CPU Board 1: Z-511J User`s Manual / Hardware Version
Contents
1. ere PG port upstream communication port Support COMM1 _ PG port upstream communication port COMM RS232C or RS422A Upstream communication port RS422A 5 pin connector 5 pin connector lt Proprietary cable JW 203EC JW 207EC LO board 5V DC in bad deene Eege LO board Z 325J installation is possible Data link port DL1 DL9 CL or M net can be used If Z 325J is used as I O board horizontal lt DL1 data link system gt No of connected stations Max 16 stations Total extension length 1 km Transfer rate 153 6 kbps No of link points Max 64 bytes When JW 21CM or J board are used as the master station the number of link points per station is restricted by the number of connected stations J board J board JW20 JW20H JW30H JW50 70 100 H I O board Z 332J board LO board CPU board Z 311Jd Z 312J JW 21CM JW 10CM DL1 data link communication system The DL1 data link is a communication system used to send and receive data between the master station and a slave station and between slave stations as shown in the figure below Master station 00 station Slave station 01 Slave station 02 Slave station 03 ae EE e SE SE G tter eg eisen Et BZ fave a staton ot Scene ae e ee gester Egeter2. Grounding Class 3 grounding 5V current consumption Approx 700 mA Weight Approx 400 g Board size 115 mm x 190 mm 5 2 Performance specifications CU section Item Specifications Calculation method Cyclic calculation and interrupt dealing system Processing speed Equivalent to JW30HN Basic instruction 0 038 seconds STR AND OR and others 0 076 seconds OUT TMR CNT Few psecconds on average Application instruction Few u to few tens psecconds on average Numbers of instruction Basic instruction 20 application instruction 113 Program size 15 5 K words equivalent to the JW32CHU1 ROM operation ROM operation with an internal flash ROM Memory back up Back up by an integrated lithium primary side battery Calculation port memory section No of control I O points 1024 points equivalent to the JW32CUH1 Timer counter 1024 points in total Data memory 30720 relay and other points File register 80 K bytes Connectable I O board Up to 8 modules including this module can be installed Clock feature Yes Host communication port Use PG COMM1 port or PG COMM2 port Communication standard RS232C RS422A Only PG COMM2 port can be used for RS232C With an RS422A connection 1 N connection is available D sub 15 pin or proprietary connector The port complies with the Sharp computer link
3. COMM1 COMM2 COMM2 RS422A Data link port O COMM1 lamp orange Personal computer etc Only RS 422A Usable when the support tool is not connected Personal computer etc RS 232C or RS 422A Usable when the support tool is not connected L angle connector Note The L angle connector branches RS422A signals from the COMM2 Therefore if the D sub 15 pin connector of the COMM2 is not used the L angle connector can be used as upstream communication port lt Flickers during communication by connecting PG COMM1 port and personal computer etc COMM2 lamp orange lt Flickers during communication by connecting PG COMM2 port and personal computer etc PG COMM1 port Only the RS 422A Connect with support tool Usable as communication port RS 422A only when the support tool is not used PG COMM2 port RS 232C 422A Connect with support tool Usable as communication port RS 232C 422A when the support tool is not used 28 ak WP 1 Pin arrangement of PG COMM1 port PG COMMN2 port port Contents Outside body grounding Sending data PLC to personal computer Signal grounding Signal grounding D Receiving data Personal computer to PLC lt PG COMM1 Signal name 7 2 3 4 5 6 T 8 9 15 pin D sub female connector Receiving d
4. KS Within 15m RS 232C Use the RS 232C RS 422 converter such as Z 101HE when the total length of the communication cable is over 15m PG eon port RS 232C RS 422 converter or PG COMN2 port ____ 2 101 HE _ 11 i i Host computer name RD gt RD Signal name gt 9 RxDA k 4 10 i Fe ech poets SHIELD Shielded wire m TD TD 1 Esseg re a see SS SE E ES Class 3 grounding Within 15m L Within 1km RS 422A RS 232C 2 When using RS 422A for communication method Be within 1km for the total length of a communication cable Z 511J Z 511J 8 PG COMM1 port PG COMM1 port or PG COMM2 port or PG COMM port Host computer Signal name Signal name 3 1 e XD XD 9 XD XD FG 10 i A mE enat ce Within 1km RS 422A gt 30 3 Setting of Z 511J system memory Set system memory 234 235 communication port 1 and 236 237 communication port 2 for communication conditions when communicating with a personal computer System memory number Description Transfer rate parity stop bit Set communication port 1 Station No 001 to 037 ocr PG COMM1 port Transfer rate parity stop bit Set communication port 2 Station No 001 to 037ocr PG COMN2 port 1 Setting of communication port 1 PG
