Indirect ol dl Control Table No mom Pars pol o o o o lo d o E SIS IS S TEMP_READ Temperature control network table read TEMP_READ FO lt TABLE F1 TEMP_WRITE Data in memory addresses starting from F1 is transferred to the PLC2 memory of the temperature control network PLC2Way table specified for FO Usable Devices Internal Constant Temperature Indirect E esa Control Table o iia deal Fo o RARA TEMP_WRITE Temperature control network table write TEMP_WRITE TABLE FO lt F1 2 Memory card setting The memory card setting should be made when the memory card is used as the source or target memory for a macro command 1 Click System Setting gt Memory Card El Setting The Memory Card dialog is opened e la jw Ju jw jw 1 Cas e e 2 Select Data File for Type VF Memory usa fm Check Use Temp Control Net PLC2Way 3
191. odically that terminal screws on the power supply terminal block and fixtures are firmly tightened Loosened screws may result in fire or malfunction e Tighten terminal screws on the power supply terminal block equally to a torque of 0 5 Nem Improper tightening of screws may result in fire malfunction or trouble e MONITOUCH has a glass screen Do not drop or give physical shock to the unit Otherwise the screen may be damaged e Connect the cables correctly to the terminals of MONITOUCH in accordance with the specified voltage and wattage Over voltage over wattage or incorrect cable connection could cause fire malfunction or damage to the unit e Be sure to establish a ground of MONITOUCH Ground FG terminal which must be used for the unit Otherwise electric shock or a fire may occur e Prevent any conductive particles from entering into MONITOUCH Failure to do so may lead to fire damage or malfunction e After wiring is finished remove the paper used as a dust cover before starting to operate MONITOUCH Operation with the cover attached may result in accident fire malfunction or trouble e Do not attempt to repair MONITOUCH at your site Ask Hakko or the designated contractor for repair e Do not disassemble or modify MONITOUCH Otherwise it may cause a malfunction e Hakko Electronics Co Ltd is not responsible for any damages resulting from repair overhaul or modification of MONITOUCH that was performed by an unauthorized per
192. on cannot be used For V7 e To use Ethernet communications on V7 the communication interface unit CU 03 2 must be mounted In this case however the Web server or e mail function is not available For V706 e To use Ethernet communications with the V706 an optional unit DU 01 is necessary Web server and e mail functions are available IP Address for the V7 Series To enable Ethernet communications on the V7 series it is necessary to set the IP address for identification of the V7 series on the network For details on IP address setting refer to the separate V SFT Additional Specifications for the V7 series and V706 Hardware Specifications for V706 Communication Interface Unit CU 03 2 Specifications Specifications 10BASE T 10BASE5 10BASE2 Baud rate 10 Mbps Transmission method Base band Maximum network distance 2500 m 5 segments 925 m 5 segments 500 m 4 HUBs or maximum node interval Maximum number of nodes 100 segment 30 segment 2 segment UTP Ethernet RG58A U RG58C U connecing cable coaxial cable 50 Q coaxial cable 50 Q E tlds pair 100 m Maximum segment length 900 between the node and the HUB Appendix 5 Ethernet Names and Functions of Components LED Indicates the status of the communication Rx Port number setting switches Set the port number of V7 specified on the network table using the following rotary switches Example
193. oncoccooocccccncccncnnnnnnnnnnnnnnos App1 3 A srtenaseetce santas Salsa E lacet GADD UN RON a E Re each eae saan noone App1 4 V SFET Setting System OS EEES App1 6 V SFT Setting When the Temperature Control Network PLC2Way Table is US d ooooooooonnoococcccccccccnos App1 10 Indirect Memory DESTINAN dto rener re reenn App1 17 User Log Read for YOKOGAWA s PLC ooooooccccccccccononoccccccononocoonoconocnnnnnnonononnnnnononnnnnnninnnnnnnnnnnns App1 17 PROCESSING Cyel Eee A RC 55 A NAN App1 18 Notes on Screen Data a dE One App1 19 System MEMO Vos arranco tt App1 20 n 1 Connection Multi link 2 A cag csc ice eee tee ce tah ac canal acaeeas a iota gala ace aca aril acetal tat App2 1 A A A App2 2 A A Up o o EEES App2 6 SOMMUNICIION EMO and da a App2 7 n 1 Connection Multi link a App3 1 WIN A O App3 2 A O A irsue aw ech bh ahmnurcdeiae auueusanaammumecancones App3 5 1 n Connection Multi drop e A App4 1 Wining RS24 22146 ies App4 2 E A An A roS UE A App4 2 Notes on Communication Errors ela e a ade App4 3 Ethernet A A de alee renee setae App5 1 Notes on Ethernet COMMUNICAtiONS cccccccnncccccnnnonnnnonnconnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnos App5 3 IP Addressf r Ine VESES lA A IR App5 3 Communication Interface Unit CU 03 2 oo oooooooococococcccccccccncnnonononononononoonnnonnnonnnnnnnnnonnnnnnooonnnnnnos App5 3 DS A TD App5 5 WIIN aes ec aa N e tte Ben cans ta Akl becuase said ac
194. ool Window PLC Type Comm Parameter Edit Model Selection Unit Setting Font Setting Windows Font List Modular Function Switch Setting Buffering rea Setting Memory Card Setting CF Card Setting Printer Setting Video Setting Sound Setting Barcode Setting V Link Setting Macro Setting Time Display Format SRAM Clock Setting Appendix 6 Universal Serial Communications the baud rate the signal level etc Comm Parameter Main 1 Main 2 Detail Baud Rate Signal Level RS232C RS422 ReadArea u00000 El Write Area u00050 El Read Write Area GD B0 Compatible Calendar _ u16200 El I Use Ethernet F O m if E G t T O e Comm Parameter Cancel Main 1 Mainz Detail m Connection E Cin Local No pH Parity Even y m Trans Mode T CRLF MV Sum Check Send Delay Time fo a msec Data Length Busy Time fo a lOmsec 7 hit Shit Stop Bit 1 bit C 2bit Code DEC BCD M Text Process LSBtoMSB MSB toLSB Default Cancel Apply Comm Parameter Main1 Main2 Detail Top Address for E No of Words for 20 Escape Address for 4020 Initial Screen jo SW ON Interrupt Prohibited SW OFF Interrupt Prohibited Keypad Interrupt Prohibited Screen Interrupt Prohibited Execute Flow Control J Execute 4Wire Control Default
