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V6 Hardware Specifications

1. F Daver Display lt gt Card Font Data V6 Program Start Cancel POWER O Procedure of Data Transferring 1 Port Selection Select the Modular Jack MJ1 switch or Modular Jack MJ2 in case of using a modular jack Select the Memory Card Socket switch in case of using a memory card interface When each switch is pressed the Memory Card Information window is displayed In case of V606 V606i pressing the Close switch leads to the original screen after checking the memory card information Memory Card Memory Card Mernory Card Inforrnation Port Selection Modular Jack Memory Card Socket Sys Program Version Font Data Transfer Version VF Driver Display lt Card Version Screen PLC Type Screen Comment Display gt Card Data Selection DIESER lt gt Can Screen Data Font Data Start VF Driver Sys Program Cancel In case of selecting Memory Card from Modular Jack 2 in the Others dialog of V SFTE it is possible to select the Modular Jack 2 switch in the Port Selection menu of the Memory Card screen on V6 Memory Card 2 Data Selection Transfer Pressing each switch leads to selection of the target for data transferring Possible to select multiple items Data S
2. RS 485 Self Loop Test POWER In case of V606 V606i when the switch A on the Main Menu is pressed the following I O Test is displayed Then the Serial Test switch on the I O Test is pressed The following Serial Test is displayed The self loop test can be executed on this screen 12 24 30 SYSTEM Press the I O Test switch EX E D mE A Press the Serial Test switch Serial Test vorTes Self Loop Test Please refer to the manual Hardware Specifications Communication Port IER Self Loop Test 1 Operation of UJ 6 Main Menu 1 41 A Self loop Test This is the test menu to check the signals necessary for V6 to communicate with PLC or a personal computer by using only V6 OSignal Test of RS 232C in CN1 Select CN 1 and RS 232C in Communication Port by pressing each switch Communication Port CN1 RS 232C MJ1 RS 485 MJ2 e Loop back Test Check the signals SD and RD 1 Jump pins 2 and 3 of CNI 2 The test is OK if the OK lamp turns on when the Self Loop Test switch is pressed If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor l N MC o l Self Loop
3. drum step set value drum step current value fixed memory system state 1 In case of using DCP drum count set value set the drum step No 1 to 16 The assigned memory is indicated while editing the screen as illustrated TYPE 1 7 11 oo BR OT rn 0 nm O Read only lt E g gt DCP30000 1 e Drum step No Colon Address No ED 2 siemens pices Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 9 Notes on converting the data file of V4 or GD 80 into the V6 data file When converting the data file of V4 or GD 80 into the V6 data file the PLC type is automatically selected as TI500 505 V4 In V4 or GD 80 the order of words is reversed when the double words In V4 or GD 80 In V6 MSB LSB MSB L 1 word 4 L 2 words LSB HIGH order word L 1 word 1 LLL 2 words Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 PLC D sub 25pin Male rg D sub 9pin Female U RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables 2 SIEMENS PLC 6 MS A SIEMENS PLC e 6 S7 300 400MPI Available PLC Wiring Diagram Select PLC Type Apapter refer to P2 98 S7 300MPI SIEMENS S7 300 400 ser
4. timer current value Read only counter current value Read only AS absolute address Q F T C 9 The assigned memory is indicated while editing the screen as illustrated E g DB003000 t Address No Block No 2 88 2 SIEMENS PLC e 1 9 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 9 Notes on converting the data file of V4 or GD 80 into the V6 data file When converting the data file of V4 or GD 80 into the V6 data file the PLC type is automatically selected as SIEMENS S5 V4 In V4 or GD 80 the order of bytes in I input relay Q output relay and F internal relay is reversed F0000217 F0000207 F0000217 F0000207 Memory setting F0000210 F0000200 Memory setting F0000210 F0000200 of V4 or GD 80 E of V6 d n5 t4ja 1251 10 9 8 7 6 5 4 3 2 1 0 95j14J13 12 11 10 9 8 7 6 5 4 3 2 1 0 Memories to be accessed zl d Memories to PLC by V4 or GD 80 F20 0 F21 0 to be accessed F21 0 F20 0 F20 7 F21 7 to PLC by V6 F21 7 F20 7 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC D sub 25pin Male M Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC A D sub 25pin Male m Use twist shielded cables 2 SIEMENS PLC e 2 CTI siemens PLC 2 S5 115U 135U
5. mo PLC Sesa PLoTs mo Link Unit The recommended communication parameter setting of both PLC and V6 is as follows pay Transmission Data Length 7 E e E LL Sumhek Provided fixed Terminal Character None fixed AAA Protection Function None fixed S Available Memory ers a po 8 omnonveasiog a a a eea 3 OP emanan vals MESE 8 Doe 31 E Y wwama 7 EE AC Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 YOKOGAWA PLC e 1 CT Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC D sub 25pin Male i Use twist shielded cables RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male mM Use twist shielded cables ED voccs ric gt 2 A YOKOGAWA PLC 2 FA M3 Available PLC Wiring Diagram Select PLC Type Link Unit refer to P2 46 Programming tool port Cable made by YOKOGAWA on a CPU module 1 KM1 1 2N F3LCO1 1N RS 232C Wiring Diagram 1 F3LC11 1N RS 232C Wiring Diagram 1 F3LC11 2N RS 422 Wiring Diagram 2 FA M3R FA M3 R Programming tool port Cable made by YOKOGAWA on a CPU module KM1 1 2N 1 CPU types which can be connected directly to program
6. Hardware Specifications MONITOUCH V6 HAKKO TOUCH OPERATION FLAT PANEL MONITOUCH V6 Record of Revision Printing Date Revised Contents February 1998 2021 NEO First Edition February 1999 2021 NEOa Second Edition January 1999 2021 NEOb A partial revision Matrix type Multi Link 2 Temperature Control Network Change model names of V6 CBM printer supported MITSUBISHI FX2N series QnH OMRON SYSMAC CSI A B Micro Logix1000 SIEMENS S7 200 KEYENCE KZ A500 CPU Port KV series FATEK AUTOMATION FB series IDEC MICRO3 MODICON Modbus RTU YAMATAKE MX 200 50 March 2000 2021NEI A partial revision SIEMENS S5 PG port TAIANTPO2 November 2000 2021 NE2 A partial revision V606i MITSUBISHI QnH CPU port YOKOGAWA FA M3R OMRON CS1 DNA LG MKX005S CPU port FATEK AUTOMATION FB series July 2001 2021NE3 A partial revision Koyo SU SG K Sequence KEYENCE KV700 seriese CPU LG MASTER KxxxS CNET GLOFA CNET SAIA PCD MOELLER PS4 Automationdirect Direct LOGIC Direct LOGIC K Sequence CE Marking and UL Mark August 2002 2021 NE4 A partial revision Printed in Japan Preface Thank you for selecting the MONITOUCH V6 series For proper set up you are requested to read through this booklet to understand more about the product For more information about V6 series refer to the Reference Manual For further details about the PLC see the manual attached to each PLC e e Notes e 1 This booklet may
7. Sys Program Version Font Data Version I F Driver Version Screen PLC Type Screen Comment Data Selection Screen Data Font Data Sys Program Transfer Display Card Display gt Card Display Card Busy Cancel Finish transferring Transfer Display Card Display gt Card Display Card su Cancel When transfer the data from V6 to memorycard via the card interface Memory Card Socket of V6 use SRAM type memory card FROM type memory card is not used 1 47 ED 1 Operation of J6 Main Menu O Message Display in Data Transferring If an error occurs during transferring data the message 4 display window shown on the right is displayed The kinds ok and the contents of the messages are as shown below Work normally finished CREC Communication Error CREC when selecting a modular jack Memory Card not setting A memory card is not inserted Or in case of trying to write data into a memory card when inserting FROM type memory card Memory Card Capacity over Cannot write the data into a memory card because the data size in V6 is larger than the capacity of a memory card Write Protect ON Cannot write data into a memory card because the write protect switch in a memory card is ON Writing Error occurred The error occurred while writing data into a memory card Selected data does not exi
8. wattage and the incorrect cable connection could cause the unit to be damaged physically or functionally and also could result in fire Ground FG terminal which must be for the unit The level of grounding resistance is less than 1000 Prevent any conductive particles from entering into MONITOUCH The conductive particles could cause fire trouble or malfunction of the unit Notes on Maintenance and Operation Never touch the terminals while the power supply 1s on otherwise DANGER you will get an electric shock You must put the cover of the terminals on the unit when you turn on the power and operate it Hakko Electronics Co Ltd is not responsible for an unauthorized CAUTION person who may fix disassemble or reconstruct any unit Contents 1 Hardware Specifications II apecial eaten aos dc 1 1 2 NOLES OD USAC 6 io do aos 1 2 Dd oy Stemi COn PO SION dansa podido m 1 4 A NamesorComponetlbs Un E pd CU CU ca x IS EIUS 1 10 5 Dimensions and Panel CUTOUT 35er er eoe PI TEN 1 12 OMONGNE T TOGCCOUEO od 1 17 A sane 1 18 e da Sene a tud ass aeu etn ad ed ud aded Ue E Eas Ep und 1 20 ds senal Connector CNG sie doe deis e EH E uod qe eeu eu beer idees Maid za abd bn ped 1 26 IO Setting of Dip Witches ss 1 28 LE Modular Jack TE Drs o retos 1 29 12 Dar Code Reader Interlace toba ls a 1 30 ES PpBterT tertaee END a tios 1 31 Pesce DULCE tao latas 1 32 A A A A aaneaaees 1 33 16 Operation Of V 6 Mam Menta
9. Front Side of V608 Rear Side of V608 Front Side of V612 Rear Side of V612 1 Mounting holes for fixtures 10 MJ1 2 for data transfer and for temperature 2 Display controller and for bar code reader 3 Function keys Refer to P1 49 and for CREC option 4 Power lamp 11 for VGEM X option 6 AC DC input terminal of power supply 12 for video option 7 CN1 for PLC RS 232C RS 422 18 for CU XX option 8 CN2 for printer 14 for E I O option 9 Dip switches 15 Card interface option E 1 Dimensions and Panel Cut out 5 Dimensions and Panel Cut out Dimensions of V606 Unit mm O Top View O Rear View LO s LO OOOO C 4 7 MJ2 MJ1 Rn Q Front View Q Side View oo oo on amp 182 5 Panel Cut out of V606 Unit mm 174 0 0 1317 1 Dimensions and Panel Cut out eno Dimensions of V606i Unit mm Q Side View O Front View O Rear View O Bottom View Panel Cut out of V606i Unit mm 174 0 5 0 131 qu 1 Dimensions and Panel Cut out Dimensions of V608 Unit mm Q Top View ORear View OOO O Front View O Side View O 175 165 230 Panel Cut out of V608 Unit mm 220 5 40 5 0 165 5 1 Dimensions and Panel Cut out Dimensions of V610 Unit mm T
10. Parity Even Stop Bits a DF1 Full Duplex Setup Parameters Duplicate Packet Detection Checksum Constant Carrier Detect Message Timeout Hardware Handshaking Embedded Response Detect ACK Timeout lt 5ms ENQuiry Retries NAK Received Retries Wiring Enabled BCC Disabled 400 Disabled Auto Detect 90 3 C 2 Allen Bradley PLC e 2 The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male f PLC D sub 9pin Female H 2 77 2 78 2 Allen Bradley PLC e 2 Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC D sub 9pin Female H Use twist shielded cables Wiring Diagram 3 V6 CN1 PLC D sub 25pin Male 4 D sub 9pin Male m RS 422 Wiring Diagram 4 V6 CN1 D sub 25pin Male m PLC D sub 9pin Male h Use twist shielded cables 2 GE Fanuc PLC e 1 2 79 GE Fanuc PLC 1 90 series Available PLC Wiring Diagram Select PLC Type M refer to P2 80 Programmab RS 232C Wiring Diagram 1 90 Series Series 90 30 rogr le co processor Wiring Diag PCM RS 485 Wiring Diagram S 48 Wi Di 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows ray OC O rrean O aene Response basy me omen L mes ee S HEX bod PA Available Memory
11. Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CED 2 GE Fanuc PLC e 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC D sub 25pin Male mM Use twist shielded cables RS 485 Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC Sa ee D sub 25pin Male t Use twist shielded cables 2 GE Fanuc PLC e 2 CED GE Fanuc PLC 2 90 series SNP X Available PLC Wiring Diagram refer to P2 82 Select PLC Type Series 90 micro jc Sieg CPU port RS 485 Wiring Diagram 1 X Series 90 30 CPU port Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows y O e o e mem INEA Mec Available Memory DR Wwe 9 Al analog input 5 AQ analog output a NN temporary memory relay MC NN system status Read only system status system status system status CI 2 GE Fanuc PLC e 2 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 485 Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC D sub 15pin Male 2 TOSHIBA PLC CTI Q TOSHIBA P
12. aaloe E ces HAS Editor MJ1 If the screen data has been already transferred to V6 press the SYSTEM switch then press the F1 switch The Main Menu is displayed the SYSTEM switch the F1 switch The Main Menu is displayed V610T20 1998 9 1 07 23 30 System Information FONT VF DRV VER 1 000 SYSTEM PROG VER 1 000 VER 1 000 1 000 1 000 MELSEGLARAINI JAPANESE 32 Screen Data Information PLC Type MITSUBISHIAnA N U series Error Stop Size 786432 Commen t Editor MJ1 J Memory Card V O Test Main Menu The Main Menu is the system menu for transferring the data between a personal computer and V6 When the screen data is transferred from a personal computer to V6 the Main Menu must be displayed If Editor port is selected for Modular Jack 1 in the P2 menu of the editing software or the on line editing is executed it is not necessary to display the Main Menu 1 Operation of U6 Main Menu 1 39 System program version Model name of V6 Font data version Data size VF DRV VER 1 000 MELSEC AnA N U PLC I F driver ur fr Type MITSUBISHIAnA N U series N Error Stop version and name Comment A Time Out 0 50 sec ae Retry 3 PLC type and comment specified by the panel editor Multi link setting Setting of This menu is displayed comm parameter only in case of selecting 1 1 in Connection of Comm Parameter PowER Setting of modular jack Ma
13. as the model name O n consideration of such noise problems it is recommended that the standard type link unit be used in such a case when the cable length of more than 15m is required Cu 2 MITSUBISHI PLC e 2 Notes on using V MDD Dual Port Interface O As the V MDD is powered by a CPU check that the electric capacity of the CPU is at 5V power consumption max 350mA O The distance between the CPU and the V MDD should be as short as possible max 1 1 5m O For wiring take appropriate measures to eliminate noise O Specify the value more than 150 21 5 sec in Time out Time of Comm Parameter in case of connecting V6 to a V MDD MITSUBISHI A QnA Series In case of direct connection with the CPU port of A QnA series plug the rear connector of V MDD in the CPU port or use the cable MDD CPU made by Hakko Electronics Slide switch 1 A series 2 QnA series 3 FX series Set this switch before plugging in the V MDD I l l l l l l l l l l l l l l l l l l l l l l M 2 MITSUBISHI PLC e 3 2 11 3 MITSUBISHI PLC 3 QnH series CPU port Connection Connect to the QnH series CPU port The communication parameter setting of V6 is done automatically Available PLC Wiring Diagram Select PLG Type refer to P2 12 QnHCPU port A QO6H A RS 232C cable QCPU2 made by Hakko Electronics QnHCPU port Q When the CPU is up
14. 155U 57 300 57 400 Available PLC enel teoria S5 ER ing CP 524 3964R RK512 RS 232C Wiring Diagram 1 S5 V4 35 155U CP 544 3964R RK512 RS 422 Wiring Diagram 3 S7 300 CP 341 3964R RK512 RS 232C Wiring Diagram 2 S7 400 CP 441 8964R RK512 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Party Po Evenfed 0 Transmission Data Lengt 86e code sosm 103 0 Available Memory DB data register Use memories more than DB1 for S7 more than DB3 for S5 input relay IW as word device Read only Q output relay QW as word device Read only internal relay FW as word device Read only only in S5 series internal relay MW as word device Read only only in S7 series 1 2 3 4 5 T timer current value DEM Read only C counter current value Read only AS absolute address L 39 Can not be used in S7 series 9 The assigned memory is indicated while editing the screen as illustrated 9 Set the memory to the extent of the memory range of 6 97 DEDUSOOU each PLC model e Address No Use TYPE number to assign indirect memory for macro Block No programs EE 2 siemens pic 2 9 Notes on converting the data file of V4 or GD 80 into the V6 data file When converting the data file of V4 or GD 80 into the V6 data file the PLC type is automatically