5. Horizontal arrangement Z 511J Z 325J x n n max 3 SW setting and I O relay allocation Z 325J SWI VO relay Installed 7 395 el RACK NO address address 000 001 Z 325J Z 511Jd 002 003 004 005 006 007 010 011 012 013 014 015 016 017 020 021 022 023 024 025 026 027 030 031 032 033 034 035 036 037 040 041 HON 042 043 OFF 044 045 4 Horizontal arrangement Z 511J Z 334J Z 325J x n n max 3 SW setting and I O relay allocation Z 325J SWI VO rela Installed Er Gees Installation RACK NO address 7 000 001 R 0 S 0 Z 325J Z 511J J 002 003 IR 0 S 1 7 004 005 R 0 S 2 ER 7 006 007 R 0 S 3 D 3 010 011 R 0 S 4 7 012 013 R 0 S 5 1 014 015 R 0 S 6 1 016 017 R 0 S 7 Z 325J 7 020 021 R 1 S 0 7 325 Z 334J I1 022 023 R 1 S 0 Z 325J Z 51 1J
6. see the JW21CM User s Manual and the Commu nication board Z 331J 332J 333J User s Manual 40 14 Items the user must supply Please supply the following parts yourself Connectors for the upstream communication port and power line Connector Connector nam Applicable connector number e pplicable connecto Upstream communication port CN 5265 N Terminal 2578G Data link port CN 5265 N Terminal 2578G 5V DC power CN 51102 0500 Terminal 50351 8100 44 SHARP MANUFACTURING SYSTEMS CORPORATION Information about Sharp image sensor camera and programmable controller is available at our internet homepage http sharp world com sms 1 0v 10 2005 0 11 M S
7. 1 address 2 09001 09003 code Response time 38 13 Data link port The Z511J consists of a CPU section and a data link section This data link section is identical to the communication board Z 332J However it is compatible with the 4 wire system 1 Arrangement of data link ports Z 511J COMM1 Comm2 COMM2 RS422A Data link port 5 VDC Power soyfce O 1 FG 2 Li 3c mm L2 Ar m L3 5 L4 L angle connector Data link port compatible with the 4 wire system Se Description Connect to the shield Sending data PLC to personal computer RS422A Sending data PLC to personal computer RS422A Receiving data Personal computer to PLC 4 wire system only RS422A Receiving data Personal computer to PLC 4 wire system only RS422A 39 2 Connection examples a When the Z 511J is used as a data link slave station Twisted pair shield cable eS L1 LI L1 L1 L1 L2 L2 A L2 a L2 A L2 SHIELD SHIELD L3 L3 FG FG mM FG Ground Ground FG Master station Slave station 01 Slave station 02 Slave station 03 Slave station 17 JW 10CM JW 10CM ZW 160DL9 ZW 501D9 Z 511J Class 3 Class 3 Class 3 Class 3 Class 3 grounding grounding grounding grounding grounding
8. 135 g Z 323J 30 point I O board 117 5 mm i Approx 180 g Z 324J 28 point I O board 115 mm i Approx 210 g Z 331J Communication board 1 LM CM 117 5 mm 180 mm Approx 180 g Z 332J Communication board 2 CM 117 5 mm 180 mm i Approx 180 g Z 333J Communication board 3 LM 117 5 mm 180 mm e Approx 180 g Z 334J ME NET board 117 5mm 180 mm d Approx 250 0 Z 335J Satellite net board 117 5mm 180mm i Approx 250 g Z 351J Analog input board 117 5 mm 180 mm Approx 220 g Z 352J Analog output board 117 5mm 180 mm i Approx 210 g Z 353J Pulse output board 117 5 mm 180 mm Approx 200 g Z 341J Fixing bracket A Approx 220 g Z 342J Fixing bracket B Approx 290 g See 8 3 Specialized fixing bracket Including standoffs and screws Example for measurement D Measurement D B iti When the board When the board pard composition D2 16 6 mm is are D2 21 6 mm is are used used CPU board one I O board fixing bracket A 61 6 mm CPU board two I O boards fixing bracket A 83 2 mm CPU board three I O boards fixing bracket A 104 8 mm CPU board four I O boards fixing bracket A 126 4 mm lt 17 8 Assemble fixing 8 1 Assemble For building up of the J board assemble the boards using the attached standoffs and screws as shown below A bly drawin eege g P Screw Semus M3 X 6 mm Attached to each of board Standoff 15 mm 20
9. 4800 9600 19200 k bps Start stop synchronization Transmission format Start 1 data 7 parity 1 stop 2 Used character ASCII alphanumeric character EIA RS 485 or equivalent Shielded twisted pair cable Cable total length Max 1km party line connection Communication line The wiring system is 2 wire system 4 wire system is no available No of connected stations Maximum of 32 stations one host station 31 slave stations Allocation of Z 511J address Address Allocation No of bytes occupied CM section dummy Vacant Vacant Vacant 5 4 Name and description of each part Z 511J A connector for extended horizontal layouts SW7 y FT red ER red T green RS green RD green SD green CM green 4cnio Protect SW6 SW8 SW2 SW4 SW5 Backup battery Table of applicable connectors Connector number Connector name Upstream communication port SW13 LEDs on the CPU board RUN green COMM1 white COMM white FAULT red Protect switch CN8 COMM Connector for the PG port or for the upstream communication port D sub 15 pin female Connector for the PG port or for the upstream communica