195. option when adding CR LF Appendix 7 V Link Protocol Read with sum check and CR LF Read Command Command V7 Number Read target local micas words memory No toread setting Response Normal communication When an error occurs Read target memory setting V7 internal memory PLC memory within 16 bits PLC memory over 16 bits Temperature cotrol PLC memory within 16 bits PLC memory over 16 bits Temperature cotrol ua s s JO pevjasay uoyoauuos u Ul J9aquinN uolnels uoyoauuos u Ul Jaquiny uolnels n po9 uoisuedxg N was s JO poeAsesoy A was s JOJ panlasoy e N n 9po09 UOISUedxy N uuajs s 10 paniesay N Memory card ON poda y 2 luajs s 10 panlaesey Command Response Data Normal communication A D C 42H 41H 44H 43H A een bt 1 02H 30H31H 30H30H 34H32H 34H31H 34H34H Pa 1 30H30H30H30H30H30H30H30H30H30H Reserved for system 0000000000H 03H 38H46H C R 0Dk App7 6 Appendix 7 V Link Write with sum check and CR LF Write Command Command Number of words memory to write setting Write command Response Normal communication When an error occurs Write target memory setting V7 internal memory PLC memory within 16 bits PLC memory over 16 bits Memory card Temperature cotrol Temperature cotrol PLC memor
196. or handling routine Text Process 15 0 i LSB gt MSB MSB gt LSB EE When processing characters choose 2nd byte Istbyte either option for arranging 1st 2nd bytes 3 l l 15 0 in one word MSB gt LSB Code DEC BCD 1st byte 2nd byte Choose the code for entering numerical data For some numerical data such as those for data displays or data sampling in the sampling mode this setting is not applied because BCD or DEC should be chosen for Input Format Read Area Write Area For more information refer to System Memory page 1 12 L Read Write Area GD 80 Compatible When converting screen data files created on GD 80 into those of the V7 series this option is automatically checked When this option is checked GD 80 compatibility is supported by securing 2 words each for Read Area and Write Area in the same format as GD 80 For more information refer to the GD 80 User s Manual L Use Ethernet When using Ethernet communications check this option For details refer to 9 Ethernet in Chapter 5 Connections in the separate V7 Hardware Specifications 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 e Setting Procedure System Setting gt Comm Parameter gt Comm Parameter dialog e Setting Items Read Area 3 words or more This is the area where com
197. ose button File Edit View Help ajaj lt l ejej e Edit Network Table 0 x No Host Name IP Address Send Timeout Internal Memory Write Memory Card Memory Ethernet e Closing Select File gt Exit or click the Close button Menu and Icons Each menu item corresponds to the icons as shown below File menu Fie Edit View Help Close gle o o ejej 2 Import NetworkTable Export NetworkTable Update Y SFT Netwok Table Exit Import Network Table Imports a network table saved as a file ntb Export Network Table Exports a network table as a file ntb Edit menu ENE ajaj JESL Edit View Help Undo Ctrl zZ Redo Ghl Cut Ctrl4x Copy Ctrl C Paste Ctrl Delete Del Modify Select All Ctri A Use Monitor Registration Cancel Monitor Registration Use Monitor Registration Only one V7 series can be registered as the monitor for Ethernet communications PLG 192 168 1 58 15 Enabled Enabled 192 168 1 68 15 Enabled Enabled 101 192168 1 66 15 Enabled Enabled 101 Por A mark is shown on the left of the network table number 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 ent ee l x 1 _ Tool Bar File Edit View Help 2 y Sta
198. ould be 500 m d e Twisted pairs of 0 3 mm sq or above are recommended Appendix 2 n 1 Connection Multi link 2 App2 5 Terminating Resistance Setting For V7 Series e The terminating resistance of the V7 series should be set on the DIP switch ON 123 4 5 6 7 8 L MJ2 modular jack 2 terminating resistance CF auto load Notused CN1 RD terminating resistance at pins 24 and 25 MJ1 modular jack 1 terminating resistance CN1 SD terminating resistance at pins 12 and 13 e When the PLC and the master station are connected via RS 422 485 set the terminating resistance at the PLC and the master station CN 1 e When the V7 series master and slave stations are connected via RS 485 2 wire set the terminating resistance at the V7 series master station MJ1 2 and the terminating slave station CN1 Terminating Resistance Setting Example 1 When the PLC is connected to V7 series master station via RS 232C RS 485 2 wire RS 232C Terminal block When MJ2 is used r c c When MJ1 is used 2 When the PLC is connected to V7 series master station via RS 422 485 RS 422 485 RS 485 2 wire MJ1 2 V7 master station Terminal V7 slave station Local Port 1 block Local Port 4 When MJ2 is S oN ised le el al m m LL el ed el 1 2 3 4 5 6 7 8 12 3 4 5 6 7 8 ON When MJ1 is ami Used m m
199. outed in the direction of c and d C Connection between terminal block lt gt V706 slave station MJ2 The connecting port of the V706 slave station should be MJ2 A V6 TMP cable 3 m long is used as cable c 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 Connect the slave station to the terminal block via 4 wire connection and then install jumpers between SD and RD and between SD and RD on the terminal block as shown in the wiring diagram on the following page 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 MJ1 b MJ2 C Signal A a dis TN Si l E Name Sa eee Terminating resistance ON Terminating resistance OFF Terminal block to be installed by the user V706 slave station MJ2 Name m San BS SD SD Ci ro e z Terminal block to be installed by the user Signal Name T T Terminating resistance OFF V706 slave station e MJ2 Name i SHELL Signal Name Terminating resistance ON Terminal block to be installed by the user Set the slide switches on the V706 slave stations to the lower position RS 422 b c d e The maximum length between V706 sh