15. 1785 KE RS 232C Wiring Diagram 1 PLC PLC 5 TOM cus 1770 KF2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Lm 9 9 Transmission RS 232C po Control Mode ns 455 Not available with 1785 KE 1 Error Check BCC fixed NO fixed Transmission Data Length 8 e cote sos r 3 65_ 2 Allen Bradley PLC e 1 2 71 Available Memory S status timer control T C counter control R Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Switch Setting o 1785 KE SW1 protocol OFF BCC Even no OFF Duplicate message unacceptable Handshaking signal ignored 2 72 2 Allen Bradley PLC e 1 SW2 port Specify the port for 1785 KE This port should not be duplicated in the network a 1st digit octal ON OFF 2nd digit octal 8rd digit octal SW3 network link transmission speed Adjust the setting according to the network you are using w sem Jam MEE NEN Data highway 57 6k bps 2 on ev Locallremote selection 2 ESE Normally OFF for expansion 3 O 1770 KF2 2 3 5 ON ON Link transmission speed 19 2k bps SW4 spare SW1 protocol E a 3 om Protest OOO on Dubai message naccopabe om o 4 4 Handshaking signal i
16. 5 not used OFF O Setting of Memory Extension 2 This dip switch is invalid for V606 Keep DIPSW 1 OFF e Set DIPSW 1 ON in case of selecting Memory Extension 2 Refer to Operation Instruction for V6EM 4 V6EM 4i FPROM cassette O Setting of Terminal Resistance depends on the hardware version of the unit hardware version Hardware version is mentioned in the LOT No column on the back of the unit type V610T10 LOTNo 9040054 E INPUT 100 240V CURRENT 0 6 0 4A Hakko Electronics Co Ltd MADE IN JAPAN 9 In case that the hardware version is the lower case letter of the alphabet Set DIPSW 7 ON in case of connecting with CN1 by connection of RS 422 485 e Set DIPSW 6 DIPSW8 ON in case of connecting with Modular Jack 1 2 by the connection as below Multi link2 communication master Temperature controller communication by connection of RS 485 Card Recorder CREC option is used Serial Extension I O V I O option is used Terminal V6 connected with V Link by connection of RS 485 9 In case that the hardware version is the capital letter of the alphabet Set DIPSW 7 ON in case of connecting with CN1 by connection of RS 422 485 Set DIPSW 6 ON in case of connecting with Modular Jack 1 by the connection as below Multi link2 communication master Temperature controller communication by connection of RS 485 Card Recorder CREC option is used Serial Extension l O V I O option is used Termi
17. 95 SIEMENS E een 2 97 O O E Neal tal it et yi tno erate batha tes 2 99 EV IN Ca ers at emen uu es MES yuu MM MIN TD C key 2 101 KEYENCE PLC 8 1 estote p b EIU HENARES dio 2 103 KEYENCE PLO d m D 2 105 KEYENCE PLE coc eem 2 108 ESPECIA PS 2 110 BAN UCPC A de das cl hund 2 115 FEATERAUTOMATION PLE all MUS 2 117 IDEC PLEC Tc 2 119 MODICON TES gaere A EN 2 121 YAMATAKE PEC dde dou Und 2 123 A E 2 125 IS E A OR 2 127 MOBEIBEE PEC osse aida 2 129 Telemecanique PLC oaesnem e itio be NEN Ie o eth iene eee ep erts ptueot edle ae e osse dedi 2 130 Automationdirect EL eet er Xtra E en ena En e E EATEN E DAE Ee D ME E CUR ERA aE 2 132 Hardware Specifications 1 Special Features 2 Notes on Usage 3 system Composition A Names of Components 5 Dimensions and Panel Cut out 6 Mounting Procedure Wiring 8 Specifications 9 Serial Connector CN 1 10 Setting of Dip Switches 11 Modular Jack amp 2 12 Bar Code Reader Interface 13 Printer Interface CN2 14 Video Interface 15 Connection 16 Operation of V6 Main Menu 17 Function Switches 1 Special Features 1 1 l Special Features 1 128 color Display 128 color display makes colorful expression possible Not only drawings but also bitmap files are clearly displayed Data Sheet Printing Function It is possible to make the original data sheet screen by the panel editor the editing software Daily reports or monthly reports that the operat
18. F4 switch The test is OK when the F 4 lamp is lit E Main Menu Pressing this Main Menu switch leads to the previous Main Menu The Main Menu is displayed V610T20 1998 9 1 7 23 30 Mui ins Naiwore Connection 1 1 Baud Rate 19200 i 1 o Signal Level RS232C Data Length 7 Press the Main Menu switch On SEO d E Parity Even Retry 10 ax Send Delay Omsec Editor MJ1 Memory Card V O Test 0000000 1 46 1 Operation of D6 Main Menu Memory Card When the Memory Card switch on the Main Menu is pressed the following Memory Card is displayed This screen is to transfer the screen data between V6 and a memory card The Memory Card screen is displayed Press the Memory Card switch Memory Card Main Menu Port Selection Modular Jack Memory Card MJ1 Socket Transfer Memory Card of V606 V606i voa Display gt Card Data Selection Display lt gt Card Mernory Card Main Menu Port Selection Transfer MR Td Display Card Data Selectio Display gt Card Screen Data Screen Data Font Data Start I F Driver Sys Program Cancel
19. Matrix type 2 switches on the display can be pressed at the same time Lamps Reverse blinking exchange of graphics 768 per screen 192 per screen for V606 V606i Pie bar panel meter and closed area graph can be displayed without limit Graphs Total capacity per screen within 128kB 2 Statics and trend graphs Max 256 per layer Numerical Data Display No limits total capacity per screen within 128 kB Character Display No limits total capacity per screen within 128 kB Message Display Hesolution 320X240 Max 40 characters 640X480 Max 80 characters 800X600 Max 100 characters Data Setting 2 No limits total capacity per screen within 128 kB Messages 6144 lines Sampling Sampling display of buffer data constant sample bit synchronize bit sample relay sample alarm function Multi Overlaps Max 1024 provided 2 types intermittent short and long sounds Back light Auto OFF Function ON at all time specified freely Self diagnostic Function Self test function of switches Check function of communication parameter setting Check function of communication 1 If the hardware version is the following version or V606 V606i is used the screen memory is approx 760kbytes Analog type V612T A E V612C A D V610S A E V610T A F V610C A E V608C A C Matrix type V612T only D V612C only C V610C only D 2 The number of the setting memory is limited to 256 per screen for V606
20. TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC A E er D sub 9pin Male M Use twist shielded cables 2 YASKAWA PLCe1 CT Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male M PLC Sh ee E D sub 9pin Male m Use twist shielded cables Wiring Diagram 4 V6 CN1 D sub 25pin Male M PLC SS SSS a D sub 9pin Male m Use twist shielded cables CED 2 YASKAWA PLCe2 YASKAWA PLC 2 Available PLC STO Select PLC Type Link Unit eae P2 RS 232C Wiring Diagram 1 CP9200SH CP217IF Wiring Diagram 2 RS 422 Wiring Diagram 3 CP9200SH MP900 Memobus E N MP920 ona E N module MP930 BASE RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 4 Communication Setting RS 232C Wiring Diagram 1 The recommended communication parameter setting of both PLC and V6 is as follows f Party Transmission Data Length BP 8 Seo EEE ErrorCheck ORC fixes S PorDelay Timer oe Available Memory MW holding register IW input register 5 Read only wea LLL IB input relay E 38m 3 Read only When setting the MB IB memories set the bit No by HEX MBxxxxx 2 DE
21. V6 to PLC RS 422 Wiring Diagram 1 V6 CN1 D sub 25pin Male M Use twist shielded cables 2koyo Pic QD 3 Koyo PLC Available PLC Select PLC Type Wiring Diagram refer to P2 68 69 RS 232C Wiring Diagram 1 SU 5 5E 6B 5M 6M U01 DM RS 422 Wiring Diagram 3 SU 5E 6B aad Suse 0 82sec wing Diagram 1 Eon acer RS 422 Wiring Diagram 7 SU 5M 6M Port 3 ona CPU unit RS 485 Wiring Diagram 8 Port 2 on a CPU unit RS 232C Program transfer cable made by Koyo S 30JG E SZ 4 Port 2 on a CPU unit j sz EE Convert connector cable made by Koyo S 15CNJ RS 232C Program transfer cable made by Koyo S 30JG E Port 2 on a CPU unit Convert connector cable made by Koyo S 15CNJ Convert connector made by Koyo S 15HCNP1 RS 232C Wiring Diagram 1 SG 8 RS 422 Wiring Diagram 4 RS 232C Wiring Diagram 1 Port P t Spurs un RS 422 Wiring Diagram 4 Universal RS 232C Wiring Diagram 2 PZ3 communication port RS 422 Wiring Diagram 6 RS 232C Wiring Diagram 1 UDOM RS 422 Wiring Diagram 3 SR T SR 6T TOYOTA version G01 DM RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 4 Terminal blocks ee SR 1T TOYOTA version on a CPU unit RS 422 Wiring Diagram 5 SU 5E 6B ring Di RS 422 Wiring Diagram 7 Programmer port RS 232C on a CPU unit Program transfer cable made by Koyo S 30JG E SU 5M 6M Port 3 on a CPU unit RS 485 Wiring Diagram 8 Port 2 on a CPU unit RS 232C SZ 4 Port 1 on a CPU unit
22. V606i and 1024 per screen for other models 3 Layer 4 per screen base 3 overlaps In case of V606 V606i it is limited to 256 per screen 1 Specifications QI Touch Panel Specifications All the V6 series Specifications Switch Resolution Analog type 1024 W X 1024 H Matrix type V612 50 W X 30 H pcs V610 40 W X 24 H pcs V606 V606i 20 W X 12 H pcs Life of Touch Panel Use of one million times or more Function Switch Specifications All the V6 series Number of Switches 8 6 for V606 V606i Type of Switch Pressure sensitive switches Life of Switch Use of one million times or more Interface Specifications All the V6 series Specifications Serial Interface RS 232C RS 422 485 for connecting PLC Asynchronous type D sub 25 pins female Data length 7 8 bits Parity even odd none Stop bit 1 2 bits Baud rate 4800 9600 19200 38400 57600 76800 115000bps 115200bps is invalid for V606 V606i Serial Interface 1 and 2 for RS 232C RS 422 485 2 wire connection transferring data CREC Bar code V 1 O Multi link 2 Temperature control network other external V Link modular jack 8 pins Printer Interface Complies with centronics half pitch 36 pins for PC98x1 NEC PR201 EPSON compatibles with ESC P24 84 or later HP PCL Level 3 CBM292 293 printer The screen copy cannot be printed out Drawing Environment All the V6 series Item Specifications Drawing Method Exclusi
23. a printer at the same time when turning off V6 If a printer is not turned off when V6 is turned off the voltage will circulate from the power supply line of a printer to make the power consumption of SRAM cassette s backup battery increase and finally the backup battery will consume drastically within a few months QI 1 Dideo Interface 4 Video Interface O When a video or a CCD camera is connected to the optional V6 which has a video interface the image which is taken by a video or a camera is displayed directly in a screen of V6 series only in case of V610T S and V612T O Video Interface of V6 BNC O Video Display Specifications Display Color 262 144 colors Input Channel 4 Channels Signal Form NTSC type PAL type Video Input 1 0V 75 ohm unbalance Display Size 640 X 480 640 X 240 320 X 240 160 X 120 dots possible to change the size Color Adjustment contrast 256 steps brightness 256 steps color gain 256 steps 1 Connection QI A Connection 1 1 Link Communication One V6 and one PLC are connected o o o o o o o o RS 232C or RS 422 RS 485 1 n Link Communication Multi drop O One V6 and multiple PLCs are connected n 1 to 32 00000000 RS 422 485 Maximum length 500m O Available PLC for multi drop communication MITSUBISHI OMRON SHARP HITACHI MATSUSHITA YOKOGAWA TOYOPUC FUJ Koyo A
24. as a new type refer to Specifications for Communication Unit NET 10 O V6 can access other CPUs on the NET II B or NET 10 when V6 is connected to one of the link units that the data link system or network system consists of Select Net10 as PLC setting when configuring the screen data on the V SFTE O To access other CPU on the NET II B or NET 10 from V6 e In case of NET II B only the network which has the CPU with the link unit connected to the V6 e g No 1 can be accessed Available CPU No 0 30 e In case of NET 10 other networks No 2 No 3 can be accessed in addition to the network No 1 Available CPU No 1 30 O To read write the memories of the CPU e g 1 1 of CPU which has the link unit to be connected to the V6 o o o o o o o Link Unit Set the CPU No to 31 on the V SFTE Response time will be equiva lent to the case of 1 1 communica tion Please note that response will be delayed due to the transient transmis sion when the CPU No is set to other than 31 O n this case use OUT ENQ command of the SYS to program the macro A CPU from a different network cannot be accessed on the same screen When accessing PLCs of other network numbers on NET 10 specify the network number to be connected with the screens Open Macro in V SFTE 2 MITSUBISHI PLC e 6 2 21 O Macro type to specify network eeeeeeeeeeeeeccccccceccececececee OUT ENQ command of SYS F1 Memory
25. e 1 CED Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 Use twist shielded cables CED 2115041 pic 2 HITACHIPLO 2 HIDIC S10 a Available PLC Host Link H 7338 Wiring Diagram lect PLC T iid i epee refer to P2 37 38 102 Port on a CPU unit RS 422 Wiring Diagram 3 HIDIC S10 2alpha 10 mini RS 232C on a CPU unit RS 232C Wiring Diagram 1 LQEO60 RS 232C Wiring Diagram 2 1 Specify the memory by absolute addresses For further information refer to the relevant PLC manual Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 19200bps Available Memory O HIDIC S10 2 w wowee 9 TS on delay timer set value EE NE TC on delay timer elapsed value 2 HITACHI PLC e 2 2 37 E event register EW as word device S system register SW as word device J transfer register JW as word device Q resive register QW as word device M extensional internal register MW as word device O HIDIC ABS Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiri
26. editing the screen as Colon illustrated Bank No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 OMRON PLC 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 6 CN1 D sub 25pin Male PLC D sub 9pin Male M Use twist shielded cables Wiring Diagram 2 6 CN1 D sub 25pin Male f PLC D sub 9pin Male M Use twist shielded cables Wiring Diagram 3 6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables QE onc RS 422 Wiring Diagram 4 V6 CN1 D sub 25pin Male r PLC Wirin g Dia gram 5 Use twist shielded cables V6 CN1 D sub 25pin Male M PLC A D sub 9pin Male fh Use twist shielded cables Wiring Diagram 6 V6 CN1 D sub 25pin Male 4 PLC D sub 9pin Male 11 Wiring Diagram 7 V6 CN1 D sub 25pin Male r Use twist shielded cables 2 OMRON PLC 2 2 27 OMRON PLC e 2 OMRON CSI DNA When connect the V6 to CS1 on a network the V6 can also access the other CS1 on a network Available PLC Wiring Diagram CPU unit with a built in TP RS 232C Wiring D 2 RS 232C port host link port dls dali SYSMAC CS1 DNA CS1 CS1W SCU21 RS 232C Wiring Diagram 2 Communication board RS 232C Wiring Diagram 2 CS1W SCB41 RS 422 Wiring Diagram 7 1 1 Can
27. ene 1 38 LT Heo WAL CGS oo cosacos too 1 49 2 Connection to Link Units L MILSUBISEL PEE Aa 2 1 A A A O 2 7 o MIEESUBLSTL PEC 9 9 sconti haeresi t n ORAN A 2 11 E MILES UBISEHEL PLC E NER DNI ro 2 13 D MELSUBLDSHICPLEG Dereon arsan ar to SER ER n ake Unt RR du nr M Hua EIS nak Hd PA DI NE EEUU 2 17 E MIO SUBS HL PLEGA ior ee UNAS 2 20 T OMRON PLE TA A 2 22 GO OMRON PLE DNA Asia 2 27 O Sbarro PEE iaa 2 28 10 Ma PELC P rp Ort ee oe eT ne ne renee 2 31 ri HTAC PLCS re ee SAA AAA etna AS 2 33 A AG A A e rr tn Tr eee tear 2 36 LO Matsushita PLO aiii 2 39 lA YOKOGAWA PEC Nas 2 42 I5 YOR OGAWA PLO DA tele atus NE Me So S sra pe ipit uum td 2 44 EO YA SIA WA PIE US T AA IE 2 47 If YASKAWA DEC AAA AA 2 50 IG TOYO PC PEYO IO 2 52 IO FUJ PLC SL AA OS 2 55 A A A A 2 58 ZAS AOL PESA A A AA 2 61 29 JEU A a a a re uet ent Eee aped ste Uus ats 2 63 23 24 29 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 SA o EN SAREEN EEEE ANEETA EEAS 2 65 Allensbradley PLC dd dede 2 70 Allern Bradley PL 92 6 teet bets tis b mde uten Ed EENE 2 75 GE Panic PLO dde 2 79 GE Fanuc PLO 92 od E hae eU QU RE RU RUDI 2 81 TOSHIBA PEC uertit debts os le dictus 2 83 TOSHIBA MACHINE PLG steno ea ati EXEAT leelo 2 85 SIEMENS FLC ell Er d 2 87 SIEMENS O o S Pd ORE UIT 2 89 SIEMENS PLC 9 3 oet v vu dd i th EP TUN UAM 2 91 SIEMENS LESA a lilas 2 93 SIEMENS E iaa 2
28. internal relay special relay Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 12 102 2 SAMSUNG PLCe Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC D sub 9pin Male 4 Use twist shielded cables RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC D sub 9pin Male M Use twist shielded cables 2 KEYENCE PLC e 1 Ci Q KEYENCE PLC 1 KZ series Available PLC Wiring Diagram Select PLC Type Link Unit refer to P2 104 Port 1 KZ KZ300 RS 232C Wiring Diagram 1 Series KZ350 NEES iu RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows For further information refer to the communication specifications of KEYENCE link unit Item Setting of PLC Comm Parameter of V6 Port Baud Rate 19200bps 19200bps Parity Transmission Data Length Code sost 2 J 23 9 2 Terminal Resistor ON for RS 422 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 Available Memory DM data memory ME CH input output relay Set the memory to the extent of the
29. memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CB 2 KEvENCcE pic o 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC D sub 25pin Male m Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male m Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male M Use twist shielded cables 2 KEYENCE PLC e 2 2 105 Q KEYENCE PLC 2 KZ A500 Available PLC Wiring Diagram Select PLC Type Link Unit refer to P2 106 107 KZ A500 RS 232C Wiring Diagram 1 CPU Port CPU Modular Port RS 422 Cable made by KEYENCE KZ C20 Cable made by Hakko MB CPUQ KZ A500 Port 1 RS 232C Wiring Diagram 2 MITSUBISHI KZ L10 Port 2 AnA N U CNN series RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 4 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows CPU modular port of KZ A500 JA JA o y f o o PE PES ML Temm antes 1 In case of RS 422 the baud rate is fixed at 9600bps Link Unit KZ L10 Setting of PLC Comm Parameter of V6 9 EE 19200bps 19200bps 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 sw
30. n 0 n 2 n 3 The addresses n 0 and n 1 are fixed for O and 2 Specify n 2 System code to 1 NET 10 2 NET II B Enter 0 to n 3 Network No when n 2 System code indicates 2 and the number to be accessed to n 3 Network No when n 2 System code indicates 1 No macros can include this command except Open Macro Communication error will occur due to the execution of the netware change when this command is used in other kinds of macros Refer to the V series Reference Manual for further information on Macro Also refer to MITSUBISHI s manual for network registration O See MITSUBISHI s manual for details on the NET l1 B data link system and the NET 10 network system Available Memory See P2 1 A Q series link units and P2 7 A QnA series CPU port for available memory of the PLC to be accessed Note that CPU No should be set on V SFTE Wiring See the wiring diagrams on P2 5 6 1 MITSUBISHI PLC e 1 2 22 2 OMRON PLC 1 A OMRONPLC Available PLC SYSMAC C SYSMAC CV SYSMAC CS1 C20H C28H C40H C120 C120F C200H C500 C500F C1000H C2000 C2000H C200H C200HS CPU01 03 C200HS CPU21 23 C200HS CPU31 33 C200HS CPU21 23 C200HS CPU31 33 CQM1 CPU21 CQM1 CPU41 42 43 44 C500 C500F C1000H C2000 C2000H C200HX C200HG C200HE SRM1 C02 RS 232C interface CPM1A CPU unit peripheral port CV500 CV1000 CV2000 CVM1 Link Unit CPU unit with a built in RS 232C
31. not in whole or in part be printed or repro e duced without the prior written consent of Hakko Electronics Co Ltd e 2 Information in this booklet is subject to change without prior e notice 3 This booklet is intended to give information about MONITOUCH E hardware e e e Notes on safe usage of MONITOUCH In this Hardware Specifications you will find various notes categorized under the following three levels with the signal words Danger Warning and Caution These signal words are to warn the user of possible misuse of the unit To comprehend the critical notes on the safe procedure you must go through this manual before you install MONITOUCH and operate it correctly Danger DANGER indicates an imminently hazardous situation which if not avoided will result in death or serious injury Warning WARNING indicates a potentially hazardous situation which if not avoided could result in death or serious injury Caution CAUTION _ indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury and could cause property damage Notes on System Design Never use the input function of MONITOUCH such as the touch switch WARNING for an emergency switch because it could threaten a human life or break a part of the unit Please design the system of the unit in order to respond to a malfunction of the touch switch Never bundle input output cables with
32. or Memory manager Data logging A Universal purpose computer Exclusive Cable CREC CP 1 Video CCD camera Printer Cable Bar Code Reader Temperature Controller 1 The interface for video function using only in V610T S and V612T is optional for Maker List of Models 1 System Composition 1 5 The characters on the right of model names represent optional features and special specifications V606 0l B None Analog sw type M Matrix sw type 1 Standard C STN color LCD M STN Monochrome LCD white mode V606il 10 L None 7 Analog sw type M Matrix sw type 1 Standard T TFT color LCD C STN color LCD M STN Monochrome LCD blue mode V608C10 E 1 Standard C STN color LCD All type of model have the printer port v610 IL TL TE E E None 100 240V AC D 24V DC None Analog sw type M Matrix sw type Matrix sw type is available except V610S 0 None 1 Video interface 2 RGB interface only V610T 1 Standard 2 Card interface T TFT color LCD C STN color LCD S TFT color LCD SVGA V612 IL 1E 1L 1E L None 100 240V AC D 24V DC None Analog sw type M Matrix sw type 0 None 1 Video interface 1 Standard 2 Card interface T TFT color LCD SVGA C STN color LCD SVGA selling finished in December 2000 Models compatible with Overseas Specifications CE Marking and UL Mark V606 1 0 CE Analog sw
33. sub 9pin Male mM Use twist shielded cables RS 422 Wiring Diagram 5 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Wiring Diagram 6 V6 CN1 D sub 25pin Male 4 Use twist shielded cables 2 FANUC PLC D FANUC PLC Available PLC Wiring Diagram refer to P2 116 Select PLC Type Port of CPU unit JD14 of Power Mate Model H D 5 422 Miring Diagram 2 Power Mate RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 3 Power Mate i Model H D Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows tem Baud Rate 19200bps fixes i Signa seee Port o Of rr Parity E Po Transmission DataLengn fixed ce j som 16e 000 22 Available Memory WX as word data WY as word data WK as word data K keep relay T timer Set the memory to the extent of the memory range of each PLC model ME WR as word data le Use TYPE number to assign indirect memory for macro programs CHID 2 Fanuc ic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male f Use twist shielded cables 1 Half pitch 20 pins RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 pene ery Mek ae mo a Use twist shielded cables 1 Half pitch 20 pins Wiring Diagra
34. the cable of Wiring Diagram 1 to the D sub 15 pins side of EH RS05 to communicate with V6 2 When using CNCOM 05 cable made by HITACHI connect the cable of Wiring Diagram 1 to the D sub 15 pins side of CNCOM 05 to communicate with V6 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows COMM 2H o seensrnowwom xi 0 meras roces O 7 If Transmission control mode is any other type except the above specify Transmission control mode as below posce Setting of PLC Comm Parameter of V6 Protocol 1 w o Port Protocol 1 w Port Transmission Control Mode Protocol 2 w o Port RS 422 MODE2 Protocol 1 w Port 1 Cannot be connected to V6 by multi link connection 9 CPU module Peripheral port is only available with pattern 1 CIE 21541 pic 1 Switch Setting Baud rate 19200bps MODE switch To connect to both RS 232C and RS 422 set MODE switch to 9 RS 232C pattern 2 w o port RS 422 pattern 2 with port ST No switch Choose 0 for both X10 and X1 Dip Switch Bit length OFF 2 Same as V6 nomma 8200688 9 ON Em 8 ON Sumcheck provided Available Memory WR relay timer counter contact EEG network input output Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 HITACHI PLC
35. type 1 Standard C STN color LCD M STN Monochrome LCD white mode V608C1 0 CE Analog sw type E 1 Standard C STN color LCD V61 0 T 1 0 M D CE Matrix sw type V61 OL IL TE D CE Analog sw type D 24V DC 0 None 1 Video interface only T and S type 1 Standard 2 Card interface T TFT color LCD C STN color LCD S TFT color LCD SVGA All type of model have the printer port V606iL110 B None Analog sw type M Matrix sw type 1 Standard T TFT color LCD C STN color LCD M STN Monochrome LCD blue mode V61 2T 1 0 MD CE Matrix sw type V6 1 2 TE IL D CE Analog sw type L D 24V DC 0 None 1 Video interface 1 Standard 2 Card interface T TFT color LCD SVGA EED 1 System Composition List of Options V606 Item C M Card Interface E V 0L DX Video Interface Analog RGB Input Interface Extension I O Unit E I O 16 inputs 16 outputs Serial Extension I O V I O 16 inputs 16 outputs 1 2 by Manufacturer Optional V6EM A SRAM Cassette 512kbyte V6EM RSi Communication Interface Unit CU 00 01 02 03 04 05 2 FPROM Cassette 4Mbyte Optional by User Communication Interface Unit for V606 CUS 00 01 2 Card Recorder CREC Terminal Converter TC485 V606i T C M V608C V610C V610T V610S V612C lo x o px x fo BELICE x o fol o oeo teo x poo po gt AAA A Prepare f
36. 0 gt e E V606 V606i V608 Type AC100 240V Type DC24V 100 240VAC Pin DC24V 10 zl CONOS DPI 1 Bower OE zm 24VDC V610 V612 OWhen TB1 is used for wiring refer to the following table ee E m e mm V606 V606i V608 5 5kgf cm V610 V612 5 bkgf cm A 7 ae OThe power source used must be within the allowable voltage fluctuation OUse a power source with low noise between the cables or ground and the cable OUse as thick a power cable as possible to minimize any drop in voltage OKeep cables of 100V AC and 24V DC sufficiently away from high voltage large current cables Notes on Usage of V610 612 100 240V AC Specifications OGenerally an isolating transformer improves noise resistance However if the display unit is far away from the secondary port of the transformer and noise gets mixed in an isolating transformer becomes unnecessary Olf any power voltage fluctuation caused by noise is expected it is recommended that a voltage stabilizer effective in noise resistance be used Insulation transformer or Stabilized transformer 1 25mm twisted Power Supply to V610 612 1 Wiring 1 19 Grounding N This equipment must be earthed other OAn independent earth pole shall be used for MONITOUCH iil SdHipinent The level of grounding resistance should be less than 100 O OUse a cable which has a nominal cross section of more than 2mm for grounding E OGrounding po
37. 1 43 OSignal Test of RS 232C in MJ1 and MJ2 Select MJ1 or MJ2 and RS 232C in Communication Port by pressing each switch Communication Port CN1 RS 232C MJ1 RS 485 t N e Loop back Test Check the signals SD and RD Execute the test by connecting the data transfer cable V6 CP to CN1 1 Set the adaptor ADP25 9 which is attached to V6 CP to V6 CP And connect the modular jack side of V6 CP to MJ1 or MJ2 ADP25 9 side of V6 CP to CN1 G Self Logo Test Self Loop Test If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor OSignal Test of RS 485 in MJ1 and MJ2 When you execute the signal test of RS 485 in MJ1 and MJ2 ask the advice of your distributor 1 44 1 Operation of U6 Main Menu B Printer Check Check the signal of printer The test is OK if the test printout is executed satisfactorily when connecting V6 to a printer and pressing this Printer Check switch amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO 1 45 80 0123456789 ABCDEFGHIJKLMNO 1 4 80 0123456789 ABCDEFGHIJKLMNO d Ru C Switch Check Check the reaction of the touch switches on the V6 panel When the Switch Check switch is pressed the following screen is displayed The switch che
38. 3 input register A 0 output coil DEN 1 wem ACI Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CRED monicon pic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC D sub 9pin Male m 2 VRMRTRKE PLC Cur 6 VAMATAKE PLC Available PLC Wiring Diagram MX200 MX50 RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Available Memory P timer current value S ralla os timer set value O y counter current value O 09 counter set value timer contact O counter contact O link register Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CHED 2 vamatace pic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male rg PLC voccm dc D sub 25pin Male 4 Use twist shielded cables 2 TRIRN PLC Cur f TAIAN PLC Available PLC Wiring Diagram refer to P2 126 Select PLC Type TPo2 TP02 Communication Port T R T R RS 422 ining Diagram 1 MMI Port 9pin 4 5 S
39. 78 It cannot be used for V606 V606i and V608 EST Oi V I O Serial Extension I O Used as an external I O unit for PLC It has 16 inputs and 16 outputs V6 BCD Cable for Bar Code Reader 3m Connects V6 to a bar code reader V6 MLT Cable for Multi Link 2 master station 3m A cable which is used for connecting the V6 master station and the V6 slave station in the Multi Link 2 connection V6 TMP Cable for Temperature Controller 3m Connects V6 to a temperature controller V6XX GS XX 06 gt V606 V606i 08 gt V608 10 gt V610 12 gt V612 Protection Sheet Protects the operation panel surface Five sheets are included in one package V6XXX FL XXX 06C gt V606C 06M gt V606M O8C gt V608C 10C gt V610C 10T gt V610OT 10S gt V610S 12C gt V612C 12T gt V612T Backlight for Replacement Placement backlight parts for V6 series ED 1 Names of Components A Names of Components Front Side of V606 Rear Side of V606 Front Side of V606i Rear Side of V606i 1 Mounting holes for fixtures 9 Dip switches 2 Display 10 MJ1 2 for data transfer and for temperature 3 Function keys Refer to P1 49 controller and for bar code reader 4 Power lamp and for CREC option 5 DC input terminal of power supply 11 for V6EM X option 7 CN1 for PLC RS 232C RS 422 13 for CU XX CUS XX option 8 CN2 for printer 1 Names of Components 1 11
40. 8 X 8 dots 1 byte 8 X 16 dots 2 byte 16 X 16 dots or 32 X 32 dots Enlarge W 1 8 H 1 8 Number of Characters 320 X 240 1 4 size 40 columns X 30 lines Chinese 640 X 480 800 X 600 80 columns X 60 lines 100 columns X 75 lines 80 columns X 30 lines 100 columns X 37 lines 1 byte 40 columns X 15 lines 2 byte 20 columns X 15 lines 40 columns X 30 lines 50 columns X 37 lines Property of Characters Display property normal reverse blinking bold shadow Color 128 colors blinking 16 colors 16 colors blinking Monochrome 8 gradation blinking Kind of Drawing Lines line continuous lines box parallelogram polygon Circles circle arc sector ellipse elliptical arc elliptical sector Others tile patterns Property of Drawing Type of lines 6 types fine thick dot chain broken two dot chain Tile patterns 16 types incl user definable 8 types Display property normal reverse blinking Display color 128 colors blinking 16 colors 16 colors blinking Monochrome 8 gradation blinking Color specification foreground background boundaries line QD 1 Specifications Function Performance Specifications All the v6 series FP ROM flash ROM Appox 2 816kbytes different from the language 768 per screen 192 per screen for V606 V606i Actions of Switch Set reset momentary alternate to light possible to press a function switch and a display switch at the same time
41. 9200bps PO a ee ee 7 eee ixed 5V Supply Switch OFF fixed Terminal Resistor ON for RS 422 Set the Trans Mode for Detail in the Comm Parameter in V SFTE Trans Mode 1 w o sign BCD Trans Mode 2 w sign BCD 1 w sign BCD It is possible to display the data for PLC data with signs and When higher 4 bits of the memory are F or A treat the data as the minus data F regards higher 4 bits of the memory as 0 A regards higher 4 bits of the memory as 1 range 1 word 1999 9999 2 words 19999999 99999999 lt Ex gt 00000000 99999999 0 99999999 F0000001 F9999999 1 9999999 A0000000 A9999999 10000000 19999999 How to set Num Display Input Type BCD Display Type DEC w sign w sign CE 2 omnon pic Available Memory AE emp CH nputioutput relay END A A A EC a UE GN NEM ESCONDE IN EN A A ERES AO E AA EMn extensional data memory OC TU timer contact I Read only CU counter contact Read only MET ECT LLL IEC A D Jimi ojal gt 2 O CS1 DM data memory CH input output relay AR alarm relay 6 eoma ef W wem 9 LLL TU timer 9 Pemm CU counter contact 10 Read only 1 When using EMn extensional data memory specify the bank E g EMO 30000 number C CV 0 7 CS1 0 C pa Address No The assigned memory is indicated while
42. 9200bps ON gt SWO01 E AJ71QC24 SWoo E Al SJ7 1 QC2 4 STATION No STATION No MODE SWo3 E SW04 E AJ71QC24N swos m SWO06 E OFF SWO7 E SWO08 Swog M SW10 EH SW11 a SW12 lt E g 4 gt Signal Level RS 422 Baud Rate 19200bps Trans Mode Trans Mode 1 SW01 A1SJ71UC24 R4 in A1SJ71C24 R4 ype sype om swoo SW04 SWO5 SWO06 OFF SWO07 SWO08 SWO9 SW10 SW11 SW12 Mr a te CID 2 MITSUBISHI PLC e 1 Available Memory A A BEC MEM EN MM A N timer current value Lew 4 A M N counter current value internal relay latch relay 7 link relay input relay TS TC S C output relay timer contact timer coil counter contact counter coil H only in QnA only in QnA only in QnA SW special link register only in QnA ZR only in QnA file register continuous access 1 The unit number is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address PU special unit i Unit No 1 D special register M special relay SB special link relay a link buffer Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 MITSUBISHI PLC e 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wirin