10. COMM1 port A Setting of system memory 234 Specify transfer rate parity and stop bit as ON 1 OFF 0 of DO to D5 D7 D6 D5 D4 D3 D2 Di DO Stop bit Transfer rate Transfer rate bits s 19200 9600 4800 2400 1200 115200 57600 38400 9 0 None _ of t aua 1 0 Even 1 1 GEES Wel el e ol ol92 J ro Ojo zk IO zl Oo OO o ro toe OO CH Al ou Data is fixed to 7 bits Setting of system memory 235 Set station No 001 to 0370cr to communicate 2 Setting of communication port 2 PG COMM2 port MD Setting of system memory 236 Specify transfer rate parity and stop bit as ON 1 OFF 0 of DO to D5 D7 D6 D5 D4 D3 D2 D1 ODO 236 l l E Stop bit Parity Transfer rate o f o none 0 1 Add 1 0 Even 1 1 Setting of system memory 237 Set station No 001 to 0370ct to communicate of r 115200 57600 Data is fixed to 7 bits 31 4 Communicate with a personal computer The following instructions are available for communicating between the Z 511J and a personal com puter There are three type of command read out command write command and control command Command Contents Messages that a personal computer transmits to the Z 511J when it reads out data from the Z 511J Read out command Write command Messages that a personal computer transmits t
11. OC OC OC Cf 900 e Of OC OC OC CO OC OC OC Of OC OC OC CO OC OC OC OC CO OC OC Of Of Cf OC OC OC OC OC OC OC O OF OC C OC Cf OC O OF Of OC OC OC OC OC OC OC OC OC OC OC OO OO OC CO OC OC OC Cf OC KI Qf Qf OQ OC QC OO OF OC OC OC Cf 9010 O 1 When data of command is 0 then When data command is 1 or 2 then X 2 When data of command is 0 then When data command is F then X 36 3 Address expression system In each command the setting value in the following table is set in the address module of communication format Relay number Address octal 00000 to 15777 Setting value octal 00000 to 15777 20000 to 75777 20000 to 75777 Using command MRL SRR Timer counter point of contact number T0000 to T1777 C0000 to C1777 T0000 to T1777 MRL Timer counter number 0000 to 1777 0000 to 1777 MTC SRT MD number 000 to 777 0000 to 1777 MTC Register address 40000 to 11577 A0000 to A1577 12000 to 17577 B2000 to A7577 b0000 to b1777 B0000 to B1777 b2000 to b3777 B2000 to B3777 09000 to 09777 09000 to 09777 19000 to 19777 19000 to 19777 29000 to 29777 29000 to 29777 39000 to 39777 39000 to 39777 49000 to 49777 49000 to 49777 59000 to 59777 59000 to 5977 69000 to 69777 69000 to 69777 79000 to 79777 79000 t
12. a 024 025 R 1 S 1 7 026 027 IR 1 S 2 7 030 031 R 1 S 3 J 032 033 R 2 S 0 ER 7 034 035 R 2 S 0 q 036 037 R 2 S 1 1 040 041 R 2 S 2 7 042 043 R 2 S 3 J 044 045 R 3 S 0 J 046 047 R 3 S 0 7 050 051 IR 3 S 1 BON J 052 053 R 3 S 2 OFF J 054 055 R 3 S 3 25 Portrait arrangement Z 511J Z 334J Z 333J Z 354J Z 354J Z 321J Z 321J Z 321J Switch setting and I O relay allocation Mounting SWI SW2 VO relay Installed RACK NO SWA address address D 70000 0001 10002 0003 10004 0005 30006 0007 70010 0011 10012 0013 10014 0015 10016 0017 70020 0021 10022 0023 10024 0025 10026 0027 10030 0031 70032 0033 70034 0035 70036 0037 70040 0041 70042 0043 70044 0045 10046 0047 70050 0051 70052 0053 70054 0055 10056 0057 70060 0061 70062 0063 10064 0065 10066 0067 70070 0071 175 vn 10072 0073 UN 30074 0075 10076 0077 CH HI No 12 li m i E On D D D D D D D D D D D D D D D D D D DD D D DD D D DD D D N o Aal A SOIN Al oI N oi ol BY oO NI Al OC NI DI GY AINI o OR ol N A CO oj
13. and detachment of wires after installation Required spare space may vary with wiring method and used cable size so confirm final required space at actual wiring work Z 511J CPU board Z 325J 64 point I O board 2 15mm COMM2 COMM2 RS422A Upstream communication 5 VDC Power source 19 8 3 Specialized fixing bracket WH Fixing bracket A Z 341J Plane fixing type Bracket size Fixing halls drilling dimensions 4 05 Fixing hall 116 mm Board e UAN 4 5mm 205 mm 196 mm Fixing bracket outside diameter N St SE 4 5 mm Fixi M4 K ixing screw EE 8mm 8mm WH Fixing bracket B Z 342J Vertical fixing type Ai Fixing screw M4 Bracket size 117 2 mm Board 1 2 mm t Fixing halls drilling dimensions 50 mm a SSC 4 5mm 4 05 Fixing hall 205mm E 196 mm Fixing bracket outside diameter 10mm 10mm x Fixing screw should be prepared by user 20 9 The horizontal extension connector The Z 511J and Z 325J are equipped with a connector for horizontal boards CN11 in addition to stacking connector CN10 The horizontal arrangement shown below is available Specialized cable JW 203EC 30 cm or JW 207EC 70 cm d 24VDC 4P terminal block Z 325J Z 511J COMM1 COMM2 OUT COMM2 RS422A Upstream com