200. p7 5 and Write target memory setting on page App7 6 Model Code AAA Hexadecima AST V7 series internal memory 3030 0 to 65535 3031 PLC memory 65536 and above 3831 0 to 65535 3033 Temperature control PLC2 memory 65536 and above 3833 Type V7 internal memory 02H 3032 T temporary user memory 3034 PLC memo Depends on the PLC to be used Set the type number indicated for Available ry Memory of respective PLCs on Chapter 2 to Chapter 33 Depends on the PLC to be connected to the temperature controller and PLC2 function Set the type number indicated for Available Memory of respective temperature controllers on the Temperature Control Network Manual Set the type number indicated for Available Memory of respective PLCs on Chapter 2 to Chapter 33 when using the PLC2Way function Temperature control PLC2 memory Address Specify the memory address to be accessed 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 OOH MITSUBISHI Slot No 1 01H YOKOGAWA CPU No 1 00H YOKOGAWA CPU No 2 01H If no expansion code or port number is required enter OO 3030 in the ASCII code Port number 1 1 Multi link aeee Not used Multi dr OD ii nnna PLC port number Temperature controller ooooccocoonc o Temperature con
201. r 1 1 connection Refer to Chapter 2 to Chapter 33 b c Connection between V7 series master station lt V7 slave station The connecting port for the V7 series master station depends on the selection for Multi Link either Modular Jack 1 or Modular Jack 2 on the V SFT editor Selection of Modular Jack 2 is recommended Editor Port is set as default for Modular Jack 1 The connecting port of the V7 series slave station should be CN1 It is recommended that CN1 be equipped with a terminal converter TC485 set to 2 wire connection The multi link 2 master cable b V6 MLT is 3 m long If the distance c between the V7 series master station and the V7 series slave station is longer than 3 m use a terminal block and connect the cables d e Connection between V7 series slave station lt gt V7 slave station Use the RS 485 2 wire connection It is recommended that CN1 be equipped with a terminal converter TC485 set to 2 wire connection b c d e The maximum length between V7 series should be 500 m To avoid line noise problems connect one terminal only so that the shielded frame ground of each cable will not be connected between the V7 series The shielded frame ground of V6 MLT must be connected to the V7 series master station 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 b C
202. r occurs with the received data 05H Address error The address specified by the memory read write command is incorrect Check the address or counter and re transmit the command O6H Count error The memory read write count is 0 07H Screen error The data to be written in read area n 2 screen status command as specified by a write command is not registered on the screen Check the screen number and re transmit the data 08H Format error The number of DLEs is 0 or greater than 6 App6 42 Appendix 6 Universal Serial Communications 09H OBH OFH 10H 11H 12H Received data over The number of write command data received from the host exceeded that of data shown below e Write memory command 512 words e Write CHR command 1024 bytes Retry command error When a retry command is received there is no BUSY status NAK 01 command ETX error No ETX code is found DLE error There is no DLE code Character error A character not used in the received data is found other than 0 to F Check the character and send the command again Command error An invalid command is given Appendix 6 Universal Serial Communications App6 43 1 byte Character Code List App6 44 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 syste
203. reen forced switching 0 gt 1 leading edge Multi overlap Level with i Data read refresh 0 gt 1 leading edge ever witrexcepuons gt WA A A AR AR AR AR AR i SS i SS i Ss A Met es 1 Before Connecting to PLC 1 13 e SCRN_No n 2 Screen number command BE RE aL AA Screen number System reserved setting 0 Use example To specify a screen number from the PLC When DO is set for Read Area the screen number is written in D2 of the PLC Problem example The screen display does not change when a screen number is specified from the PLC If the same number as the one specified for n 2 is already contained in this memory address the screen display does not change even if it is specified again For example if screen No 5 is specified from the PLC and it was once changed to screen No 2 No 0 by internal switches normally it cannot be returned to the former screen No 5 that was specified by an external command because the external screen command number 5 remains the same as before in the memory address D2 in the read area for the screen number command In such a case it is possible to forcibly switch the screen to the screen number contained in D2 in the read area at the leading edge 0 gt 1 of bit 14 of the memory address for the screen status command D1 in the read area Screen No 5 Jrz Read area n 2 Screen number comman
204. repeatedly disconnecting and reconnecting the two computer PLC and V7 PLC cables when the V7 series is directly connected to a PLC equipped with only one CPU port With the ladder transfer function however it is possible to write ladder programs or monitor the PLC memory using the V7 series without disconnecting and reconnecting the cables Applicable Models FX2N series CPU FX2N 1N FX2NC MelFx lcm FX1S series CPU FX1S 1 n communication multi drop multi link communication and multi link 2 communication cannot be executed 16 16 16 MITSUBISHI ELECTRIC PLC Connection e When connecting the V7 series CN1 to the PLC CPU port use a 1 1 communication cable as previously described e Use Hakko Electronics V6 CP cable when connecting the computer PLC programming software and the V7 series MJ1 2 1 1 communication cable Computer PC Communications between the computer and the PLC ama Communications between V7 and the PLC gt e When using the V SFT editor and the PLC programming software When using two V6 CP cables When the computer has two COM ports use one port for the V SFT editor and the other port for the PLC programming software Use the V6 CP cables It is not possible to transfer the V SFT editor and the PLC programming software at the same time