43. C Bit No HEX Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 YASKAWA PLCe2 2 51 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 CP217IF CN1 217IF CN1 2 D sub 9pin Male f Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male m CP217IF CN2 D sub 25pin Male 1 Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male 4 CP217IF CN3 MR 8 Male m Use twist shielded cables Wiring Diagram 4 V6 CN1 217IF CN3 D sub 25pin Male m MR 8 Male m ro as Use twist shielded cables CBA 2 tovoruc pic N TOYOPUC PLC Available PLC Select PLC Type Link Unit Wiring Diagram refer to P2 54 L2 PC2 series PC3J CMP LINK RS 422 Wiring Diagram 1 TOYOPUC Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows m 9 p 9 Set the Trans Mode for Detail in the Comm Parameter PC3J Select Single Data Area or Split Data Area L2 PC2 series Select Single Data Areal Single Data Area Data area is common Split Data Area Divide each PLC device into a program file Switch Setting Baud rate 19200bps em o Station addr
44. KV10 24 series CPU Not provided MATSUSHITA MEWNET Depends on the model KEYENCE KV700 series CPU Provided YOKOGAWA FA500 Provided LG MASTER K10 60 200 Not provided YOKOGAWA FA M3 Provided LG MASTER K500 1000 Not provided YOKOGAWA FA M3R Provided LG LGMKXOOS Not provided YASKAWA Memobus Depends on the model LG MASTER KxxxS CNET Not provided YASKAWA CP9200SH MP900 Not provided LG GLOFACNET Not provided TOYOPUC Provided FANUC Power Mate Not provided FUJI MICREX F series Provided FATEK AUTOMATION FACON FB series Provided FUJI MICREX F series V4 Provided IDEC MICROS Provided FUJI FLEX PC series Provided MODICON Modbus RTU Depends on the model FUJI FLEX PC CPU Provided YAMATAKE MX series Provided FUJI FLEX PC COM Provided TAIAN TPO2 Provided FUJI FLEX PC T Provided SAIA PCD Provided FUJI FLEX PC CPU T Provided MOELLER PS4 Not provided KOYO SU SG Depends on the model Telemecanique TSX Micro Not provided KOYO SR T Provided Automationdirect Direct LOGIC Depends on the model KOYO SR T K pri Not provided Automationdirect KOYO SU SG K Sequence Depends on the model Direct LOGIC K Sequence Depends on the model A B PLC 5 Not provided A B SLC500 Provided A B Micro Logix 1000 Not provided Up to 4 units can be connected to one PLC Use the terminal converter TC485 the optional equipment made by Hakko Electronics Co Ltd See Multi link2 manual for further details Wire the shiel
45. LC T series Available PLC Select PLC Type Wiring Diagram refer to P2 84 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows For further information refer to the TOSHIBA s PLC manual Item Setting of PLC Comm Parameter of V6 19200bps 19200bps rayo o Trasmission Data Lenoth a PLC Transmission Parameter Setting For specifying parameters in the T series PLC use a T series programmer and enter the following data in the system information 7 COMPUTER LINK Station No 1 Baud rate 19200 BPS Parity Odd Data bit 8 bit Stop bit 1 bit CD 2 tosuisn ic Available Memory Lt wea 5 bWaemddeke tree PP IET 9 Redo Set the memory to the extent of the memory range of each PLC model IUse TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 422 Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC D sub 15pin Male m Use twist shielded cables R 12001 2W 2 TOSHIBA MACHINE PLC CT Q TOSHIBA MACHINE PLC TC200 Available PLC Wiring Diagram CR Port on a CPU unit RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of
46. NCAA Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs ED 2ruiric s Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male m NJ B16 D sub 15pin Male M Use twist shielded cables RS 485 Use the cable FU CPUNS made by Hakko Electronics Co Ltd for RS 485 communications 2 FUJI PLC e 4 CTI FUJI PLC 4 TOYOTA version NJ Computer Link Available PLC Wiring Diagram refer to P2 64 FLEX PC Computer link S COM of FLEX PC NJ JM RS 422 Wiring Diagram 1 Connect to the terminal block of the NJ JM computer link For further information refer to the FUJI s PLC manual Select PLC Type PLC Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 19200bps 19200bps prot E o 00 Cm c Available Memory 9 Wmamm ACI Ww Wemme N timer current value counter current value 8 7 timer contact 09 special register special relay WV as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects
47. Orange RXD Yellow TXD O Notes on Connection n case of using the bar code reader which uses the CTS and RTS control the bar code reader may not work normally without jumping RTS and CTS e The output power supply 5V is max 150mA Refer to the preview page O When the bar code reader connected to V4 is used connect it to V6 by the following cable 12345678 Barcode Reader D sub 9pin H Jump pins 1 CTS and 4 RTS Red OV Brown 5V 1 Printer Interface CN2 1 31 3 Printer Interface CN2 O When a printer is connected to V6 via the connector CN2 it is possible to hard copy the screen display of V6 the data sheet or the sampling data O To connect a printer to V6 use the parallel interface cable of 36 pins which is optional equipment made by Hakko Electronics Co Ltd V6 PT 2 5m When using CBM292 293 printer our printer cable V6 PTCBM is available to Printer gt Half pitch 36 pins O Compatible Printer Control Code System and Printer Models NEC PC PR201 series EPSON Compatibles with ESC P24 84 or later HP HEWLETT PACKARD PCL Level 3 CBM292 293 Line thermal panel printer made by CBM Corporation The screen copy cannot be printed out Note of Usage of SRAM Memory Card or SRAM Cassette In case of connecting a printer to V6 series with a REC MCARD Memory Card SRAM or V6EM RS V6EM RSi SRAM cassette at all times be sure to turn off
48. PLC 42 FANUK PLC 43 FATEK AUTOMATION PLC 44 IDEC PLC 45 MODICON PLC 46 YAMATAKE PLC 47 TAIAN PLC 48 SAIA PLC 49 MOELLER PLC 50 Telemecanique PLC 51 Automationdirect PLC 2 MITSUBISHI PLC e 1 2 1 l MITSUBISHI PLC 1 A Q series link unit Available PLC Wiring Diagram AJ71C24 S6 AJ71C24 S8 AJ71UC24 A2U A3U A4U AJT IUC24 RS 232C Wiring Diagram 2 AJ71C24 n A1 A2 A3 AJ71C24 S3 RS 422 Wiring Diagram 3 A1N A2N ABN AJ71C24 S6 ASH A3M A73 AJ71C24 S8 AJ71UC24 AnA N U series A0J2 AOJ2H A0J2C214 S1 A1SJ71UC24 R2 RS 232C Wiring Diagram 1 AUS A1SJ71UC24 R4 RS 422 Wiring Diagram 3 RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 1 A1S A1SJ A2S RS 422 Wiring Diagram 3 me RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 1 A1SJ71UC24 R2 RS 232C Wiring Diagram 1 QnH A mode 15J71UC24 R4 RS 422 Wiring Diagram 3 RS 232C Wiring Diagram 2 AJ71QC24N RS 422 Wiring Diagram 3 AJ71QC24 RS 232C Wiring Diagram 2 Q2A Q3A Q4A RS 422 Wiring Diagram 3 QnA Q2ASx A1SJ71QC24 RS 232C Wiring Diagram 1 series RS 422 Wiring Diagram 3 AJ71QC24 RA CH1 RS 422 Wiring Diagram 4 AJ71QC24 R4 CH2 RS 422 Wiring Diagram 3 RS 232C Wiring Diagram 1 SUIENEHITOGO RS 422 Wiring Diagram 3 CED 2 MITSUBISHI PLC e 1 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows 4A series link unit Pot OfobonSTATONXi
49. Program transfer cable made by Koyo S 30JG E Port 2 on a CPU unit Convert connector cable made by Koyo S 15CNJ Port 1 on a CPU unit RS 232C Program transfer cable made by Koyo S 30JG E Port 2 on a CPU unit T Convert connector cable made by Koyo S 15CNJ Convert connector made by Koyo S 15HCNP1 CD 2 Koyo PLC Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows tem O for x10 1 for x1 1 Pay Od OO E as Transmission EM 2 Fumton Hostinksystem xe Response DelayTine oed 22 Tmeot Noe we AScMEX exme Available Memory O SU SG SU SG K Sequence K eers CI II 5 e comeron 5 O SR 1T SR T K prt Memory Remarks X Y common use X Y common use K keep relay L link relay T timer contact C counter contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs MI E pup 2 Koyo PLC 2 67 Switch Setting O U 01DM On line off line switch on line UNIT ADR switch O for x10 1 for x1 SWA Dip Switch Same as V6 normally 19200bps Response delay time Omsec SW5 Dip Switch O G 01DM On line off line switch on line Short plug 1 open Short plug 2 RS 232C ENABLE RS 422 DISENABLE SW1 Dip Switch Lp em ina Same as V6 normal
50. QaniXi 0 MODE Control Mode iih Sumcheck Provided fixed AA Available fixed gt Provided fixed Provided xed 1 If Trans Mode 4 is selected from Trans Mode in Comm Parameter of the panel editor specify MODE4 in case of RS 232C or select MODE8 in case of RS 422 Q series link unit ew eemensremoNXioaw Ei ON icsi RS 232C Transmission MODES Binary Mode fixed Control Mode RS 422 Transmission Data Length oe Provided fixed O Write while running Available fixed ARA J 2 MITSUBISHI PLC e 1 QI Switch Setting The following is an example to show the settings for both rotary dip switches and dip switches on PLC E g Signal Level RS 232C Baud Rate 19200bps Trans Mode Trans Mode 1 ON SW11 SW12 AJ T 1 UC24 STATION No STATION No MODE SW13 SW14 SW15 SW16 SW17 SW18 OFF SW 1 SW22 SW23 SW24 Wl Wl NW m m m E m m m m lt E g 2 gt Signal Level RS 232C Baud Rate 19200bps Trans Mode Trans Mode 1 ON A1SJ71C24 R2 Hs gt A1SJ71UC24 R2 swos E SWO06 STATION No STANON No MODE swo7 N ON swo8 OFF SWO09 H SW10 i Swit EH SW12 lt E g 3 gt Baud Rate 1
51. R file register continuous access 10 11 12 13 14 16 19 20 only in QnA only in QnA only in QnA only in QnA only in QnA 1 The unit number is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address 2 File register R cannot be used in case of ROM operation of A series CPU Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 MITSUBISHI PLC 2 CED Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 422 Use the cable MB CPUQ 2 3 5 10 15m made by Hakko Electronics Co Ltd Wiring Diagram 1 lt MB CPUQ gt V6 CN1 D sub 25pin Male m PLC D sub 25pin Male m dp de OD TI JJ ad ep CTS ue 5 Bid y CD 09 N N k k k cz k Use twist shielded cables According to our noise tests the attachment of a ferrite core improves noise voltage by 650 900V and aids in preventing communication errors O n case of direct connection with the CPU port of A QnA series be sure to attach the ferrite core to the cable between V6 and the CPU port of A QnA series for noise A QnA Series O A Ferrite core is sold as an optional accessory When you buy it specify GD FC internal diameter 8mm external diameter 20mm
52. Test Test of CTS RTS Check the signals CTS and RTS 1 Jump pins 4 RTS and 5 CTS of CN1 2 The test is OK if the CTS lamp and the RTS lamp turn on at the same time that the RTS switch is pressed Similarly the test is OK if the CTS turns off at the same time that the RTS is turned off 1 42 1 Operation of U6 Main Menu OSignal Test of RS 485 in CN1 Select CN1 and RS 485 in Communication Port by pressing each switch Communication Port CN1 RS 232C MJ1 RS 485 MJ2 e L oop back Test Check the signals SD and RD 1 Jump each pin 12 and 24 13 and 25 of CN1 2 The test is OK if the OK lamp turns on when the Self Loop Test switch is pressed Self Logo Test Self Loop Test If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor Test of CTS RTS Check the signals CTS and RTS 1 Jump each pin 14 RTS and 19 CTS 17 RTS and 18 CTS of CN1 2 The test is OK if the CTS lamp and the RTS lamp turn on at the same time that the RTS switch is pressed Similarly the test is OK if the CTS turns off at the same time that the RTS is turned off CT S l G Self Loop Test 1 Operation of U6 Main Menu
53. Use TYPE number to assign indirect memory for macro programs 2 MITSUBISHI PLC e 4 Cu Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Use the cable PC CX24A 3m made by Hakko Electronics Co Ltd in case of RS 232C connection RS 422 Use the cable MB CPUQ 2 3 4 5 10 15m or MI4 FX 2 3 4 5 10 15m made by Hakko Electronics Co Ltd Wiring Diagram 1 MB CPUQ gt V6 CN1 D sub 25pin Male m PLC A ARES D sub 25pin Male m Use twist shielded cables According to our noise tests the attachment of a ferrite core improves noise voltage by 650 900V and aids in preventing communication errors O In case of direct connection with the CPU port of FX series be sure to attach the ferrite core to the cable between V6 and the CPU port of FX series for noise A QnA Series V 6 Series CPU O A Ferrite core is sold as an optional accessory When you buy it specify GD FC internal diameter 8mm external diameter 20mm as the model name CB 2 misusisui pic 4 Notes on using V MDD Dual Port Interface O As the V MDD is powered by a CPU check that the electric capacity of the CPU is at 5V power consumption max 350mA O The distance between the CPU and the V MDD should be as short as possible max 1 1 5m O For wiring take appropriate measures to eliminate noise O Specify the value more than 150 1 5 sec in Time out Time of Co
54. V6 9600bps 9600bps Lo Pot o E odo Available Memory 9 wen ECN ICI T Constance paras e Wes MOTE AC E ROCA 7 TT Hosen tempora ago 2 S AW asweddee EX MEE RECIEN JE ENS EN NNNM RATA ira E c om A special auxiliary relay AW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CHE 2 tosnien macae Pic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 6 CN1 D sub 25pin Male M den 2 SIEMENS PLC e 1 2 87 SIEMENS PLC 1 S5 90 S5 95U S5 100U Available PLC A similar program as RK512 is required Select PLC Type Link Unit Wiring Diagram refer to P2 88 CP 521SI RS 232C Wiring Diagram 1 3964R Transmission Protocol S 232C Wiring Diagram 1 Second serial interface 6ES5 734 1BD20 cable made by SIEMENS 3964R Transmission Protocol RS 232C Wiring Diagram 2 When using 6ES5 734 1BD20 cable made by SIEMENS connect the cable of Wiring Diagram 2 to the D sub 25 pins side of GES5 734 1BD20 to communicate with V6 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 9600bps 9600bps Transmission Data Lengih e Busy Signal NO fixed AAA Hand Shake OFF fixed Available Memory
55. ace unit such as CU 00 01 02 03 04 05 CUS 00 01 The Multi Link 2 cannot be used with Temperature controll network 1 Connection 1 35 lt Calendar gt lt Type gt lt Calendar gt MITSUBISHI AnA N U series Provided GE Fanuc 90 series Not provided MITSUBISHI QnA series Provided GE Fanuc 90 series SNP X Not provided MITSUBISHI ACPU Port Provided TOSHIBA T series Provided MITSUBISHI FX series Depends on the model SIEMENS S5 Not provided MITSUBISHI QnACPU Port Provided SIEMENS S7 Not provided MITSUBISHI QnHCPU Port A Provided SIEMENS S5 V4 Not provided MITSUBISHI QnHCPU Port Q Provided SIEMENS TI500 505 Provided MITSUBISHI FX series A prt Provided SIEMENS TI500 505 V4 Provided MITSUBISHI FX2N series Depends on the model SIEMENS S5 PG port Not provided MITSUBISHI FX1S series Provided SIEMENS S7 300MPI HMI ADP Not provided OMRON SYSMAC C Depends on the model SIEMENS S7 300MPI PC ADP Not provided OMRON SYSMAC CV Provided SAMSUNG SPC series Not provided OMRON SYSMAC CS1 Provided SAMSUNG N plus Provided SHARP JW series Provided SAMSUNG SECNET Depends on the model SHARP JW100 70H COM Port Provided KEYENCE KZ series Not provided SHARP JW20 COM Port Provided KEYENCE KZ A500 CPU Port Provided HITACHI HIDIC H Provided KEYENCE KV series Not provided HITACHI HIDIC S10 2 alpha Not provided KEYENCE KZ24 300 series CPU Not provided HITACHI HIDIC S10 ABS Not provided KEYENCE
56. al equipment made by Hakko Electronics Co Ltd in case of using terminal blocks in RS 422 485 connection OSpecify terminal resistance by the dip switches on V6 Refer to the next page Shielded cable V6 CN1 Signal Pin No FG 1 RD 24 RD 25 SD 12 SD 13 SG 7 Vs as Terminal Blocks of RS 422 485 OConnect TC485 Terminal Converter which is the optional equipment made by Hakko Electron ics Co Ltd to V6 via the serial connector on V6 CN1 in case of using terminal blocks in RS 422 485 connection OThe RS 422 signal wiring of TC485 is connected to the serial connector CN1 SW1 set to top 4 wire connection To the RS 422 port of the PLC link unit Send data Receive data Send data Receive data OSpecify 4 wire connection or 2 wire connection by the dip switch on TC485 SW1 set to top 4 wire connection TC485 Terminal Converter CED 1 Setting of Dip Switches setting of Dip Switches Setting of Dip Switches DIPSW alll Memory Extension 2 L_ In case that the hardware version is the lower case letter of the alphabet invalid for V606 Terminal resistance of MJ2 modular jack 2 In case that the hardware version is the capital letter of the alphabet Not used Not used RD terminal resistance of pin No 24 and 25 Terminal resistance of MJ1 modular jack 1 O Keep DIPSW 2 3 4and
57. ck screen is displayed Press the Switch Check switch Confirm that the color of the pressed area changes into white The white color means that the switch reacts to the touch normally Pressing the F4 switch leads to the previous I O Test screen Pressing the F5 switch deletes all the white dots 1 Operation of J6 Main Menu 1 45 In case of matrix type When pressing the Switch Check switch the following screen which is divided by a minimum size of switch is displayed Confirm that the color of the pressed switch changes into white Pressing the corner right below leads to the previous I O Test screen the Switch Check screen Main Menu Switc eck Press the Switch Check switch If the pressed area is reversed these switches reacts to the touch normally D Test of SYSTEM amp Function Switches Check the eight switches six switches for V606 placed vertically on the right side of the V6 panel The test is OK if the lamps on the screen turn on when each switch is pressed gt Press the