14. data and add 1 to the result When the grand total is 0 disregarded figure up the message is regarded as correct When the grand total is not 0 the message is regarded as an error 3 Produce method 1 Add data from station No to the last data of the command contents or response contents just before sum check code that are summed up in ASCII code 2 Operate complement number of 2 of the result of 1 Complement number of 2 Turn over all the bits indicated by the binary system 0 to 1 1 to 0 and add 1 Example The complement number of 2 of 4Exex is B2Hex 4E 01001110 invert each bit 10110001 add 1 10110010 gt B2hes 3 Divide upper 4 bits and lower 4 bits and convert them to ASCII code When sum check is not necessary setting in the command line 34 Response time RI When a personal computer is interpreter system it executes programs one by one while interpreting This personal computer may not have finished its process before receiving the response from the Z 511J As a countermeasure set response time RI of command max 600ms Rine Response time ms Response time ms As the Z 511J accesses memories after one operation cycle the actual response time is the total of setting value of RI in command and the waiting time of one operation cycle Reference Setting response time RI It is difficult to recommend the optimum response time as the optimum response time is
15. mode Stop mode When an error occurs RUN green Goes ON Blinks Goes OFF FAULT red Goes OFF Goes OFF Goes ON LED name Display condition COMM1 Monitor data transmission and reception of a peripheral orange device or host computer connected to COMM1 COMM2 Monitor data transmission and reception of a peripheral orange device or host computer connected to COMM2 CM section 1 On a DL1 data link DL9 data link or computer link LED name Display condition Recovery CM green Goes ON during link operation communication SD green Goes ON while sending data RD green Goes ON while receiving data RS green Goes ON during link operation request to send data Goes ON during a test Used for inspection by the manufacturer T green Check switch settings Replace the board FT red Goes ON when the WDT time out Replace the board ER red Goes ON when a SW setting error occurs 2 On an M net CM green Goes ON during link operation communication SD green Goes ON while sending data RD green Goes ON while receiving data RS green Goes ON during link operation request to send data Goes ON during a test Used for inspection by the manufacturer T green Check switch settings parameter settings ER red Goes ON when a communication error occurs disconnected communication cable replace the board FT red Goes ON by when the W
16. number Upper digit of station number Upper digit of station number Upper digit of station number Lower digit of station number Lower digit of station number Lower digit of station number Lower digit of station number Module No switch Module No switch Module No switch Module No switch Number of slave stations only when used as a master station Number of slave stations only when used as a master station Data transfer speed Data transfer speed 2 3 BER 7 5 5 Data memory Z 511J See pages 2 1 to 2 3 in the JW30H Programming Manual Ladder Instruction Version The details are identical to the JW32CUH1 5 6 System memory Z 511J See pages 3 1 to 3 2 and 5 1 to 5 17 in the JW30H Programming Manual Ladder Instruction Version The details are identical to the JW32CUH1 15 6 Current consumption of each board The current requirement of the Z 511J is the total current consumption of all the boards and support tools connected to it Current consumption of each board Model name Current consumption Z 511J CPU board 700 mA 111 mA when all of the output points are ON When Z 321J 32 point I O board N number of points are ON 10 6 3 N1 N1 Number of points whose output is ON 212 mA when all of the output points are ON When 64 point I O board N number of points are ON 10 6 3 N1 N1 Number of points whose outp
17. varied depending on the model of personal computer the programming language and the system program First set a fairly long time then shorten gradually There are some limitations for the number of bytes to handle by commands and for the communica tion buffer of personal computers Be careful for the number of bytes to handle and communication buffers 2 Write mode Write mode of PLCs are mode 0 write prohibited for all memories at power ON Prior to writing program from the personal computer change write mode to mode 1 or mode 2 using EWR command setting of write mode SWE command can be used to read out current status of writing mode Set write mode to mode 0 as much as possible except when writing date into PLC Each mode has restrictions as follow Write prohibited for all memories Write enable only for data memory Write enable for all memories Turn OFF control module protect switch write allowed before executing write commands and change to write mode 2 using EWR command 35 Each command can be executed in the write mode or when the PLC is in the following state Executable Non executable Write mode PLC status Command Stopped name 1 2 byHLT Run command Function Relay monitor MRL Current value monitor of timer counter MD MTC Register current value monitor MRG Read out register of file 1 RFL Read out register of file 0 to 3 RFLF Read out register of file 00 to 03 1