205. ress Set the maximum value of the port numbers for the PLC or the V7 series Source No Set the V7 series port number Set different numbers for Source No and Local No and be sure that Source No lt Highest MPI Address Highest MPI Address setting example If port numbers 13 and 20 are selected respectively for the PLC and the V7 series select 31 T1500 505 TI500 505 V4 Setting on PLC V7 Comm Parameter Setting Transmission Data length 8 xed a Stopbit 1 fixed 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 S5 S5 V4 S7 Use memory address DB1 and later for S7 or DB3 or later for S5 IW as word device read only DB data register input relay Q output relay QW as word device read only F flag internal relay FW as word device read only only in S5 series M flag internal relay MW as word device read only only in S7 series T timer current value Read only counter current value absolute address Read only m Unavailable with the S7 series The assigned memory is indicated when editing the screen as shown below Example For S5 S5 V4 For S7 DB003 000 DB003 0000 Laces Block number Colon Block number Notes on V4 or GD 80 data conversion
206. ring Diagram 1 PCD 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 Ao Transmission Data length Ba i S BUS Configuration S BUS Mode Parity GU Port Number O PGU port 1 PCD7 F120 PCD4 F110 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 COM ECT E 9 A ETT NE PSS amero E CONTO S SSS C ECT E 20 SAIA PLC Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male PLC Signal l E ot freal y fay 1 Pin No 1 of CN1 is used Se EE W as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG Wiring Diagram 2 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male a PLC igna Nane Pin No Pin No PCD7 F120 EN SHELL t sole 2 wlr 3 4 Pin No 1 of CN1 is used ES e as FG Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG RS 485 Wiring Diagram 3 V706 V Series MJ2 CN1 RJ 45 8 pin D sub 25 pin male EEE fot pe pon refs fr sof so fe Ju mof 7 fa EEE
207. ring Diagram 5 SU 5E 6B RS 232C Wiring Diagram 1 Universal port 1 on CPU RS 485 Wiring Diagram 7 RS 232C i KOYO s programmer connecting cable S 30JG E Universal port 3 on CPU RS 485 Wiring Diagram 8 Universal port 2 on CPU RS 232C 1 PORT1 on CPU programmer port KOYO s programmer connectin ble S 30JG E SU SG SZ 4 PORT2 on CPU La K Sequence universal communication port KOYO s conversion PORT1 on CPU programmer port connector cable S 15CNJ RS 232C 1 KOYO s programmer connecting cable S 30JG E pan os ii KOYO s ER eae universal communication port convectorcable SASEN KOYO s conversion connector S 15HCNP1 4 When connecting to MJ2 on the V706 use an MJ2 PLC adaptor plus the designated cables Programmer port on CPU SU 5M 6M 13 KOYO ELECTRONICS PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows pepe fe a Faos O omane OOOO S Response delay ow S S S 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 SU SG SU SG K Sequence TYPE C CT C E ao wwen e oo C S s eos AO C NET sa wwa Je o ooo o K a e emon e SR T SR T K Protocol TYPE w ees o SSS CCT MEJO SSS CON A SSS CMT ECT CONTI MCU SS menos A YA
208. rite CHR command is sent and an NAK error code 01 is returned e Retry command E command Retry command re sends the command A which is waiting Host side V series side 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 App6 36 Appendix 6 Universal Serial Communications Interrupt Setting Command e Interrupt setting command Interrupt setting command Host side V series side A C Host side Interrupt conditions can be specified when the interrupt data bit is set Datalnterrupt status HEX ASCII lt Interrupt Conditions gt ar os 05 o os 62 ox 00 0 Interrupt prohibited Switch ON 1 Interrupt allowed Switch OFF Keypad write amp character entry Screen internal switching Switch ON Interrupt when the switch changes from OFF to ON only when Action of the switch is Normal Block Block Block or Mode Switch OFF Interrupt when the switch changes from ON to OFF only when Action of the switch is Normal Block Block Block or Mode Keypad write Interrupt when the ENTER switch on the keypad is pressed Screen internal switching Interrupt when the screen changes based on an internal switch Macro OUT_ENQ Interrupt enabled all the time Example Interrupt settings are shown below Switch ON Prohibited Switch OFF Prohibited Keypad c
209. rk table No 0 is displayed It is not possible to select an option for Connect To Select System Setting gt Network Table Setting gt Ethernet gt The Edit Network Table window is displayed Set the network table and then go back to the communication parameter setting For more information on network table editing refer to page App5 16 x Main 1 Detail Signal Level R52322 ASAZ Read Area Dooo00 Write Area D00050 El T Read Write Area GD 80 Compatible Calendar u16330 El IV Use Ethemet Connect To 0 x Default OK Cancel When the network table is set The IP addresses that are set on the network table are displayed Select the IP address of the desired PLC l Read Write Area GD 80 Compatible Calendar u16330 El V Use Ethemet Connect To 0 192 168 1 58 PLC Default OK Click here A drop down list is displayed e When communicating with multiple PLCs same model on the Ethernet select 1 n for Connection on the Detail tab window x Main1 Detail Connection Y Setting Local No fo E m Comm Err Handling ati Even gt e Stop C Continuous Trans Mode xl Data Length Send Delay Time jo 4 msec O 7 bit B bit Start Time jo Er sec Stop Bit Stop BI Retrials 3 E e 1 b t Zit Time Out Time 50 Ha Omsec Code e DEC C BCD m Text Process LSBtoMSB MSBtoLSB Default Cancel Apply
210. rved setting 0 2 Allen Bradley PLC 2 1 2 Allen Bradley PLC Available PLCs Select PLC Type Unit Port Connection 1785 KE RS 232C Wiring Diagram 1 PLC 5 PLC 5 i 1770 KF2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 6 CPU processor module 7 l e channel RS 232C Wiring Diagram 3 SLC500 SLC 5 03 and later ease INE A 1747 KE i iring Diagram RS 422 Wiring Diagram 7 A B s RS 232C Ladder transfer cable RS 232 Wiring Diagram 5 Control Logix Control Logix 1756 system Logix5550 4 When using RS 232C ladder transfer cable made by Allen Bradley connect the cable shown in Wiring Diagram 3 to the D sub 9 pin side of the ladder transfer cable for communications with the V7 series 2 For more information on connection to A B Control Logix refer to Connection with A B Control Logix separately provided Micro Logix 1000 Micro Logix 1000 Port on CPU Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows PLC 5 Series V7 Comm Parameter Setting Pot ooo e Transmission RS 2820 2 2 2 Allen Bradley PLC SLC500 Series CC A O S RA CS ATT TCTT A ETE ATT A Rems o oe SiS Micro Logix 1000 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