58. ct connection KZ V10 24 KV 10 24 Program port Series CPU direct connection KZ 24 300 Series CPU RS 232C Wiring diagram 1 or Cable made by KEYENCE OP 26487 connecter OP26485 KV 700 KV 700 Series CPU Program port direct connection When using RS 232C cable made by KEYENCE OP 26487 attach the D sub 25 pins connecter OP 26485 to the modular jack on the V6 side to communicate Communication Setting O KV series KV 700 Series CPU The communication parameter setting of V6 is done automatically o KZ24 300 Series CPU RE E o T LLL ag Ee M Femina ee M d LA 1 The maximum baud rate is 38400bps If 57600bps or 115000bps is selected the V6 communicates with a PLC forcibly at 9600bps o KV10 24 Series CPU Setting of PLC Comm Parameter of V6 o n o o o 00 57600bps 57600bps y E Bem 2 1 The maximum baud rate is 57600bps If 115000bps is selected the V6 communicates with a PLC forcibly at 9600bps 2 KEYENCE PIC 3 QTD Available Memory om Gwen 9 timer contact MESA counter contact M temporary data memory Lg only in KV700 only in KV700 only in KV700 only in KV700 only in KV700 1 high speed counter current value 2 high speed counter comparator set value 8 High speed counter comparator contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The foll
59. dated or the specifications are changed there is some possibility that V6 cannot be connected to the PLC 2 12 2 MITSUBISHI PLC e 5 Available Memory D data register W R EE MR link register NM file register N counter current value PU special unit Unit No KL MEN NN N timer current value CS counter contact C counter coil only in Q mode M special relay only in Q mode B special link relay D special register only in Q mode ister SW special link register ZR only in Q mode 10 11 12 13 14 16 19 20 only in Q mode file register continuous access 1 The unit number is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring RS 232C Use the cable QCPU2 2 3 5 10 15m made by Hakko Electronics Co Ltd 2 MITSUBISHI PLC 4 EX AL MITSUBISHI PLC 4 FX1 2 FX2N FXIN FXON FX15 series Connection Connect to the FX series CPU port The communication parameter setting of V6 is done automatically Available PLC Select PLC Type Wiring Diagram refer to P2 15 RS 232C PC CX24A made by Hakko Electronics FX1 2 RS 422 MB CPUQ made by Hakko Electronics FX series o
60. ded FG only at the one of both sides so that they are not connected e Set the dip switch SW1 of TC485 as 2 wire connection when the TC485 terminal converter is used b C d e V6 master Terminal block V6 slave V6 slave V6 slave MJ1 2 prepared by user CN1 TC485 CN1 TC485 CN1 TC485 Terminal resistor Terminal resistor Terminal resistor Terminal resistor ON OFF OFF ON e Short circuit between RD and SD and RD and SD when the TC485 terminal converter is not used QI 1 Connection n 1 Link Communication Multi link Multiple V6 and a PLC are connected n 1 to 32 V6 1 V6 2 V6 3 V6 n lo o o lo o o lo o o o o o o o o lo o o e e e udcdcc c cL A r The connections shown below are not recommended RS 485 Maximum length 500m from PLC to the last V6 fig rd PLC O Available PLCs for multi link Manufacturer MITSUBISHI AnA N U series A link Net10 FX series A prt MITSUBISHI QnA CPU port with V MDD OMRON SHARP HITACHI MATSUSHITA YOKOGAWA YASKAWA TOYOPUC FUJI TOSHIBA SIEMENS SHINKO SAMSUNG LG MASTER K500 K1000 1 Connection 1 37 O When multiple V6 are connected to a link unit of PLC use the terminal converter TC485 the optional equipment made by Hakko Electronics Co Ltd for RS 485 connection e Set the dip switch SW1 of TC485 as 2 wire connection when the TC485 terminal converter is used V6 TC485 V6 TC485 V6 TC485 Link unit RD
61. e by IDEC FC2A KC1 or Cable made by IDEC FC2A KC2 RS 232C Wiring Diagram 1 MICRO3 MICRO3 When using RS 232C cable made by IDEC FC2A KC2 connect the cable of Wiring Diagram 1 to the D sub 9 pins side of FC2A KC2 to communicate with V6 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows CO w o T RN Transmission Data Length 7 o oo o 2 stops r Available Memory data register E NE int ae output internal relay S timer set value A am E CA TN timer contact timer contact CS counter set value Read only CN counter current value C counter contact 10 Read only CRED 2 voco Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 PLC D sub 25pin Male m D sub 9pin Male m Use twist shielded cables 2 MODICON PLC CEED gt MODICON PLC Available PLC Wiring Diagram refer to P2 122 Modbus RTU Modbus RTU RS 232C Wiring Diagram 1 Select PLC Type Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 9600bps 9600bps Transmission Data Length i Available Memory Read only
62. el Use TYPE number to assign indirect memory for macro programs CH 2 siemens pic 4 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 422 Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC TU CIC ie D sub 9pin Male M TxD RxD 3 TxD RxD Use twist shielded cables Setting of Terminal Resistance Set the dip switch 7 8 of V6 series to OFF Connect terminal registance to the V6 serial connector CN1 as follows If terminal registance is not connected the communication error may occur V6 CN1 D sub 25pin Male m 2 SIEMENS PLC e 5 CTI A SIEMENS PLC 5 TI545 555 Available PLC Select PLC Type T1500 505 TI500 505 V4 Communication Setting T1545 555 CPU port built in Wiring Diagram refer to P2 96 RS 232C RS 422 Wiring Diagram 1 Wiring Diagram 2 Connect the cable to the CPU port RS 232C built in port for TI545 555 The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 19200bps 19200bps None fixed Available Memory V variable memory rulos word input word output x lt discrete input lt discrete output CR TCP TCC DCP DCC DSP DSC K STW control relay timer counter set value timer counter current value drum count set value drum count current value
63. election Mernory Card Inforrnation Sys Program Version Font Data Version I F Driver Version Screen PLC Type Screen Comment 3 Start Transfer Display lt Card Display gt Card 1 Operation of J6 Main Menu Sys Program Transfer Version Font Data Version I F Driver Version Screen PLC Type Screen Comment Data Selection Start Cancel Display lt gt Card I F Driver Sys Program When the Start switch is pressed the data transferring starts During data transfer the character Start on the switch changes into the character Busy and the switch starts blinking After transferring data the following message is displayed Press the OK switch Memory Card Mernory Card Inforrnation Sys Program Start transferring Version Font Data I F Driver Version Version Screen PLC Type Screen Comment Data Selection Screen Data Font Data I F Driver Sys Program Close Display lt gt Card Transfer Display lt Card Display gt Card Memory Card Mernory Card Inforrnation Sys Program Version Font Data Version I F Driver Version Screen PLC Type Screen Comment During transferring Memory Card Mernory Card Inforrnation
64. er setting is limited as below Adjust PLC parameter setting to comm parameter setting of V6 Baud rate 9600 19200bps Parity Odd fixed Data bit 8 7 can be selected Normally 8 Stop bit 1 fixed 2 40 2 Matsushita PLC Switch Setting of Link Unit Setting ON OFF normally 19200bps o9 ON Em s or 9COSODmel Available Memory ICAC NN RN rl i5 Wege ENCINA riores 8 LLL Sv tineroounersetvaney 7 ev Wmercsersapsed we T ountreoricy a Ready Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 Matsushita PLC Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Wiring Diagram 2 V6 CN1 D sub 25pin Male M Use twist shielded cables Wiring Diagram 3 V6 CN1 D sub 25pin Male 4 Use twist shielded cables RS 422 Wiring Diagram 4 V6 CN1 D sub 25pin Male 41 Use twist shielded cables 2 41 EH 2 vocosaws pic et A YOKOGAWA PLC 1 FA 500 Available PLC wu adan Diagram refer to P2 wu o eoe LCO1 0N R amp 2920 Wiring Diagram 1 232C R amp 2920 Wiring Diagram 1 Diagram 1 FASOO FASOO yGOBSON RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 2 Communication Setting Sesa PLoTs
65. ess lower half sew o Station address upper half Baud rate SW3 1 1 19200 2 9600 3 4800 4 2400 5 1200 6 600 SETS a 2 TOYOPUC PLC GED Available Memory argo 9 DR Www 3 LLL 8 Wem TP DN Vememwwesga 3 X Wwe A ra Y wan S S raros m mearen s marras ra 3 mee T meon o S mee KEC M tesoro vas aio e N extensional current value register E ee extensional internal relay extensional timer contact C extensional counter contact V special register 21 WV as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CHB 2 tovoruc pic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 422 Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 Use twist shielded cables Screen Editing Memory Input If Split Data Area is selected at the Trans Mode the PRG No setting is available at the Memory Input dialog range 1 3 Memory Input PLC Memon p 00100 Internal Mem 7 4 C Memory Card ale fel 45 6 0 o lella 5 of fala Cancel 2ruuipice1 QED Q FUJIPLO 1 MICREX F series Available PLC Wiring Diagram NV1L RS2 RS 232C Wiring Diagram 1 MICREX F NC1L RS2 RS 232C Wiring Diagram 1 F70 F70S series NC1L RS4 RS 485 Wir
66. f HMI Adapter PC Adapter D sub 9pin Female H Use twist shielded cables 2 Shinko PLC CED Shinko PLC Available PLC Wiring Diagram S l SELMART SELMART 100 or later series Version O1M2 UCI 6X RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Transmission SumChek Provided ines Available Memory D data register BE OM HEENEEEMEMEMMEEMEMEMEMEMEMM Only D register is available for this PLC model No other devices can be used although they are available to be set in the panel editor Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CB 2 shinko pic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC D sub 25pin Male mM Use twist shielded cables 2 samsuno PLC CHD SAMSUNG PLC SPC series Available PLC Wiring Diagram SPC RS 232C Wiring Diagram 1 Series d RS 422 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows lo str o Terminal Resistor ONforRS485 S Available Memory L link relay K F W data register keep relay M
67. fined for the purpose of the user The data of these function switches is allocated to the memory area of PLC Y S T f E E SYSTEM o D E B 8 e 1 K Function of F1 F5 when the switch menu is displayed O F1 Mode This switch changes the operation mode Main Menu Mode gt RUN Mode Run Mode gt Main Menu Mode possible to specify the changing time O F2 Contrast Adjustment dark invalid in case of the TFT color type This switch adjusts the contrast of LCD When the F2 switch is pressed once the LCD color becomes dark If this switch is held down for 1 second the LCD color changes rapidly into darkness O F3 Contrast Adjustment intermediate invalid in case of the TFT color type This switch also adjusts the contrast of LCD When the F3 switch is pressed once the LCD color becomes intermediate O F4 Contrast Adjustment light invalid in case of the TFT color type This switch adjusts the contrast of LCD When the F4 switch is pressed once the LCD color becomes light If this switch is held down for 1 second the LCD color changes rapidly into lightness O F5 Backlight This switch turns the backlight of V6 on or off If you want to use this function you have to set Backlight of the Others dialog in System Setting The following list shows the backlight function specified in the editing software Backlight Function Switch F5 Ignored Au
68. g Diagram 1 6 CN1 D e 25pin Male m PLC M D sub 9pin Male M Wiring Diagram 2 6 CN1 D sub 25pin Male m PLC ix dx GE D sub 25pin Male M ty 2 MITSUBISHI PLC e 1 RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male 1 Use twist shielded cables Wiring Diagram 4 V6 CN1 D sub 25pin Male 4 PLC D sub 25pin Male M Use twist shielded cables 2 MITSUBISHI PLC e 2 2 7 MITSUBISHI PLC 2 A QnA series CPU port Connection Connect to the A Q series CPU port The communication parameter setting of V6 is done automatically Available PLC Wiring Diagram A2A A3A A2U A3U A4U A2US H A1N A2N A3N RS 422 MB CPUG A CPU port A3V A73 made by Hakko Electronics A3H A3M or AOJ2H Wiring Diagram 1 A1S A1SJ H A2S H A2CCPUC24 Q2A Q3A Q4A QnA CPU port Q2AS H When the CPU is updated or the specifications are changed there is some possibility that V6 cannot be connected to the PLC CD 2 MITSUBISHI PLC 2 Available Memory MEANS CIN LR Wemwe 2 N timer current value N counter current value PU special unit Unit No 1 internal relay latch relay 7 link relay input relay M L B X Y timer contact timer coil counter contact counter coil output relay D special register M special relay B special link relay SW special link register Z
69. gas Vibration Resistance Vibration frequency 10 150Hz Acceleration 9 8m s 1 0G Single amplitude 0 075mm 3 directions of X Y and Z one hour Working Conditions Shock Resistance Pulse shape Sine half wave Mechanical Peak acceleration 147m s 15G 3 directions of X Y and Z six times Noise Resistance Noise voltage 1500Vp p noise width 1us Static Electricity Discharge Resistance Contact 6kV Air 8kV Grounding Grounding resistance less than 1000 Electrical Working Conditions Structure Protection structure front panel complies with IP65 when using gasket rear panel complies with IP20 Form in a body Mounting procedure inserted in a mounting panel Cooling System Cooling naturally Approx 0 8kg Approx 0 8kg Approx 1 1kg Dimensions W X H X D mm 182 5 X 138 8 X 50 182 5 X138 8 X 57 3 230 X 175 X 66 1 Panel Cut out mm 1742 X 1912 174251915 220 50 X 165 50 Case Color GREY BLACK GREY 1 including 4mm the size of boss for communication unit 2 equivalent to the Munsell color system N 2 0 Mounting Conditions V610 V612 Power Power Power Power AC Supply DC Supply AC Supply DC Supply 100 240V AC 24V DC 100 240V AC 24V DC 85 265V AC 24V 10 DC 85 265V AC 24V 10 DC 47 440Hz 47 440Hz 10ms or less 20ms or less 10ms or less 45VA or less 25W or less 50VA or less 25W or less 20A 100V AC 30A 20A 100V AC 30A 30A 200V AC 6ms 30A 200V AC 6ms AC external terminals to FG DC exte
70. gnored SW2 SW3 SWA port Specify the port for 1770 KF2 This port should not be duplicated in the network SWb network link transmission speed Adjust the setting according to the network you are using Switch E NM idet ontents 57 6k bps 2 Allen Bradley PLC e 1 SW6 asynchronous link transmission speed Set the same speed as V6 OFF SW 7 network link selection pa ontents Peer transmission link Switch Setting Contents RS232C OFF RS422 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male mM PLC O E D sub 15pin Male M JJ BE U U JJ OD E OD C o O JH ol O y D ajl Js fo jojo fo o 2 73 LEES 2 Allen Bradley PLC e 1 Wiring Diagram 2 V6 CN1 D sub 25pin Male M PLC Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male M PLC Use twist shielded cables 2 Allen Bradley PLC e 2 2 75 gt Allen Bradley PLC 2 SLCO00 series Micro Logix 1000 Available PLC Wiring Diagram refer to P2 77 78 CPU Processor module PO RS 232C channel RS 232C Wiring Diagram 1 SLC500 SLC 5 03 or later models Select PLC Type Link Unit RS 232C Wiring Diagram 2 1747 KE RS 422 Wiring Diagram 4 RS 232C program transfer Micro Logix 1000 Micro Logix 1000 Port on a CPU unit cable
71. high voltage and large current CAUTION cables such as power supply cables Keep input output cables at least 200mm away from power supply cables in order to avoid malfunction caused by noise As for the use in the facilities related to nuclear energy or in the facilities of official importance please consult with our distributer about it Notes on Installation Operate MONITOUCH under the conditions indicated by the manual If you don t set the conditions indicated by the manual for the unit it CAUTION could cause fire malfunction physical damage or deterioration Maintain the following conditions in order to avoid fire or trouble Don let the unit come in contact with corrosive gas flammable gas solvents grinding fluids or cutting oil Never let the unit be exposed to high temperature high humidity and other outside weather conditions Don t allow the unit to be exposed to excessive dust salt and metallic particles Don t allow the unit to be shaken or hit by other objects Equipment must be correctly mounted so that the main terminal will not inadvertently be touched during an application Notes on Cable Connection Turn off the power supply when you set up the system or connect the cables otherwise you will get an electric shock or damage the unit DANGER Connect the cables correctly to the terminals of MONITOUCH in CAUTION accordance with the specified voltage and wattage Over voltage over