18. 0 to 2C Note RFLE RPSR RPS Read out parameter of option module RPO Read out system memory RSM Read out program memory RPM Read out date MDY Read out time MTM Set reset relay SRR Set reset timer counter SRT Write in register WRG Write the same data in register FRG Write in register of file 1 WFL Write in register of file 0 to 3 WFLF Write in register of file 00 to 03 10 to 2C Note WFLE WPSR WPS Write in parameter of option module WPO Write in system memory WSM Write in program memory WPM Change setting value of timer counter CTC Set date SDY Set time STM Set time revision ACL Stop operation HLT Restart operation RUN Monitor operation conditions MPC Read memory capacity VLM Read out write mode status SWE Set write mode EWR Turn back the message TST Release secret password registration PAS Set secret function SES Check secret function SEI Read out parameter of special I O module Read out command Write in parameter of special I O module Write command O Of OC Cf Cf OC OC x x x x x x x x x x x xt ox x x x Of Of Of Of Of OC CO OC Cf Of Cf e OF Of Cf OC OC OC Of OC C OC OC x x x x x Qf Of Of OQ QO Of Of Of Of OC OC OO OF OC OC OC Cf OJO eck Control command EI N OF i 2 Of 00010101010101 O x x x x x x Of Of Of Of OC OC OC OC OC OC OC COOC OF
19. Bt Se lt DL9 data link system gt No of connected stations Max 16 stations Total extension length 1 km Transfer rate 153 6 kbps No of link points Max 512 bytes When JW 21CM or J board are used as the master station the number of link points per station is restricted by the number of connected stations J board J board JW20 JW20H JW50 70 100 H JW30H LO board Z 332J board LO board CPU board Z 311Jd Z 312J JW 21CM JW 10CM DL9 data link communication system The DL9 data link is a communication system used to send and receive data between the master station and a slave station as shown in the figure below Direct communication between slave stations is not possible Master station 00 station Slave station 01 Sending data to slave station 01 Receiving data from master station Receiving data from Sending data to slave station 01 master station Slave station 02 Sending data to Receiving data slave station 02 from master station V Receiving data from Sending data to A slave station 02 master station Slave station 03 Sending data to Receiving data slave station 03 from master station Receiving data from lt Sending data to slave station 03 master station lt M net system gt No of connected stations
20. Connect the rated power source Connection of a wrong power source may cause a fire e Wiring should be done by a qualified electrician Wrong wiring may lead to fire trouble or electric shock 3 Use D Danger Don t touch the terminal while the power is being supply or you may have on electric shock e Assemble the emergency stop circuit and interlock circuit outside of the J board and connect to the halt output of the J board Otherwise the machine breakdown or accident may be caused by the trouble of the J board A Caution Run or stop during operation should be done with particular care by confirming safety Mis operation may lead to damage or accident of the machine Turn ON the power source in the specified sequence Turn ON with wrong sequence may lead to machine breakdown or accident 4 Maintenance D Danger The Z 511J controller contains a lithium battery Do not expose the Z 511J directly to flames as the battery may explode and seriously injure people nearby Prohibit Don t disassemble or modify Or fire trouble or malfunction may be caused A Caution lt Turn OFF the power before attaching or removing the board attaching the I O connector modifying each type of setting switch Or electric shock malfunction or trouble may be caused Table of Contents T e TUE 1 2 Special PRECAUTIONS ees SSES 1 3 Board configurations ANANA NAHH ANNA BENAWA AAN ANGANGGE NE