211. s MJ2 CN1 RJ 45 8 pin D sub 25 pin male Name 4 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 12 8 12 KEYENCE PLC MEMO Please use this page freely 13 KOYO ELECTRONICS PLC 13 KOYO ELECTRONICS PLC Available PLCs Select PLC Type PLC Unit Port Connection SU 5 5E 6B 5M 6M U01 DM Re 2326 inng Diegran 1 RS 422 Wiring Diagram 3 SU 5E 6E 3 iri Universal port 1 on CPU a peng Diagram 1 RS 422 Wiring Diagram 7 SU 5M 6M Universal port 3 on CPU RS 485 Wiring Diagram 8 Universal port 2 on CPU RS 232C KOYO s programmer connecting cable S 30JG E PORT2 on CPU SZ 4 universal communication port KOYO s conversion connector cable S 15CNJ RS 232C i SU SG KOYO s programmer connecting cable S 30JG E SZ 4M PORT2 on CPU KOYO s conversion universal communication port connector cable S 15CNJ KOYO s conversion connector S 15HCNP1 RS 232C Wiring Diagram 1 G01 DM gc ww RS 422 _ Wiring Diagram 4 RS 232C Wiring Diagram 1 Pan RS 422 Wiring Diagram 4 P73 Universal communication port on the CPU RS 232C Wiring Diagram 2 unit RS 485 Wiring Diagram 6 g RS 232C Wiring Diagram 1 sacs RS 422 Wiring Diagram 3 SR T SR 6T Toyota version G01 DM RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 4 SR T K Protocol SR 1T Toyota version Terminal block on the CPU unit RS 422 Wi
212. s can be used Num Data Display Graph Sampling data is processed as double words For those where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits 2 Use DX for D1000 to 2999 FX2N Series D data register TN timer current value CN counter current value 32CN counter 32 bits internal relay state X input relay Read only Y output relay TS timer contact CS counter contact HEN 4 For numerical data format where double words can be used Num Data Display Graph Sampling data is processed as double words For those where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits 16 MITSUBISHI ELECTRIC PLC FX Series A Protocol PE TN timer current value CN counter current value 32CN counter 32 bits s2cN countera EN E O 1 CN200 to CN255 equals 32CN 32 bit counter 2 For numerical data format where double words can be used Num Data Display Graph Sampling data is processed as double words For those where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits Wiring Wiring diagrams with the PLC are shown below RS 232C Wiring Di
213. s used Use shielded twist pair cables as FG The metal shell of the modular jack 2 on the V706 is used as SG PLC D sub 9 pin male 22 SHARP PLC 22 SHARP PLC Available PLCs JW50 JW70 JW100 JW50H JW7OH ZW 10CM RS 422 Wiring Diagram 4 JW100H lid O JW series JW20 i JW 31CUH JW 21CM RS 422 Wiring Diagram 4 JW100 70H JW70CU JW100CU me l COM port JW70CUH JW100CUH Communication port on the RS 232C Wiring Diagram 1 CPU unit JW22CU RS 422 Wiring Diagram 3 O RS 232C PG COMM2 O JW20 Communication port 1 on the Kiring Diagrami 2 COM port JW 32CUH CPU unit RS 422 JW 33CUH Communication port 2 on the PG COMM1 O CPU unit Wiring Diagram 5 PG COMM2 Wiring Diagram 5 Communication Setting The recommended communication parameter settings of the PLC and the V7 series are as follows Baud rate 19200 bps Transmission mode JW Series Link Unit Switch Setting Baud rate 19200 bps swo swi sw o T Staton aeres teperta swo2 on CN SW3 4 O oN Even parity Sw4 Baud rate 0 19200 1 9600 2 4800 3 2400 4 1200 5 600 Oo sw oN Terminating resistance provided 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 e JW 70CU 100CU JW70CUH 100CUH JW22CU 236 Stop bit 2 bits parity even baud rate 19200 e JW 32CUH 33CUH
214. server to access the memory device such as V7 internal memory memory card or the PLC memory linked with the V7 series as a host a The macro command SEND enables the V7 series to access the server b Server Ethernet lt V7 gt App5 2 Appendix 5 Ethernet Screen data can be transferred from the V SFT editor on the server to the V7 series Server Ethernet lt V7 gt 00000000 RS 232C RS 485 e Communications between the Ethernet ready PLC and the V7 series The MONITOUCH can communicate with the PLC on the Ethernet Ethernet G006 050 lt PLC 1 gt lt V7 1 gt Ethernet ready PLC only The MONITOUCH can communicate with multiple PLCs on the Ethernet Ethernet O Q lt PLC 1 gt lt PLC n gt Ethernet ready PLC only Appendix 5 Ethernet App5 3 Notes on Ethernet Communications For V7I e 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 When CU 03 2 is mounted the 10BASE T connector LAN provided on the unit cannot be used e When using Ethernet communications with CU 03 2 mounted the Web server or e mail functi
215. smission mode w o CR LF w sum check STX Command Address wW M 57H 4DH 02H 57H 4DH 10H 30H 35H 41H 44H 30H 30H 30H 31H 30H 46H 32H 41H 03H 4DH However in the case of an interrupt data from ENQ to ETX is subject to a sum check e Error code An error code is sent along with an NAK response An error code is transmitted as a two digit ASCII code HEX For more information refer to page App6 41 Appendix 6 Universal Serial Communications App6 29 Response Time and BUSY Response time varies depending on the type of command Command RM RI RC 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 If the status is BUSY and the display is completed within the time set in Busy Time a response is sent If the display is not completed within the specified time an NAK 01 BUSY signal is sent In this case it is necessary to retransmit the command When Busy Time is set as 0 the machine waits until the display is complete and then a response is transmitted after a command is executed Host side command V series Response i T