72. hort Computer Link Mode RS 422 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows 3 Available Memory D X data register timer counter contact V timer counter contact 1 WS system register WC constant register 3 output relay 5 input relay 4 X Y C internal relay SC special register Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CRED 2 tnieneic Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 422 Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC SS Se SS D sub 9pin Male M Use twist shielded cables 2 SAIA PLC MED Q SAIA PLC Available PLC Wiring Diagram refer to P2 128 Select PLC Type Communication module PGU port RS 232C Wiring Diagram 1 PCD PCD7 F120 RS 232C Wiring Diagram 2 PCD4 F110 RS 485 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows a RR RN S BUS Configuration S BUS Mode Parity PGU Port Number O PGU port 1 PCD7 F120 PCD4 F110 Available Memory EDS read only Input Bit O Output Bit F Flag Bit Set the memory to the extent of
73. ies 6ES7 972 OCA11 0XA0 RS 232C Wiring Diagram 1 MPI port S7 300MPI Sii SIEMENS PC ADP PC Adapter 6ES7 9720CA23 0XA0 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 HMI ADP 384 fi Baud Rate 38400bps PERDU MIKEN PC ADP 38400bps o Pay None fixed Transmission Data Length 8 fired coe Supe ed Set the MPI SETTING in the Comm Perameter in V SFTE ITEM MPI SETTING Source No station no of VO O Set Source No as the different number from that of Local No and make the value of Node Cnt equal to or larger than that of Screen No Node Cnt is equivalent for Local No of a PLC For example if Local No is 13 Node Cnt is 15 C 2 SIEMENS PLC e 6 Available Memory DB data register 0 Use memories more than DB1 QW as word device M T timer current value C counter current value Merker Word MW as word device 9 The assigned memory is indicated while editing the screen as illustrated E g DB0001 0000 t Address No Block No 9 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male
74. in Menu of V606 V606i Model name of V606 V606i System program version a 9 2 E b Font data version 3 25225522 AA _ c PCC Parameter PLC I F driver version and name PLC type and comment specified by the panel editor Setting of modular jack n case of V606 V606i when the Communication Parameter switch on the Main Menu is pressed the following Comm Param is displayed 12 24 30 1 O Test Memory Card Communicatipa Parameter Press the Communication Parameter switch SYSTEM Comm Param Mein Menu Screen Data Size 786432 Multi Link Network Error Stop o n Stat No i j A SUE e Ney Time out 0 50 sec Connection Multi Link N Signal Level RS232C PLC Stat No Baud Rate Data Length Stop Bit Parity Send Delay Editor MJ1 Multi link setting This menu is displayed only in case of selecting 1 1 in Connection of Comm Parameter 1 40 1 Operation of D6 Main Menu I O Test When the switch A on the Main Menu is pressed the following I O Test is displayed This is the test menu to check only V6 hardware Press the I O Test switch Self Loop Test Please refer to the manual Hardware Specifications RS 232C
75. ing Diagram 2 MICREX F series V4 F80H F120H F120S FFU120B RS 232C Wiring Diagram 1 F140S F15L S FFK120A RS 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows tem a Apo oa 0 Transmission Al Transmision wore sosm ft Switch Setting MODE Switch RS 232C 1 RS 485 3 RS 485 Port Setting SW 0 for both x10 x1 RS 485 Terminal Resistor ON Character Switches s on on oN m Bm ov poo zo 0 0 Same as V6 normally 19200bps AD ourc Available Memory v emren ANCIANA inka 8 pomesewesdeke timer set value S timer current value timer current value O 1 counter set value counter current value data memory S step control relay Wn file memory 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output O is written in the 16 upper half bits 2 Byte device such as step relay is managed as follows Input Write O in the 8 upper half bits Output Write the data in the 8 lower half bits 3 To set up Wn file memory input File No colon address E g W30 00002 Lo Address Colon File No Set the memory to the extent of the memory range of each PLC m
76. int shall be near the MONITOUCH to shorten the m E distance of grounding wires Grounding resistance less than 1000 OWhen the unit is grounded along with other machines or is grounded to a part of a building it can be adversely affected Olf any input output errors occur due to the grounding detach the FG terminal from the ground Wiring for Communication ONever place the communication cable with electric circuits ONever bundle these cables together with other wires in ducts or electric boxes using cord locks Although it is tempting to bundle all the cables neatly together Rr o f RM this does not necessarily lead to a noise resistant configuration Olt is recommended that the communica tion cable be independently wired Wiring duct EE 1 Specifications Specifications General Specifications Tvpe yP V606 V606i Item Rated Voltage 24V DC Permissible Range 24V 110 DC of Voltage Permissible Momentary Power Failure 10ms or less Rushed Electric Current 15A 15A ims 1 5ms With stand voltage DC external terminals to FG 500V AC per min Ambient Temperature 0 C 50 C V610 STN Color 0 C 40 C Storage Ambient Temperature 10 C 60 C Power Supply Ambient Humidity 85 RH or less without dew condensation No conductive dust Solvent Resistance No cutting oil or no organic solvent to cling to the unit c o c O gt c LLI is e gt lt a Corrosive Gas No corrosive
77. itches For further information refer to the communication specifications of KZ L10 CB kevenee puc o 2 Available Memory 9 Guam 9 internal relay latch relay E AE link relay ME input relay prog EE UN NEL NE M Le output relay 10 S timer contact 1 timer coil 12 CS counter contact 13 CC counter coil 14 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 PLC D sub 25pin Male 4 Modular Connector 6pin 123456 Use twist shielded cables 2 KEYENCE PLC e 2 2 107 Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC dC MET 2 D sub 25pin Male M Wiring Diagram 3 V6 CN1 D sub 25pin Male 4 Use twist shielded cables RS 422 Wiring Diagram 4 V6 CN1 D sub 25pin Male mM Use twist shielded cables CB hcec rio o 3 KEYENCE PLC 3 KV series Available PLC Select PLC Type Wiring Diagram refer to P2 109 KZ 10 16 24 40 80 300 350 RS 232C Wiring diagram 1 KV Program port or Series direct connection Cable made by KEYENCE OP 26487 connecter OP26485 KV series RS 422 Cable made by KEYENCE KZ C20 Program port Cable made by Hakko MB CPUQ direct connection KZ 24 300 Program port dire
78. l o o In a dry environment MONITOUCH may generate a large amount of static electricity Therefore before touching the unit touch a grounded metallic section to discharge the static electricity Areceiving error may occur on a device that is connected to MONITOUCH such as a PLC or a temperature controller by starting up both equipments at the same time In such case follow the instructions of such device s manuals to handle the error Application of thinner may discolor MONITOUCH Use alcohol or benzine avail able commercially for cleaning 8 Never remove any printed circuit board from MONITOUCH This will harm the unit 9 Never operate the display by using a tool with a sharp point like a screwdriver Touch the display by fingers a tool with a sharp point like a screwdriver EED 1 System Composition 3 system Composition System Composition Model Indication Peripheral Equipment System Composition The following illustration shows possible system configurations using V6 Panel Editor for V series Creating screens Personal Computer PC Transferring screen data V6 CP CREC Printer During operation Transferring Link communication screen data c Gece DA RS 232C RS 422 Vi E e V6 During operation Link Unit Universal serial communication RS 232C RS 422 Transferring screen data
79. lace where dust salt and metallic particles are present 00000000 2 Install a forced fan or an air conditioner to maintain the ambient temperature when it is higher than the above mentioned range 3 Avoid places where moisture may easily KoTeo 115 condense due to sudden temperature changes 1 Secure sufficient space around MONITOUCH for ventilation 2 Never attach MONITOUCH to the top of any apparatus generating high levels of heat heater transformer large capacity resistor etc 3 Never install MONITOUCH in the same compartment as high voltage equipment The unit should be at least 200 mm away from high voltage lines or power cables 1 An emergency stop circuit must be composed of an external relay circuit with a start signal for MONITOUCH built in Do not create switches on MONITOUCH to be used in case of emer gency a witch to be use Aly in emergency ES N NES 2 MONITOUCH has a glass screen Never drop or subject the unit to strong impacts 3 Tighten mounting screws with the following torques Ege mem TC V606 608 0 3 0 5 3 5 V606i 0 3 0 5 3 5 M4 V610 612 0 5 0 7 5 7 Note Never fasten these screws too tightly otherwise the cover of MONITOUCH may be deformed 1 Notes on Usage 1 3 Securely fasten and lock every connector for each cable Double check this before turning the power on o o o o o e
80. llen Bradley GE Fanuc TOSHIBA SIEMENS SHINKO SAMSUNG KEYENOE LG FATEK DEG MODICON Modbus RTU agg Universal Serial YASKAWA Memobus CP9200SH MP900 QI 1 Connection O Multi drop Communication RS 485 Refer to the PLC manual of each manufacturer for connection E g The following example describes how one V4 is connected to three PLCs made by MITSUBISHI See MITSUBISHI s manual for further details V6 CN1 Link unit Link unit Link unit SD RD terminal resistance ON Use twist shielded cable n 1 Link Communication Multi link2 Up to 4 units can be connected to one PLC Between a PLC and the V6 master station is the same as those for 1 1 communication Communication between the stations RS 485 2 wire system Maximum length 500 m V6 slave Local Port 4 V6 slave Local Port 3 V6 slave Local Port 2 V6 master Local Port 1 O Available PLCs for multi link2 As of July 2001 the PLCs supported are as follows All the PLCs which are usable for 1 1 communica tion will be supported For the I F driver the Multi Link 2 is supported by the version of 1 100 or later and as for a V6 master station make sure the hardware version of the unit is as follows As for V606 V606i any version can be used Analog type V612T5 D V612C5C V610S D V610T D V61C D V608C gt F Matrix type All version The Multi Link 2 cannot be used with a communication interf
81. ly 19200bps ow Parity provided Self diagnosis Turn around delay 5 OFF o 7 or SUE Response delay time Omsec 8 NS GENE UN HEX mode CED 2 Koyo PLC Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC D sub 25pin Male f Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 PLC D sub 15pin Male f Use twist shielded cables RS 422 1 High density D sub 15pin Wiring Diagram 3 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Wiring Diagram 4 V6 CN1 D sub 25pin Male 4 PLC ZAS D sub 25pin Male m Use twist shielded cables 2 Koyo PLC CTI Wiring Diagram 5 V6 CN1 D sub 25pin Male 4 Use twist shielded cables Wiring Diagram 6 V6 CN1 D sub 25pin Male 4 43 PLC E e D sub 15pin Male 4 Use twist shielded cables 1 High density D sub 15pin Wiring Diagram 7 V6 CN1 D sub 25pin Male 4 PLC SS SS SS SSS Se D sub 25pin Male 4 Use twist shielded cables Wiring Diagram 8 V6 CN1 D sub 25pin Male m PLC Re a art D sub 25pin Male M RXD3 Use twist shielded cables In case SU 6M it is possible to use terminal blocks LENS 2 Allen Bradley PLC e 1 A Allen Bradley PLC 1 PLC 5 series Available PLC Wiring Diagram
82. m 3 V6 CN1 D sub 25pin Male m Use twist shielded cables 1 Half pitch 20 pins 2 FATEK PLC NETT 3 FATEK AUTOMATION PLC Available PLC Wiring Diagram RS 232C 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 setting of both PLC and V6 is as follows arty even ne Available Memory HR data register LT DR data register input relay output relay internal relay step relay timer contact counter contact Read only X Y M S T Read only C RT RC counter current value DRC 32 bit counter current value 10 Set the memory to the extent of the memory range of each PLC model timer current value Use TYPE number to assign indirect memory for macro programs CHID eco Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male t PLC D sub 15pin Male m Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male r PLC D sub 9pin Male f Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male r Use twist shielded cables 2 IDEC PLC CD A IDEC PLC Available PLC Selet PLC Type Wiring Diagram refer to P2 120 RS 232C Cable mad
83. m for the memory manager and data logging func tions REC MCARD Memory Card complies with JEIDA Ver 4 0 Used as a recording medium for display data back up and for the memory manager or data logging function SRAM 256K 512K 1M 2M 4Mbyte FLASH ROM 256K 512K 1M 2M 4M 16Mbyte M CARD SFTE Memory Card Editor Application software for editing data stored in a memory card For Windows95 98 NT 4 0 TC485 Terminal Converter Used for connection between a V6 and a PLC at the RS 422 485 terminal block V MDD ACPU QnACPU FXCPU Dual Port Interface Add on connector with two ports specifically designed for the connector on the MITSUBISHI s ACPU QnACPU FXCPU programmer This can improve operability of the ACPU QnACPU FXCPU programmer that is directly connected CU xx xx 00 gt JPCN1 01 gt T LINK 02 gt CC LINK 03 gt Ethernet or FL net 04 gt PROFIBUS 05 gt MELSEC NET10 Communication Interface Unit Used to communicate with each network It makes it possible to connect multiple V6 series to a PLC This system which enables other devices to connect to the same network brings about the reduction in costs of the whole system CUS XX 00 gt JPCN1 01 gt T LINK Communication Interface Unit LEEREN Used for V606 to communicate with each network 1 System Composition GED E I O Extension I O Unit Used as an external I O unit for PLC It has 16 inputs and 16 outputs o HLT 77
84. made by A B RS 232C Wiring Diagram 3 When using RS 232C program transfer cable made by Allen Bradley connect the cable of Wiring Diagram 3 to the D sub 9 pins side of the program transfer cable to communicate with V6 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows SLC500 series ENEN C CENEN EE KNEE EC RN Transmission RS 232C NEN Control Mode rs 422 not supported on Channel 0 C AAA lA E SE DOC ATT ei I emo owe O pone notes dP gt gt Micro Logix 1000 om 0 o 9 e onis ied A A 2 Allen Bradley PLC e 2 Available Memory C ACC counter current value C PRE counter set value A Set the memory to the extent of the memory range of each PLC model HE EAE NE THE Se ae Ce IM NUN MEM AK M LO ME A L9 Use TYPE number to assign indirect memory for macro programs Transmission Parameter Setting O CPU Port Channel O Set up the parameters for CPU port channel 0 using the software specifically designed for this purpose Baud Rate 19200 Duplicate Detect ON ACK Timeout x20 ms 20 Control Line NO HANDSHAKING Parity EVEN Error Detect BCC NAK Retries 3 ENQ Retries 8 Embedded Responses AUTO DETECT O 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
85. mended communication parameter setting of both PLC and V6 is as follows meme 3 PLC System Memory Setting in case of a communication port Set communication condition in the system memory 234 235 for PG COMM port 1 or 236 237 for PG COMM port 2 to communicate with a personal computer Available Memory Memory TYPE Remarks X9XXX register 2 32 2 Sharp PLC e 2 1 To set up Fn file register input File No colon address E g F1 00002 Lo Address Colon File No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male PLC Use twist shielded cables RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables 2 HITACHI PLC e 1 CED HITACHIPLC 1 HIDIC H series Available PLC Wiring Diagram RS 232C Wiring Diagram 1 E RS 422 Wiring Diagram 2 PERIPHERAL port T ona CPU module RS 232C Wiring Diagram 1 HIDIC H series CPU 1 EH RS05 cable made by HITACHI RS 232C Wiring Diagram 1 H 252C on a CPU module PERIPHERAL 1 RS 232C Wiring Diagram 1 PERIPHERAL 2 2 CNCOM 05 cable made by HITACHI RS 232C Wiring Diagram 1 1 When using EH RSO5 cable made by HITACHI connect
86. ming tool port on a CPU module are F3SP21 0N FSSP25 2N and F3SP35 5N 2 When the link unit F3LCO1 1N is used the communication setting and available memory are the same as the contents of 12 YOKOGAWA PLC 1 FA 500 provided that B common register cannot be used Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Item Setting of PLC Comm Parameter of V6 9200bps 9200bps Terminal Character None fixed OO pem AAA When using programming tool port on a CPU module for direct connection to V6 set Data Length as 8 bit in the comm Parameter dialog of V6 because data length 8 is fixed Also specify the CPU Communication Port setting of Configuration in the ladder making tool as follows Personal Computer Link Function Use 2 YOKOGAWA PLC e 2 CT Available Memory CO O AAA S SEEN M X emu ed INS YA oS OA MEN MEE down timer current value timer set value Read only down counter current value 7 common relay L link relay M special relay 14 B file register The CPU No is required in addition to the memory type address The assigned memory is indicated while editing the screen as illustrated FP CPU No E g 1 D00001 un Address Memory Type Set the memory to the extent of the memory range of each PLC model a o amp wl pr Oi oim o U