21. DT times out Replace the board The CM section does not have LEDs for displaying error codes Monitor the system memory 170 and up and check the error details To learn about error details and troubleshooting see the JW 21CM User s Manual Maintenance Manual for Interface Modules and the JW 23LM User s Manual 13 Description of each switch Switches in the CU section Kee Default setting Switch details ON Slot assignment switch Specifies whether it is the first or last half in the same rack number Recovery switch Turn ON the power while pressing this switch to recover from an error condition such as a memory error The details are maintained in memory To clear the memory take other steps Rack number switch Assign a rack address Prohibit ON or allow OFF writing the program and system memories Switch details Default pj data link DL9 data link Wo Computer link setting OFF OFF OFF OFF OFF OFF OFF OFF OFF 2 wire system ON 4 wire system Specify the total number of link bytes set only Communication mode when an error occurs OFF when used as a master station OFF Parity OFF Odd ON Even Not used Not used Not used Termination resistance 4 wire system Termination resistance Termination resistance Termination resistance Termination resistance 2 wire system Upper digit of station
22. Max 8 stations Total extension length 1 km Transfer rate 19 2 kbps 38 4 kbps No of link points Max 64 bytes LO board J board JW20 JW20H JW50 70 100 H CPU board Z 311J Z 312J JW 21CM M net communication system Others M net specification equipment JW 10CM The M net is a communication system used to send and receive data between the master station and a slave station as shown in the figure below Direct communication between slave stations is not possible Master station 00 station Slave station 01 Sending data to slave station 01 Receiving data gt from master station Receiving data from slave station 01 Sending data to master station Slave station 02 Sending data to slave station 02 Receiving data from master station Vv Sending data to master station Receiving data from slave station 02 Slave station 03 Receiving data from master station Sending data to slave station 03 Receiving data from slave station 03 Sending data to master station The M net is a communication system used to create a data link between a programmable controller and other equipment It is a communication conforming to the Standard for the interface between modules E lt Computer link CL system gt No of connected stations Max 32 stations Total extension l
23. N a OFF 26 11 ROM operation The ROM operation is a method of operating the Z 511J by the content of the ROM by storing the system memory or user program in the flash ROM and transferring from the ROM to the RAM Saving of a program and more in the ROM is available as the contents of the ROM do not disappear after turning OFF the power ROM operation is convenient for the following systems Operation frequency is low No alternation of program and system memory Requires registering or loading programs quickly With Z 511J series flash ROMs are installed in the control module and so all the control module are possible ROM operation 1 ROM operation method The ROM operation is available in four types as shown in the table below depending on the setting value in the system memory 255 Set 255 depending on the use initial value is 000 oct Setting value Transfer ROM to Data memory after Mode after data RAM when data transfer when transfer when OCT HEX power is ON power is ON power is ON Transfer ROM to RAM using a tool gt Available Mode when the power is OFF Available Stop Available Run Available The stored data in the ROM is maintained Note 1 A battery is necessary even in ROM operation Note 2 Before transfer data from the ROM to the RAM when the power is ON or using a tool make sure turn OFF the protect switch 2 Registerabl
24. NEA 3 4 System configuration aenan esa e waana wane wa nne wa nawan nawan nanang anang anna nana nunne ennn nan nenun nnen n nenn nan nannan nea 4 5 Specifications e RH 9 5 1 General specifications 0ssanesanawsa nawan awana nawan nn anana en nana anan waana wane wen na wane en nganan anane neee 9 5 2 Performance specifications CU section sanesa ennan anan ennn anana anenun anna ne wanara wanan a nawan nna 9 5 3 Performance specifications CM section data link port saaaesanewsnawana nawan anana nnn anane 10 5 4 Name and description Of each part aasssnasesesaaeeeena nan en anane een anan anana nenen nn an enggan nne nnmnnn nnmnnn nnna 11 5 5 Dala Memory sasaran ananing aa na AKI ENEH ANA NA ANANA AN IEEE NANEM AN A A A AN KA A D Ha KW 15 5 6 SYSOM E e e E 15 6 Current consumption Of each board ccceeeeceeeeceeeeeeeeeeneeeseeeeseeeeeseaeseseeeessnaeseseeeesseeseeeeeeteas 16 te SBOAN SIZ aaa aan nan ae a aa ak a ts ates tw ea a E aaa neta Sante cece use aa ANA EN Wa Ae ANK Ga ka GN une BAGA aa aaa Kak 17 8 AASSCMDBICMIXING sssssasiwania asa N cececer cence estecevetawestctevecctecdestesectueney ENG ENG aaa GENENG NE 18 8 1 E e E 18 8 2 FIKING E 19 8 3 Specialized fixing bracket ccccsecceseseeeeeeeeeeeeeeeesnaeeeeeneessaesenseeesssaesesneaeeeeeeeesseaeseseeeeeeaees 20 9 The horizontal extension COnnector cccceseeeeseseeeeeeeeeeeeneeeeeeeeeneesee