216. son e Do not use a sharp pointed tool when pressing a touch switch Doing so may damage the screen e Only experts are authorized to set up the unit connect the cables or perform maintenance and inspection e For MONITOUCH using a lithium battery handle the battery with care The combustible materials such as lithium or organic solvent contained in the battery may generate heat explode or catch fire resulting in personal injury or fire Read related manuals carefully and handle the lithium battery correctly as instructed e When using a MONITOUCH that has analog switch resolution with resistance film do not press two or more points on the screen at the same time If there is a switch between the two pressed points it may be activated e Take safety precautions during such operations as setting change during running forced output start and stop Any misoperation may cause unexpected machine motions resulting in machine accident or damage e In facilities where a failure of MONITOUCH could lead to accident threatening human life or other serious damage be sure that the facilities are equipped with adequate safeguards e At the time of disposal MONITOUCH must be treated as industrial waste e Before touching MONITOUCH discharge static electricity from your body by touching grounded metal Excessive static electricity may cause malfunction or trouble General Notes Never bundle control cables and input output cables with high voltage
217. ssion mode Trans Mode 1 1 Select RS 485 when the link unit FX2N 485 BD FX2N 422 BD FX1N 485 BD FX1N 422 BD or FXON 485 ADP is used We recommend to set 2 ms or above for Send Delay Time in the Detail tab window of the Comm Parameter dialog of the V7 series 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 ON x10 x1 gt gt Sw11 SW12 E SW13 SW14 SW15 A SW16 A OFF SW17 ON SW18 E SW21 E SW22 SW23 A SW24 A1SJ71C24 R2 A1SJ71UC24 R2 Example 2 Signal level RS 232C baud rate 19200 bps transmission mode 1 STATION No STATION No MODE ON SW03 SWO04 SW05 SW06 SW07 ON SWO8 SWO09 OFF SW10 SW11 m E m E ll E E m E SW12 AJ71QC24 A1SJ71QC24 AJ71QC24N Example 3 Baud rate 19200 bps STATION No STATION No MODE ON x1 gt swo1 E swo2 E SwO03 a swo4 E swo5 E swo6 E OFF sw07 a ON SWO08 a swog E sw10 a Swit E sw12 E 16 MITSUBISHI ELECTRIC PLC A1SJ71UC24 R4 A1SJ71C24 R4 Example 4 Signal level RS
218. station number for each V series Parity None Odd 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 Set whether or not there should be a CR LF or sum check at the end of transmission data Appendix 6 Universal Serial Communications App6 21 e Data Length Fixed at 8 bits e Stop Bit Stop bit settings are shown below 1 bit 2 bits e Code Fixed at DEC e Text Process When using text process choose either LSB to MSB or MSB to LSB in order to make arrangements for the order of the first and the second bytes in one word 15 O LSB gt MSB 2nd byte 1st byte 15 0 MSB gt LSB 1st byte 2nd byte Standard Type Protocol Standard Type Protocol The connection mode and transmission mode are set in Comm Parameters under System Setting Refer to 1 Before Connecting to PLC The mode contents are as follows e Connection mode 1 1 Used when one host communicates with one V series unit 1 1 1 n Amaximum of 32 V series units are possible to be connected to the host Multi drop specifications e 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 Set whether or not to attach sum check or CR LF to the end of transmission data Indicates that th
219. t compatible with multi link 2 connection is displayed Appendix 2 n 1 Connection Multi link 2 App2 7 Communication Parameter Setting e Setting Procedure System Setting gt Comm Parameter gt Comm Parameter dialog e Setting ltems 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 For the V7 series slave station set the items marked with Local Port 1 to 4 Set the port number of the V7 series For the V7 series master station set 1 For the V7 series slave station set 2 to 4 Set the unique port number for each V7 series If the number duplicates communications will not be performed correctly Send Delay Time 0 to 255 Unit x1 msec PLC Set a time delay in sending the response to the PLC after receipt of data from the PLC MONITOUCH She Normally use the default setting 0 os Send delay Total 2 to 4 iment Set the total number of the V7 series included in the multi link 2 connection Retry Cycle x 10 Set the number of cycles before the master station sends an inquiry for restoration to the slave station that has a communication problem system down When a slave station has a problem it is temporarily removed from the communication targets and the master station sends an inquiry for restoration every number of cycles specified for Retry Cyc
220. t side command V series side Interrupt occurrence Interrupt data Response e Interrupt code When a regular switch is pressed When the ENTER switch on the keypad is pressed When a screen internal switching occurs 10H In the case of macro command user setting 2FH 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 o 1D o ETS Transmission clL data L TIU RIF PatA JE PartB X M HL Transmission D Transmission D Transmission EJS cli i ll P sequence L data L data Tlu When V series data is RIF read from the host side El PatA E PatB x M HL 25083300 E wn Xx 25083300 o 1D o IETS Transmission CIL data L Tlu RIF El PatA JE PartB X rf HL Transmission sequence E When the host writes data on the V series A or Appendix 6 Universal Serial Communications App6 25 lt Interrupt Processing See page App6 38 and page App6 39 gt e Interrupt conditions An interrupt code is sent to the host for the following actions When the switch status changes from ON to OFF or from OFF to ON When the ENTER switch on the keypad changes from OFF to ON If _ Use the Write Flag in System Setting is checked write enable bit must be set in order to send interruption When the screen changes by using an internal switch Wh
221. tab 3 Check Use serial communication Set the options such as a baud rate 16 MITSUBISHI ELECTRIC PLC ite Program 1 18 Device comment Lp To VELADA Par g i Remote pass El Device memory B Device init n H Parameter PLC name PLE system PLCfle PLCRAS Device Proce Boot file SFC 140 assignment w C serial communication Transmission speed 19 2Kbps T MV Sum check Transmission wait time No waiting time y RUN write setting V Permit Be sure to check these boxes Data format value is fised as below Start bit 1 Parity bit Odd Data bit 8 Stop bit 1 Set the V7 communication parameters as shown in this box Acknowledge XY assignment Multiple CPU settings Default shect End Cancel 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 The maximum baud rate available with the V7 series is 115200 bps Select the appropriate baud rate depending on the used PLC and environment FX Series CPU FX2N Series CPU FX1S Series CPU Communication parameters for the V7 series are automatically set FX Series Link A Protocol Protocol Special protocol communication fixed A H W type Normal RS 232C RS 232C Transmi