87. mm Parameter in case of connecting V6 to a V MDD Slide switch 1 A series 2 Q series 3 FX series Set this switch before plugging in the V MDD In case of direct connection with the CPU port of FX1 2 series use the cable MDD CPU In case of direct connection with the CPU port of FX2N 1N ON 1S series use the cable FX 20P CADP made by MITSUBISHI i Cable MB CPUQ 00000000 When use the cable MI4 FX it is impossible to use the V MDD 2 MITSUBISHI PLC e 5 2 17 5 MITSUBISHI PLC 5 FX2N 1N ON 1S A protocol Available PLC Select PLC Type Link Unit Hee RS 232C Wiring Diagram 1 RS 485 Wiring Diagram 3 RS 422 MI4 FX made by Hakko Electronics sites e RS 232C Wiring Diagram 1 RS 422 MI4 FX made by Hakko Electronics RS 232C Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Setting of PLC Comm Parameter of V6 19200bps 19200bps Transmission Data Length sunshine 1 When the link unit FX2N 485 BD FX2N 422 BD FX1N 485 BD FX1N 422 BD FXON 485 ADP is used select RS 485 in Signal Level At the Detail Setting menu of the Comm Parameter dialog of V SFTE setting the value more than 2 in Send Delay Time is recommended 2 18 2 MITSUBISHI PLC e 5 Available Memory D data register TN timer current value CN counter curre
88. nal V6 connected with V Link by connection of RS 485 e The terminal resistance of MJ 2 is always ON 1 Modular Jack 1 amp 2 ED Modular Jack 1 amp 2 Modular Jack 1 amp 2 MJ1 2 The right diagram is the pin arrangement and the signal name of modular jack 1 amp 2 Setting of Modular Jack 1 amp 2 MJ1 MJ2 MJ1 2 Contents SD RD RS 485 data SD RD RS 485 data Output power supply 12345678 RS 232C receive data RS 232C send data te 5 OV Signal ground 6 OV 7 RD 8 0 OSpecify the use of MJ1 MJ2 by the software V SFTE OSelect System Setting from Item and click Others The Others dialog is displayed The setting items of Modular Jack 1 and Modular Jack 2 in the P2 menu are as follows Modular Jack 1 Editor port Memory Card Barcode V 1 0 Multi Link 1 2 Temp CTRL Net 2 V Link 2 Touch Switch 3 Ladder Tool Serial Printer Modular Jack 2 Not used Memory Card Barcode V 1 0 Multi Link 1 2 Temp CTRL Net 2 V Link 2 Touch Switch 3 Ladder Tool Serial Printer It is impossible to select both Multi Link and Temp CTRL Net in each setting of modular jack 1 Itis possible to select this item when Multi Link 2 is selected for Connection and Local Port is set to 1 in the Comm Parameter dialog 2 Multi Link 2 master and Temperature Control Network and V Link are available in the following hardware
89. ng of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 6 CN1 D sub 25pin Male m PLC D sub 9pin Female H Use twist shielded cables CIE 215041 pic 2 RS 232C Wiring Diagram 2 V6 CN1 PLC D sub 25pin Male m D sub 9pin Female HI RS 422 Wiring Diagram 3 For connection to the S10Xa series use a 50 G 1 2W resistance as shown below V6 CN1 D sub 25pin Male r5 Use twist shielded cables 2 Matsushita PLC CED 3 Matsushita PLC Available PLC Wiring Diagram Select PLC Type Link Unit listen p FP1 RS 232C port RS 232C Wiring Diagram 1 on a CPU unit FP3 AFP3462 RS 232C Wiring Diagram 1 AFP3463 RS 422 Wiring Diagram 4 AFP5462 RS 232C Wiring Diagram 1 RS 232C port v FP10 didi ds goi AFP5462 RS 232C Wiring Diagram 1 MEWNET RS 232C port a AFP3462 RS 232C Wiring Diagram 1 AFP3463 RS 422 Wiring Diagram 4 RS 232C tool port RS 232C cable made by Matsushita on a CPU unit AFC8513 FPO RS 232C port i TU RS 232C Wiring Diagram 3 RS 232C tool port RS 232C cable made by Matsushita on a CPU unit AFC8513 RS 232C port on a CPU unit RS 232C Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Transmission Computer link system fixed a If a tool port the ladder port for RS 232C of FPO is used the range of PLC paramet
90. not be connected to V6 by multi link connection Available Memory See Available Memory of CS1 in 7 OMRON PLC 1 Wiring See Wiring in 7 OMRON PLC 1 V SFTE Setting o Select System Setting from Item and click Comm Parameter The Comm Parameter dialog is displayed Set Connection to 1 n in the Detail tab window o Select System Setting from Item and click Network Table Edit Network Table is displayed Double click the No The dialog is displayed Register the CS1 on the network ETvENetCEgHin untitled Edit Network Table File Edit View Help 28 amp 2 TO Edit Network Table Set Network Table No 0 o DNA AT DMA T arget Network fo gt DAT Target Node Address double click o cO Oo E oco n c Qr 2 Sharp PLC e 1 O sharp PLC e Available PLC Wiring Diagram JW50 JW70 JW100 JW50H JW70H ZW 10CM RS 422 Wiring Diagram 3 JW MW100H JW 10CM series JW20 E efc JW 31CUH JW 21CM RS 422 Wiring Diagram 3 JW100 70H JW70 JW100 COM port JW70H JW100H RS 232C Wiring Diagram 1 CPU communication port SUM JW20 JW20 JW22CU P RS 422 Wiring Diagram 2 COM port JW20H JW22CU Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows or ora moot o men TEC eem s TEM Transmssion como Gommand mode ten gt gt Switch Setting of Link Unit Baud rate 19200b
91. nt value 32CN counter 32bits M internal relay X input relay Y output relay TS timer contact CS counter contact 1 The meaning of CN200 CN255 is the same as the meaning of 32CN counter 32bits 2 n case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and a word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 MITSUBISHI PLC e 5 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC erue epum D sub 9pin Female H Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male m PLC Pa A dicen D sub 25pin Male 4 Use twist shielded cables RS 422 Use the cable MI4 FX 2 3 5 10 15m made by Hakko Electronics Co Ltd RS 485 Wiring Diagram 3 V6 CN1 D sub 25pin Male m Use twist shielded cables CDD misusu pic 6 6 MITSUBISHI PLC 6 A link Net10 Change of PLC Type PLC Type Net 10 changes to A link Net10 and the new Net10 adds to PLC Type in V SFTE Ver 1 2 16 0 or later To select Net10
92. ochrome 16 colors Monochrome 16 colors 128 colors 8 gradation 8 gradation s blinking blinking blinking blinking blinking 16 colors Back light Cold cathode rectifier which can be exchanged by a user except for V606i Contrast Adjustment By function switches only in case of STN type Back light Average Life Approx 40 000h Approx 50 000h fades The lamp is lit when the power is supplied Hinr a DESI V610C V610T V610S V612C V612T Display Device STN TFT STN TFT Color LCD Color LCD Color LCD Color LCD Resolution W X H dots 640 X 480 800 X 600 Dot Pitch W X H mm 0 11 X 0 33 0 33 X 0 33 0 264 X 0 264 0 1025 X 0 3075 0 3075 X 0 3075 Effective Display Area 211 2 X 158 4 246 0 X 184 5 W X H mm 10 4 inches 12 1 inches 128 colors 4 blinking 16 colors Cold cathode rectifier which can be exchanged by a user By function switches only in case of STN type Approx 25 000h The lamp is lit when the power is supplied When the normal temperature is 25 C and the surface luminance of the display is 50 of the default 1 Specifications QI Display Function Specifications All the V6 series Display Language Japanese Eng W Europe Chinese Chinese simplified Characters 1 4 size 1 byte ANK code Latin 1 ASCII code ASCII code Korean ASCII code Chinese simplified Hangul without Kanji 2 byte 16 dot JIS 1st and 2nd 2 byte 32 dot JIS tst Size of Characters 1 4 size
93. odel Use TYPE number to assign indirect memory for macro programs Notes on converting the data file of V4 or GD 80 into the V6 data file When converting the data file of V4 or GD 80 into the V6 data file the PLC type is automatically selected as MICREX F series V4 The order of bit significance in memory is reversed Check carefully when specifying switch or lamp data ve 15 14 18 12 11 10 09 08 o7 oe os 04 o 02 01 oo pen oj1ja s s e z jejoja s co p e Fr 2 FUJI PLC e 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC Use twist shielded cables RS 485 Wiring Diagram 2 V6 CN1 D sub 25pin Male mM Use twist shielded cables 2 57 CED 2 FUJI PLC e 2 FUJIPLC 2 FLEX PC series Available PLC Selkect PLC Type Wiring Diagram ot eeo 1 NS T NJRS 1 RS 232C Wiring Diagram 1 FLEX PC aem Series T NJRS 2 RS 232C Wiring Diagram 1 NJRS 4 RS 485 Wiring Diagram 2 1 When FLEX PC TOYOTA version is used select FLEX PC T in PLC Type Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows EP ooo Oo Transmission 1 TS Transmission 2ruiric2 REN Switch Setting MODE Switch RS 232C 1 RS 485 3 RS 485 Port Setting SW 0 for both x10 x1 RS 485 Te
94. ollows Setting of PLC Comm Parameter of V6 19200bps 19200bps Port o for x10 1 for x 1 Item Baud Rate Parity Transmission Data Length Code Stop Bit Host link system fixed Tom e Function Response Delay Time Time out ASCII HEX None fixed HEX fixed 2 Rutomationdirect PLC 2 133 Available Memory O Direct LOGIC Direct LOGIC K Sequence DX wem E ELLE es ee ICI EC se 3 GY global outputs T timer contact CT counter contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male M PLC Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Cnr 2 Rutomationdirect PLC Wiring Diagram 3 V6 CN1 D sub 25pin Male m n PLC D sub 15pin Male M Use twist shielded cables 1 High density D sub 15pin Wiring Diagram 4 V6 CN1 D sub 25pin Male 4 PLC D sub 15pin Male M Use twist shielded cables RS 422 Wiring Diagram 5 V6 CN1 D sub 25pin Male 4 PLC a Wiring Diagram 6 V6 CN1 D sub 25pin Male m PLC Zn D sub 25pin Male 1 TXDS RXD3 Use twist shielded cables In case SU 6M it is
95. on Setting The recommended communication parameter setting of both PLC and V6 is as follows Gomes M atraco ma 94 ow Available Memory KW constant word a aaoo M bitmemory EN Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 Telemecanique PLC 2 131 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 485 Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC MiniDIN 9pin Male 4 12 132 2 Automationdirect PLC Automationdirect PLC Available PLC Select PLC Type Wiring Diagram refer to P2 133 134 Port 1 on a CPU unit RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 5 Direct LOGIC Port 3 on a CPU unit RS 485 Wiring Diagram 6 Port 2 on a CPU unit RS 232C Wiring Diagram 2 D2 240 Port 2 on a CPU unit D2 250 Port 2 on a CPU unit RS 232C Wiring Diagram 3 RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 5 Port 0 on a CPU unit RS 232C Wiring Diagram 4 Direct LOGIC Port 3 on a CPU unit RS 485 Wiring Diagram 6 K uence KSeq Port 2 on a CPU unit Port 1 on a CPU unit RS 232C Wiring Diagram 2 Port 2 on a CPU unit Port 1 on a CPU unit Port 1 on a CPU unit Port 2 on a CPU unit RS 232C Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and V6 is as f
96. op View Rear View 288 CL ERIS M 1 0 MJ2 MJ1 EE O Front View 240 310 Panel Cut out of V610 Unit mm 216 2 ED 1 Dimensions and Panel Cut out Dimensions of V612 Unit mm O Top View O Rear View O Front View E 270 245 2 Panel Cut out of V612 Unit mm EA 246 2 5 1 Mounting Procedure 1 17 6 Mounting Procedure Mounting Procedure 1 Cut out the mounting panel Max thick 3 2 mm to match the dimensions shown below Mounting panel Unit mm 1747 220 5 5 Cut out 0 0 165 5 7 131 0 0 246 2 5 O O 6 6 6 6 0 216 277 2 Insert the fixtures attached to V6 into the mounting holes on V6 Tighten them with the locking screws Number of the fixtures 4 pcs torque V606 V6061 V608 0 3 0 5N m 3 5kgf cm V610 V612 0 5 0 7N m 5 7kgf cm Fixture Mounting panel Dimensions of Fixtures Unit mm Mounting hole 17 8 for V606 V608 17 8 for V606i V610 V612 90 3 Mount unit flash with mounting plate with gasket tight against outside of mounting unit Mounting Angle The unit V6 shall be installed within the angle of O to 135 degrees as shown below Display 1 18 1 Wiring Wiring Electrical Wiring OConnects the cable for power supply to TB1 on the rear side of V6 5n SY Power supply T DC24vV 10 Fr L O
97. or V6 with card interface or V6 and CREC card recorder CU 00 CUS 00 JPCN 1 CU 01 CUS 01 T LINK CU 02 CC LINK CU 03 Ethernet or FL net CU 04 PROFIBUS CU 05 MELSEC NET10 Model Indication V606 A 5 7 inch display V606i A 5 7 inch display V608 A 7 7 inch display 1 System Composition 1 7 V610 A 10 4 inch display V612 A 12 1 inch display Peripheral Equipment The following options are available for using V6 series more effectively V SFTE Panel Editor for Windows95 98 NT4 0 Application software for editing display data for V series V6 CP Data Transfer Cable 3n Connects V6 to a personal computer or a personal computer to CREC V6 PT Printer Cable 2 5m Connects V6 to a printer When using CBM292 293 printer our printer cable V6 PTCBM is available V6EM 4 VOEM Ai FPROM Cassette V6EM 4 for V608 V610 V612 V6EM 4i for V606i Extension print circuit board to extend the memory for display data back up There is 4Mbyte type V6EM RS V6EM RSi SRAM Cassette VGEM RS for V608 V610 V612 VOEM RSI for V606i Extension print circuit board to back up the memory for sampling data Internal Memory and Memo Pad There is 512kbyte type It is also possible to set the calendar for displaying in V6 at this cassette EED 1 System Composition CREC Card Recorder Reads display data created by personal computer or works as an external memory storage syste
98. or must fill out can be printed in an instant Sampling Function This function makes it possible to store the sampling data in an IC card The stored data can be edited easily by a personal computer It can be used widely in various fields Macro Function With this function V6 series can make programs which previously had to be produced by PLC Multi Window Function Up to three windows can be displayed simultaneously on a screen It is easy to move or delete the displayed windows Video Function V6 series can be connected to a video or a CCD camera and the image which is taken by a video or a camera can be displayed directly in a screen of V6 series V606 V606i A 5 7 inch display with 320 X 240 dot resolution V608C A 7 7 inch display with VGA 640 X 480 dot resolution V610 A 10 4 inch standard model display which uses the previous screen data 10 V612 A 12 1 inch large display with SVGA 800 X 600 dot resolution 1 2 1 Notes on Usage Notes on Usage Environmental Limits 5 Never install MONITOUCH in a place where impacts or vibrations may be transmitted 1 Use MONITOUCH at an ambient temperature of 0 50 C and a relative humidity of 85 RH But a V610 STN multi color display can be used at 0 40 C 6 Avoid any place in which there is the possibility that water corrosive gas flammable gas solvents grinding fluids or cutting oil can come in contact with the unit Never install the unit in a p
99. owing is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 6 CN1 D sub 25pin Male M PLC 123456 Use twist shielded cables CHD 2 LG PLC te Pic Available PLC Wiring Diagram MASTER K10 60 200 K10 60 200 RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 2 MASTER K500 1000 500 1000 TEE RS 422 Wiring Diagram 5 LGMKX00S K2005 K3005 K10005 CPU port RS 232C Wiring Diagram 3 MASTER KxxxS CNET K4F CUEA RS 232C Wiring Diagram 4 GLOFA CNET GAL CUEA RS 422 Wiring Diagram 6 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows o MASTER K10 60 200 tem BaudRate 9600bps fixe O Pay None tices 0 Transmission Datalengn 8 fixed owe sos o times o o MASTER K500 1000 Party ewed ee e aea coe sosm ge 1 In case of RS 422 the baud rate is fixed at 9600bps o LGMKXOOS Setting of PLC Comm Parameter of V6 38400bps 38400bps None fixed MEL Transmission Data Length 8 fired rs A idis fixed MN ee SU 2 LG PLC CED o MASTER KxxxS CNET GLOFA CNET Setting of PLC Comm Parameter of V6 38400bps 38400bps Transmission Data Length s Y eo Available Memory O MASTER K10 60 200 E a w ewen 3 T6 wenwenau NC co eounerowentvane
100. port host link port C120 LK201 V1 C120 LK202 V1 C200H LK201 C200H LK201 V 1 C200H LK202 C200H LK202 V 1 CPU unit with a built in RS 232C port host link port C500 LK203 CPU unit with a built in RS 232C port host link port Communication board C200HW COMO2 06 CPU unit with a built in RS 232C port host link port CV500 LK201 CPU unit with a built in RS 232C port host link port Wiring Diagram refer to P2 25 26 RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 4 RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 4 RS 232C Wiring Diagram 2 RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 4 RS 232C Wiring Diagram 2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 5 1 RS 232C Wiring Diagram 2 CQM1 CIFO1 2 made by OMRON RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 6 RS 232C PORT1 Wiring Diagram 3 PORT2 Wiring Diagram 2 RS 422 PORT2 Wiring Diagram 5 RS 232C Wiring Diagram 2 CS1W SCU21 RS 232C Wiring Diagram 2 Communication board RS 232C Wiring Diagram 2 CS1W SCB41 RS 422 Wiring Diagram 7 1 Cannot be connected to V6 by multi link connection 2 Exchange the shell the side of D sub25 recommendation 17J 25 made by DDK 2 OMRON PLC 1 CT Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Item Setting of PLC Comm Parameter of V6 19200bps 1