25. Total cable length 1 km or less Max number of connectable slave station 15 b When the Z 511J is used as in computer link mode 4 wire system RS 232C 422 PLCO1 for W100 PLCO02 for JW100H Host computer converter Z 101HE Si ar verer aoa ZW 1KOCL2 JW 10CM EEI F d m FG FG To L3 CG TD re zm mO La Jr RD EE RD RD L1 L1 SG Signal ground 7ISG RD L2 L2 H SHIELD SHIELD FG i FG Class 3 grounding Shield cable Twisted pair shield cable 15 m or less Cable total length 1 km or less RS 232C RS 485 2 wire system RS 232C 422 Host computer converter Z 101HE PLCO1 for W10 PLC02 for W16 51 PLC17 for W100 Z 511J Kee Se cscs i ZW 10CL2 ZW 160CL2 501CL2 ZW 1KOCL2 Frame ground 2 1 FG RD Li Bizet Li E Sending data 2ITD RD 2 L2 T2 L2 L2 Receiving data 3IRD SHIELD FG L3 SHIELD FG Request to send Alps Ground L FG Signal ground T gag lee L Kasa sa paka kapa sapa Class 3 Class 3 Class 3 Twisted pair shield cable grounding grounding grounding Shield cable 15 m or less Cable total length 1 km or less RS 232C RS 485 3 How to use the data link port For specific details about using the data link port
26. Transmission rate 153 6 k bps JIS X 5104 Transmission format Conforms to the frame organization of the High level Data Link Control HDLC protocol Data check CRC No of link bytes EIA RS 485 or equivalent Communication line Shielded twisted pair cable Cable total length Max 1 km party line connection No of connected stations Max 16 stations 1 master station 15 slave stations Max 512 bytes When the master station is a Z 313J Z 331J Z 332J or JW 21CM the following limitations apply In case of 1 to 2 stations Max 128 bytes per station In case of 3 to 4 stations Max 64 bytes per station In case of 5 to 8 stations Max 32 bytes per station In case of 9 to 15 stations Max 16 bytes per station Link area Assign using SW3 module No switch No of link bytes Communication standard Transmission rate 19 2 k bps 38 4 k bps M net interface between modules specifications or equivalent Start 1 data 7 even parity 1 stop 1 EIA RS 485 or equivalent Transmission format Communication line Shielded twisted pair cable Cable total length Max 1 km party line connection No of connected stations No of link bytes Max 64 bytes Link area Set by the parameter parameter address is determined by SW8 Max 8 stations 1 master station 7 slave stations Computer link Communication standard Transmission rate 300 600 1200 2400
27. Version 1 0 SHARP Produced in Oct 2005 Sharp Programmable Controller Board PC J board Z 500 series Model name CPU Board 1 Z 511J CPU Board with communication function User s Manual Hardware version CAUTION 5 VDC is required to power the Z 511J Be careful not to apply any other DC or AC voltage such as 24 VDC and 100 VDC Otherwise the Z 511J will be destroyed COMM2 COMM2 RS422A Data link port 6 5 VDC power source FG OV 5V Power supply 5 VDC input 5 0 to 5 2 VDC Thank you for purchasing a J board Z500 series programmable controller This manual User s Manual Hardware Version mostly describes hardware details including specifications and installation procedures of the J board Before using the J board read this manual together with the JW30H Programming Manual Ladder Instruc tion Version that describes software details such as the available instructions the JW 21CM User s Manual and the Maintenance Manual for Interface Modules that describe communication functions In addition learn the handling methods for other I O and communication boards by reading each User s Manual Should you have any questions and inquiries please feel free to contact our dealer s shop The whole or partial photocopy of this booklet is prohibited Contents of this booklet may be revised for improvement without notice Safety Precautions Read this user s manual and attached documents carefull
28. anges and gives dew condensation Where there is corrosive or flammable gas Where it directly receives vibration or shocks Where exposed to dust iron powder or salty atmosphere In conditions where the printed circuit boards may be directly affected by these causes make sure to provide an appropriate external case to cover the J board Where it is proximate to high voltage equipment driving power tools large open close surge gener ating devices and their wirings H Precautions at use Construct an emergency stop circuit externally to prevent damage to machines and personnel and connect with a halt output for the J board As the J board is board structure and it s electronic parts are exposed be careful when handling 1 Before you touch the board directly be sure to eliminate static electricity in your body Do not touch directly with dirty hands such as stacked oil etc 8 Do not put the board alone directly on conductive objects such as metallic boards When the board is put directly on conductive objects such as metallic boards battery terminals of the board may be shorted and the back up memory may be lost 4 Be careful not to apply excessive force to each switch connector terminal block of the J board Make sure to turn OFF the power before connecting the board installing the I O connector changing a switch setting or mounting a ROM for ROM operation E Precautions for grounding Provide class 3 groun