222. tached to CU 03 2 App5 8 Appendix 5 Ethernet e 10BASE2 The following devices are required for 1OBASE2 connection Coaxial cable for 1OBASE2 AUI cable T type adaptor Terminator for 1OBASE2 Transceiver Power supply for the transceiver 12 VDC e Transceiver 1 segment max 185 m max 30 nodes Ethernet unit Minimum node interval 0 5m AUI cable max 50 m To extend the segment distance or e increase the number of nodes use repeaters Ethernet PLC unit Maximum segments 5 Maximum network distance 925 m m o Maximum network nodes 100 Transceiver The unit may have a built in transceiver Refer to the instruction manual for the unit 2 12 V power supply is required for each transceiver Use the transceiver equipped with the SQE TEST function SQE TEST Signal Quality Error Test Recommended transceiver Allied Telesis CentreCOM 107 The I F unit may be broken if the AUI connector is subject to strong force Use the AUI cable when connecting the transceiver When the power lamp of the transceiver is not turned on check the wiring of 12 VDC power supply then replace the fuse refer to page App5 4 of the I F unit CU 03 2 For the replacement procedure refer to the manual CU 03 2 OPERATING INSTRUCTIONS attached to CU 03 2 Appendix 5 Ethernet App5 9 Transferring Screen Data This section describes the procedure for transferring screen data from the V SFT e
223. ted at the MJ port e The code of the received data is invalid Check 1 2 3 described below An error occurs at the PLC connected at the MJ port Refer to the instruction manual for the PLC Buffer full The V7 buffer is full Contact your local distributor An error occurred in parity check Check 2 3 described below After one character is received the next character is received before internal processing is completed CHEE le Geog Although the stop bit must be 1 it is detected as 0 Check 1 2 3 described below Examine the connection between SD TXD SD TXD of the PLC connected at the MJ port remains at of the PLC connected at the MJ port and RD the low level RXD of the V7 series Break detection Solution 1 Check the parameter setting of the PLC connected at the MJ port and the setting in the Temp CTRL PLC2Way Comm Setting dialog 2 Check the cable connection 3 Data may be disrupted because of noise Fix noise If you still cannot solve the error even after following the suggestions above contact your local distributor App1 22 Appendix 1 PLC2Way e s762 Periodical reading that is set in the Temp CTRL PLC2Way Table Setting dialog can be suspended O 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 th
224. 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 e Constant read from the PLC memory e Data sampling in the PLC2 memory Read Cycle sec Set the cycle of reading data in the PLC2 memory Store Target PLC Memory When storing data read from the PLC2 memory into the PLC memory check this box and set the desired memory address Store Target Internal Memory When storing data read from the PLC2 memory into the V7 internal memory check this box and set the desired memory address Temp CTRL PLC2Way Comm Setting Clicking this button brings up the Temp CTRL PLC2Way Comm Setting dialog and allows you to review the setting 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 Trend sampling or data sampling setting setting for displaying data stored in the specified buffer Buffering area setting Click System Setting Buffering Area Setting The Buffering Area Setting dialog is opened
225. tiple V7 series e To use Ethernet communications a communication interface unit is necessary e To perform communications with the PLC at the MJ port using PLC2Way function use the RS 232C or RS 485 2 wire system for connection February 2004 Field Controller PLC 5 SLC500 Allen Bradley Micro Logix 1000 Control Logix Direct LOGIC Direct LOGIC K Sequence DELTA DVP series FANUC Power Mate FATEK AUTOMATION FACON FB series MICREX F series SPB N mode amp FLEX PC series SPB N mode amp FLEX PC Fuji Electric CPU FLEX PC COM T FLEX PC T FLEX PC CPU T 90 series GE Fanuc 90 series SNP X Automationdirect MICRO3 IDEC MICRO Smart KZ series link KZ A500 CPU KZ KV series CPU KEYENCE KZ24 300CPU KV10 24CPU KV 700CPU SU SG KOYO ac ELECTRONICS SR T K Protocol SU SG K Sequence MASTER K10 60 200 MASTER K500 1000 MASTER KxxxS LG MASTER KxxxS CNET GLOFA CNET GLOFA GM series CPU Matsushita Electric MEWNET Works Hitachi HIDIC S10 20 MN HIDIC S10 ABS AO n 1 Field Controller NN oe E PES Mut sa M outs EIA ae A n A series link o A series link o link QnA series link QnA series link link QnA series CPU ia EAN QnH Q series link QnH Q series link series link MITSUBISHI AAA ELECTRIC Fe SS a coc Fe Pe AE O LAO peta lt a A EE A persa UR gt TSE es eee peer TO el E AE pm SS IS ES SA E O A A AAA SSL LE AA
226. troller port number File No Specify the file number set in the Memory Card Setting dialog of the V SFT editor Record No Specify the record number set in the Memory Card Setting dialog of the V SFT editor System reserved Enter 0 30 in the ASCII code for the number of bytes The number of bytes for system reserved varies depending on the model Example V7 internal memory 0000000000H 30303030303030303030 Sum Check Code SUM 2 bytes Data is added up SUM and the lower one byte 8 bits of the sum is converted into the 2 digit ASCII code hexadecimal A sum check code is shown below Example Transmission mode without CR LF with sum check Command 20 data read Address 10 words from u1000 03E8H When reading a sum check will be performed as shown below STX V7 portnumber Command Read words Memory model Memory type Address System reserved ETX SUM 01H 20H OAH 00H 00H 03E8H 0000000000H B9H 30H31H 32H30H 30H41H 30H30H 30H30H 30H 33H 45H 38H 30H 30H 30H 30H 30H 30H 30H 30H 30H 30H 42H39H 02H 30H 31H 32H 30H 30H 41H 30H 30H 30H 30H 30H 33H 45H 38H 30H 30H 30H 30H 30H 30H 30H 30H 30H 30H 03H 4B9H Response Code 2 bytes ACK This code is received at normal termination OOH 3030 ASCII NAK This code is received at abnormal termination ASCII For more information refer to page App7 9 Appendix 7 V Link NAK Error