101. possible to use terminal blocks MONTITOUCH V6 Hakko Electronics Co Ltd Sales 238 Kamikashiwano machi Matto shi Ishikawa 924 0035 Japan TEL 076 274 2144 FAX 076 274 5208 Tokyo Office TEL 03 3255 0166 FAX 03 3255 0298 Osaka Office TEL 06 6385 8234 FAX 06 6385 7851 Nagoya Office TEL 052 789 0096 FAX 052 789 0098 Head Office 209 2 Koh Mameda honmachi Kanazawa shi Ishikawa 920 0047 Japan PRICE Y 1 000 2006NE4 20802000
102. ps sw o Station adress upper hah Swaa Sw3 4 Baud rate SW4 0 19200 1 9600 2 4800 3 2400 4 1200 5 600 Teminating resistance provided 2 Sharp PLC e 1 CT PLC System Memory Setting in case of a communication port Baud rate 19200bps fozfos os os os o2 D1 oo soe o o r 1 o o olo 237 ojo ojojo ojojs System memory Available Memory Memory TYPE Remarks O E M eee 10000 ety EXXXX self diagnosis bXXXX timer counter Fn file register 1 To set up Fn file register input File No colon address E g F1 00002 e Address Colon File No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CED 2 Sharp PLC e 1 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 5 PLC Use twist shielded cables RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male 5 PLC Use twist shielded cables Wiring Diagram 3 V6 CN1 D sub 25pin Male 2 Sharp PLC e 2 ED sharp PLC 2 JW 32CUH 33CUH Available PLC Wiring Diagram Select PLC Type RS 232C JW20 JW 32CUH Communication port PG COMM2 Wiring Diagram 1 COM port JW 33CUH on a CPU unit RS 422 PG COMM1 Wiring Diagram 2 PG COMM2 Wiring Diagram 2 Communication Setting The recom
103. r Wiring Diagram 1 FXON tool port RS 422 MM FX made by Hakko Electronics FX2N 1N i FX2N series tool port MB CPUQ made by Hakko Electronics FX2NC tool port FX 20P CADP made by MITSUBISHI FX1S series FX1S tool port When the CPU is updated or the specifications are changed there is some possibility that V6 cannot be connected to the PLC 2 14 2 MITSUBISHI PLC e 4 Available Memory O FX1 2 FXON FX1S series D data register TN timer current value CN counter current value 32CN counter 32bits M internal relay DX Data register 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits 2 When use D1000 2999 select DX O FX2N FX1N series D data register TN timer current value CN counter current value 32CN counter 32bits CS counter contact 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and a word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits Set the memory to the extent of the memory range of each PLC model
104. rminal Resistor ON Character Switches Lom CT Even Same as V6 normally 19200bps Available Memory Standard Memory TOYOTA Ver TYPE Remarks data register latch relay WL WK as word device input relay WX as word device li i WM as word device i output relay WY as word device file register N timer current value N counter current value timer contact counter contact WS step relay Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CED 2 FUJI PLC 2 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male m PLC Use twist shielded cables RS 485 Wiring Diagram 2 V6 CN1 D sub 25pin Male m Use twist shielded cables 2ruirice QD FUJIPLC 3 FLEX PC CPU port Available PLC Wiring Diagram Select PLC Type PLC refer to P2 62 RS 485 FU CPUNS FLEX PC CPU made by HAKKO CPU NJ B16 RS 232C port RS 232C Wiring Diagram 1 1 When FLEX PC CPU TOYOTA version is used select FLEX PC CPU T in PLC Type Communication Setting Connect to the CPU port The communication parameter setting of V6 is done automatically Available Memory Remarks 5 Gm o o Tw Wess Aft Li ame RO as ora cese MAIS ARI INC ON onerare oN e tierna rf
105. rnal terminals to FG JAC external terminals to FG DC external terminals to FG 1500V AC per min BOOV AC per min 1500V AC per min BOOV AC per min 500V DC 10MQor more 0 C 50 C V610 STN Color 0 C 40 C 10 C 60 C 8596 RH or less without dew condensation No conductive dust No cutting oil or no organic solvent to cling to the unit No corrosive gas Vibration frequency 10 150Hz Acceleration 9 8m s 1 0G Single amplitude 0 075mm 3 directions of X Y and Z one hour Pulse shape Sine half wave Peak acceleration 147m s 15G 3 directions of X Y and Z six times Noise voltage 1500Vp p noise width 1us Contact 6kV Air 8kV Grounding resistance less than 1000 Protection structure front panel complies with IP65 when gasket using rear panel complies with IP20 Form in a body Mounting procedure inserted in a mounting panel Cooling naturally Approx 2 5kg Approx 3 0kg 310 X 240 X 92 3 334 X 270 X 95 8 2897 X 216 2 3137 X 246 23 GREY PC ABS CED 1 Specifications Display Specifications Den mec WES V606M V606C V606iM V606iC V606iT V608C Display Device STN STN STN STN TFT STN Monochrome Color Monochrome Color Color Color LCD LCD LCD LCD LCD LCD Resolution W X H dots 320 X 240 640 X 480 Dot Pitch W X H mm 0 36 X 0 36 0 12 X 0 36 0 36 X 0 36 0 12X 0 36 0 36 X 0 36 0 082X0 246 Effective Display Area 115 2 X 86 4 157 4 X 118 1 W X H mm 5 7 inches 7 7 inches Color Mon
106. se TYPE number to assign indirect memory for macro programs GED 2 voxocawn ric gt 2 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Se D sub 9pin Male M RS 422 Wiring Diagram 2 V6 CN1 D sub 25pin Male m Use twist shielded cables 2 YASKAWA PLCe1 2 47 6 YASKAWA PLC e 1 Available PLC Wiring Diagram Select PLC Type PLC Link Unit refer to P2 48 49 JAMSC IF60 JAMSC IF61 RS 232C Wiring Diagram 1 GL60 series JAMSC IF61 1 JAMSC IF612 a JAMSC IF613 RS 422 Wiring Diagram 3 Memobus Memobus port GL120 on a CPU module GL 130 series RS 232C Wiring Diagram 1 JAMSC 120NOM27100 PROGIC 8 PORT2 on a CPU unit RS 232C Wiring Diagram 2 Other kinds of MEMOBUS unit can be connected RS 422 Wiring Diagram 4 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows LI CT cam p Sa DIRE 1 Port Delay Timer omea Select TYPE 1 or TYPE 2 from Trans Mode in Comm Parameter of the V SFTE GL120 130 series Type 2 Standard binary mode GED 2 vaskawa rcs Available Memory 3 wawa INCH LLL ER tragos E LLL A esms 3 LLL ps A 5 We 8 LLL T were S p Rem T wed 7 Set the memory to the extent of the memory range of each PLC model Use
107. selected as SIEMENS S5 V4 In V4 or GD 80 the order of bytes in I input relay Q output relay and F internal relay is reversed F0000217 F0000207 F0000217 F0000207 Memory setting F0000210 F0000200 Memory setting F0000210 F0000200 of V4 or GD 80 d of V6 1514 13 12 11 10 9 8 7 655 4 3 2 1 0 1 413 12 11 10 9 8 7 6 5 4 3 2 1 0 Memories to be accessed pi xl Memories pi pi to PLC by V4 or GD 80 F20 0 F21 0 to be accessed F21 0 F20 0 F20 7 F21 7 to PLC by V6 F21 7 F20 7 Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male rg PLC Use twist shielded cables RS 422 Wiring Diagram 3 V6 CN1 D sub 25pin Male 4 PLC A UMS D sub 15pin Male mM Use twist shielded cables 2 SIEMENS PLC e 3 CZD SIEMENS PLC 3 S5 PG port Connection Connect to the S5 series PG port The communication parameter setting of V6 is done automatically Available PLC Wiring Diagram Select PLC Type PLC refer to P2 92 Programing port S5 PG port S5 series g g P 6ES5 734 1BD20 cable made by SIEMENS on a CPU unit RS 232C Wiring Diagram 1 When using 6ES5 734 1BD20 cable made by SIEMENS connect the cable of Wiring Diagram 1 to the D sub 25 pins side of GES5 734 1BD20 to communicate
108. st The data in the reading target does not exist Selected data can not be read The data in a memory card cannot be read Reading Error occurred The error occurred during writing data into a flash ROM of V6 Data discrepant There is some discrepancy in data when comparing data between a memory card and V6 Screen data on V6 will be broken This message appears to inform the user that the data in V6 will be broken by transferring the font data the size which is larger than the present data from a memory card to V6 The OK switch continues the transferring The Cancel switch stops transferring V6 type is different The specified type of the data in V6 is different from the type of the memory card data Undefined Error occurred The error occurred due to some cause other than the above mentioned 1 Function Switches QUPD Function Switches Type SYSTEM F1 F2 F3 F4 F5 F6 F7 V606 V606i SYSTEM F1 F5 the SYSTEM switch By pressing this switch the functions of the switches F1 F7 are defined The type of the SYSTEM switch is alternate When this switch is pressed once the switch menu is displayed by the side of the function switches F1 F5 and each function switch corresponds to an item on the displayed switch menu When the SYSTEM switch is pressed again the switch menu which is displayed on the screen will disappear and the functions of switches F1 F7 are de
109. terminal resistance RD SD terminal resistance RD SD terminal resistance ON OFF OFF Use twist shielded cable e Short circuit between RD and SD and RD and SD when the TC485 terminal converter is not used O When multiple V6 are connected directly to MITSUBISHI s QCPU port the optional equipment GD MDD2 is required e Set the dip switch SW1 of TC485 as 2 wire connection when the TC485 terminal converter is used V MDD V6 TC485 V6 TC485 V6 TC485 GD port EHE PEE m 5 DTR N TS RD terminal resistance RD SD terminal resistance RD SD terminal resistance RxD ON OFF OFF o4 i d dips Use twist shielded cable a WE DSR Que oy a Ng et ad ot 21 p e Short circuit between RD and SD and RD and SD when the TC485 terminal converter is not used 1 38 1 Operation of U6 Main Menu 6 Operation of V6 Main Menu When the power of V6 is turned on for the first time the screen on the below left is displayed After transferring the screen data to V6 the following Main Menu is displayed When power is turned on for the first time Main Menu after trasferring data V610T20 1998 9 1 07 23 30 Systern Information FONT VF DRV VER 1 000 SYSTEM PROG VER 1 000 VER 1 000 1 000 1 000 MELSEC AnA N U JAPANESE 32 ilr 7 XS LOCUS Transfer the screen data Soroan batan PLC Type MITSUBISHIAnA N U series Error Stop Comment Time Out 0 50 sec ry 3 Size 786432 Ata es SUS 15 Fa ID SHE
110. the memory range of each PLC model NEAL NM Use TYPE number to assign indirect memory for macro programs Car 2 SRIR PLC Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male r PLC PGU port Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male r PLC PCD7 F120 Use twist shielded cables RS 485 Wiring Diagram 3 V6 CN1 D sub 25pin Male M PLC PCD7 F110 Use twist shielded cables 2 MOELLER PLC CH Q MOELLER PLC Available PLC Select PLC Type Wiring Diagram refer to P2 129 RS 232C Wiring Diagram 1 PS4 PS4 201 MM1 PRG port ZB4 303 KB1 Cable made by MOELLER Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Available Memory Remarks M Marker MEN MW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Cnr 2 Telemecanique PLC Telemecanique PLC Available PLC Select PLC Type Wiring Diagram refer to P2 131 TSX Micro TSX Micro RS 485 Wiring Diagram 1 Communicati
111. to 1 The following actions are added to the regular functions of these items Auto 2 Even if the time does not reach the setting time the backlight will turn off if the F5 switch is pressed provided that bit 11 Backlight of Read Area n 1 is OFF level Refer to the Reference Manual Manual If you select Manual the backlight will turn on or off only when this switch is Manual2 pressed Also you can specify the item Backlight Power ON Time Control When you turn the power supply of V6 on ON the backlight is lit OFF the backlight is off Connection to 2 Link Units MITSUBISHI PLC e MITSUBISHI PLC 2 MITSUBISHI PLC e 3 MITSUBISHI PLC 4 MITSUBISHI PLC 5 MITSUBISHI PLC 6 OMRON PLC OMRON PLC e 2 sharp PLC e 10 Sharp PLC 2 11 HITACHI PLC e 1 12 HITACHI PLC e 2 13 Matsushita PLC 14 YOKOGAWA PLC 15 YOKOGAWA PLC 2 16 YASKAWA PLC e 17 YASKAWA PLC 2 18 TOYOPUC PLC 19 FUJI PLC e 20 FUJI PLC 2 21 FUJI PLC e 3 22 FUJI PLC 4 23 Koyo PLC 24 Allen Bradley PLC 1 25 Allen Bradley PLC 2 26 GE Fanuc PLC e 27 GE Fanuc PLC e 2 28 TOSHIBA PLC 29 TOSHIBA MACHINE PLC 30 SIEMENS PLC e 31 SIEMENS PLC 2 32 SIEMENS PLC 3 33 SIEMENS PLC 4 34 SIEMENS PLC e 5 35 SIEMENS PLC 6 36 Shinko PLC 37 SAMSUNG PLC 00 00S ON 38 KEYENCE PLC e 39 KEYENCE PLC e 2 40 KEY ENCE PLC 3 41 LG
112. ve drawing software Drawing Tool Name of exclusive drawing software V SFTE Personal computer with 486 or more pentium or more is recommended OS Mlicrosoft Windows 95 98 or NT version 4 0 Capacity of hard disk required free area of approx 60MB or more Display resolution of 640 X 480 or more 800 X 600 is recommended CED 1 Serial Connector CN1 Q Serial Connector CN CN1 is used for communicating between a PLC and a V6 RS 232C RS 422 485 Serial Connector CN1 The pin arrangement of serial connector is as follows CN1 Dsub 25pin H 1 14 Q e e e e e e e e e e e a nooo Cr n et Communication Cable of RS 232C RS 422 RS 232C Pin No RD RS 2320 receive data Notused o Notued Notused o RS 422 RS send data 15 Not used Noused o Noused o Noused o Noused o Motused no rs recae dat 1 2 3 4 5 7 10 11 Oln case of RS 232C SD and SG and RD and SG form a pair OConnect the shielded cable to pin No 1 or the connector case cover V6 CN1 To the RS 232C port of the PLC link unit Receive data SG SG Send data RS 422 1 Serial Connector CN 1 1 27 Oln case of RS 422 SD and SD and RD and RD form a pair OUse SG if possible OConnect the shielded cable to pin No 1 or the connector case cover OUse TC485 which is the option
113. version or later of V6 As for V606 V606i any version can be used Analog type V612T gt D V612C gt C V610S gt D V610T gt D V610OC gt D V608C F Matrix type All version 3 As for Touch Switch refer to the Analog RGB Input manual Editor Transferring OUse modular jack 1 MJ1 in case of editor transferring OWhen Editor port is selected for Modular Jack 1 in the P2 menu it is also possible to transfer the data while running because the auto change of the local mode and the run mode is valid When Editor port is selected on line editing and the simulation mode are also available OWhen the item other than Editor port is selected for Modular Jack 1 in the P2 menu be sure to transfer the data by the software in the local mode On line editing and the simulation mode are not available OWhen the data is transferred by software use the cable for data transferring which is the optional equipment made by Hakko Electronics Co Ltd V6 CP 3m to connect V6 to a personal computer CED 1 Bar Code Reader Interface Bar Code Reader Interface O It is possible to receive the signal from a bar code reader by connecting a bar code reader to V6 via the modular jack MJ1 MJ2 of V6 series O To connect a bar code reader to V6 via MJ1 MJ2 use the cable which is the optional equipment made by Hakko Electronics Co Ltd V6 BCD Length 3m Accessory Modular Plug 12345678 Brown 5V Red OV
114. with V6 Available Memory G n 2 owe EG D C A E A A AS absolute address e 0 0 0 0 9 The assigned memory is indicated while editing the screen as illustrated E g DB003000 un Address No Block No 9 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CE sone Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male i1 PC Converter cable 6ES5 734 1BD20 D sub 25pin Male m Use twist shielded cables 2 SIEMENS PLC 4 QED 2 SIEMENS PLC 4 S7 200 PPI Available PLC Wiring Diagram refer to P2 94 Select PLC Type S7 200 PPI S7 200 series RS 422 Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows tem o paty o Evene y Available Memory Memory TYPE Remarks V data memory VW as word device input a B B NE REI IW as word device Possible to write only to the area which is not used D counter contact Read only HC high speed counter contact AIW analog input Possible to use double words AQW analog output SM special memory special relay SMW as word device SW as word device S stage Set the memory to the extent of the memory range of each PLC mod
115. y a T wea CS counter set value 7 O MASTER K500 1000 Memory TYPE Remarks input output Input read only EA rey nk rea keap ray special relay Read only timer current value counter set value MES D data register 7 P M L K F T C ti 2 LG PLC O LGMKX00S P npu oupu O Input read only ome 6 Read only TC timer contact CC counter contact 0 O MASTER KxxxS CNET P input output Input read only NN PW as word device L K keep relay KW as word device F special relay 4 Read only FW as word device S enera 5 T6 Wem S 3 CC counter contact O GLOFA CNET Memory TYPE Remarks M internal memory E 39 il MW as word device Q output QW as word device input IW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects V6 to PLC RS 232C Wiring Diagram 1 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Wiring Diagram 2 V6 CN1 D sub 25pin Male 4 PLC Use twist shielded cables Wiring Diagram 3 V6 CN1 D sub 25pin Male m PLC SS Rut EE D sub 25pin Male m Use twist shielded cables 2 LG PLC 12 113 2 114 2 LG PLC Wiring Diagram 4 V6 CN1 PLC D sub 25pin Male 4 D

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