227. tus Bar nternal Memory Write Protect lemory Card Memory Write Protect Ethernet Editing the Network Table Double click the number The Set Network Table No dialog is displayed Set Network Table No 1 File Edit View Help Bl T db Ba ej 2 Host Name 7 IP Address i 92 168 1 68 Edit Network Table o N Host Name IP Address Send Timeout Internal Me Send Timeout M5 sec Port No 10000 Network table num be r Select Port e JOBASE T C AUI Memory Protect M Internal Memory M Memory Card Memory M Default Gateway Sub Net Mask cancel Host Name Set the name for the V7 series etc to be used on the Ethernet IP Address Set the IP address When registering Ethernet ready PLC set the same IP address as that of the PLC For the setting procedure of the IP address on the PLC see the manual attached to each PLC When registering a computer as the server set the same IP address as that of the computer When setting the IP address on the computer open Property of TCP IP in Network on the Windows To connect to the intra company network consult with the network administrator Appendix 5 Ethernet App5 19 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 depe
228. u go from the menu bar to Edit to Screen Setting you can select between 1output or 2 outputs For 1 output the switch number and switch information are written in n 3 For 2 outputs the switch number and switch information are written in n 3 and n 4 when 2 switches are pressed simultaneously x P1 P2 Back Color F CS A Tel e EG TA Terr T ji Switch Output 1 Output C 20utput J Item Select Memory poo EEN Receive Slice Level 40 Appendix 6 Universal Serial Communications App6 41 The switch number is written in the following way in write areas n 3 and n 4 n 3 n 4 SWO0 SW1 is aa i 2 1 9907 66 5 64 63 2 os oo Switch status B Switch number 0 OFF 1 ON When the MONITOUCH is connected to the host in a 1 1 connection interrupt occurs as is shown below For RS 422 485 2 wire connection interrupts cannot be used When a regular key is pressed E o N Screen No SWO SW1 ENTO ENT1 V series side Q WORD WORD WORD WORD WORD Error Codes NAK 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 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 erro
229. unt to be read max 2000 words DeviceType Address of the device to be read Refer to Chapter 2 to Chapter 33 addr Top memory address to be read For YOKOGAWA or YASKAWA PLCs specify a number 1 for the address addr Example D400 399 D25 24 IpAddr IP address shown as a string of characters separated by dots Example 192 168 XXX XXX DFlag 0 1 2 Refer to the table below e Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError e Priority and communication procedure depending on the DF lag setting are shown below DFlag Communication Procedure Communications PLC Read write request Memory card A A Response _ _ _ _ _ Acknowledge of completion j Yt OOK 1 Display Response _ 2 Display Read write request meron _ Acknowledge of completion O Appendix 5 Ethernet Read Double words from PLC Memory int HKEtn_ReadPlcMemory2 DWORD dp unsigned short Wordcnt int DeviceType DWORD addr char IpAddr int DFlag 1 This function is retained until PLC data is transferred from the V7 series e Parameters dp Wordcnt DeviceType addr IpAddr DFlag e Return values Success Failure Error details Target pointer of the data to be read Word count to be read max 1000 words Address of the device to be read Refer to Chapter 2 to Chapter 33 Top memory address to be read For Y
230. with the PLC is shown below RS 232C Wiring Diagram 1 V706 V Series MJ2 CN1 PLC RJ 45 8 pin D sub 25 pin male D sub 9 pin male Signal SAELE KN o i TON ia Use shielded twist pair cables The metal shell of the modular jack 2 on the V706 is used as SG 12 KEYENCE PLC 12 KEYENCE PLC Available PLCs Port 1 RS 232C Wiring Diagram 1 KZ series link KZ L2 Port 2 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 Port 1 RS 232C Wiring Diagram 4 Port 2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 6 RS 232C Wiring Diagram 5 or CPU modular port KEYENCE s cable OP 26487 KZ A500 MITSUBISHI A series link KZ 10 16 24 40 80 300 350 2 KZ KV series KZ KV series CPU KEYENCE s connector OP 26485 KZ24 300CPU KZ 24 300 2 CPU modular port RS 232C Wiring Diagram 5 or KV10 24CPU KV 10 24 CPU modular port KEYENCE s cable OP 26487 KV 700CPU KV 700 CPU modular port KEYENCE s connector OP 26485 4 For connection to MJ2 of a V706 use an MJ2 PLC adaptor plus KZ C20 and MB CPUQ 2 To connect KZ 24 300 via RS 232C select KZ24 300CPU for the PLC type on the V SFT editor 3 To connect KZ 10 24 via RS 232C select KV10 24CPU for the PLC type on the V SFT editor 12 KEYENCE PLC Commun
231. y within 16 bits PLC memory over 16 bits wajs s JO parJasay uoposuuos u Ul Jaquiny uoneys uopyosuuos u ul Jaquiny uoes ON Pp I099yY po uoisuedxy N W S S JO panlasoy E wuajs s 10 panlasoy N po uoisuedx4 N tuajs s JO panlasey weajsAs JO pantesey o N N Command Write Number command 9f words Model Type Address to write A 2 21H 02H 01H 32H31H 30H32H 30H31H Response Normal communication Appendix 7 V Link App 7 7 Data Items for Protocols e Transmission control code 1 byte STX 02H Start of transmission block ETX 03H End of transmission block e 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 The port number of the V7 series should be set on the V SFT editor Refer to V SFT Setting e Command 2 bytes Available commands are shown below 20H 32 30 Read from memory e The number of words to be read or written 2 bytes Set the number of words to be read or written by one command The data range is from 01H to FFH 1 to 255 and is converted into the ASCII code before use e Memory address to be read or written 18 bytes Specify the memory address to be accessed Set the following code in the format as shown for Read target memory setting on page Ap

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