29. ata Personal computer to PLC Sending data PLC to personal computer Not connected with pin No 2 4 8 and 12 COMM2 RS422A lt PG COMN2 port Contents Outside body grounding Sending data PLC to personal computer Sending data PLC to personal computer Receiving data Personal computer to PLC Signal grounding Signal grounding ON while PLC is supplied power source Signal name Data link port 1 5 VDC Power source 2 O 3 4 5 6 T 8 GC m L3 15 pin D sub Hm L4 female connector 9 L angle connector COMM2 port Pin number 1 Receiving data Personal computer to PLC Receiving data Personal computer to PLC Sending data PLC to personal computer ON Available sending OFF Ban sending Connect to the s Sending data PLC to personal computer Description hield RS422A Sending data PLC to personal computer RS422A Receiving data Personal computer to PLC RS422A Receiving data 29 Personal computer to PLC RS422A 2 Wiring diagrams 1 When using RS 232C for communication method of host computer side Be within 15m for the total length of a communication cable Z 511J PGCOMN2 port Shielded wire Host computer Signal name FG
30. dation fixing conditions gt SS E When fixing bracket A When fixing bracket B Z 341J is used Z 342J is used In case of plane installation shown below the J board is not given sufficient ventilation Therefore provide enough space above J board to prevent temperature rise exceeding 55 C a ff Ive good ventilation Pewee eee DEE eee eek eee eee eee ey Note The fixing bracket B Z 342J cannot be used with the Z 325J i Precautions for memory back up The Z 511J contains a memory backup battery Do not store the Z 511J in high temperatures or at high humidity Storing it at high temperatures will greatly reduce the battery life Do not put any object directly on the top of the Z 511J 3 Board configuration E Z 511J CPU board Connector for stacking Horizontal extension connector Mounted parts COMM1 Accessories COMM2 Standoff used to attach the PC board to COMM2 the fixing bracket 15 mm 4 pieces Bl Standoff RS422A _ Screw Semus M3 x 6 mm 4 pieces mr Screw Data link port 5 VDC Power source O 4 System configuration lt Basic system gt Stacking structure I O board Optional board Up to 7 I O boards can be installed including horizontal arranged modules and up to 2 optional boards can be installed However a total of 8 boards can be installed including the CPU board
31. ding independently for FG terminal of the J board on a terminal block of the CPU board Do not use with a high voltage ground line in common H Precautions for wiring work Required voltage of the Z 511J is 5 VDC Be careful not to exceed voltage or reverse the polarity Overvoltage and reversed polarity may damage the internal circuits A5 VDC power supply for the Z 511J should be kept away from sources of electrical noise such as separate from a power supply for loads Do not run I O lines and communication lines parallel or proximate with power lines and high voltage lines Do not run noise generating lines such as power lines high voltage lines and I O lines proxi mate above the printerd circuit board of the J board Some I O boards are equipped with a fuse for output circuit protection If the fuse is blown by a short circuit change whole of the I O board after repairing the external cause The integrated fuse in the I O board is to prevent heating by overcurrent and burn out of internal circuit at shorted loads and does not protect output elements H Precautions for installation Basically use the fixing bracket exclusive for installing the J board and apply any of the recommended installation conditions shown below 1 2 3 or 4 of figures below If you intend to install the J board without using the fixing bracket install it with sufficient holding strength Install J board in well venti lated conditions lt Recommen
32. e contents to ROM Areas that can be registered ROM is decided by setting value of system memory 256 Initial value is 200oct Setting value Registerable contents to ROM OCT HEX System memory Program Register File 1 200 to 2177 No No No 200 to 2177 8K bytes 1 No No 200 to 2177 No 16K bytes 64K bytes 2 200 to 2177 8K bytes 1 No No 200 to 2177 No 16K bytes 64K bytes 2 200 to 2177 8K bytes 1 16K bytes No 200 to 2177 8K bytes 1 16K bytes 64K bytes 2 1 8 K bytes from 09000 to 99777 and E0000 to 57777 Area E6000 to E7777 cannot be stored in the ROM 3 Writing in a flash ROM By the writing operation by the hand held programmer JW 13PG or the ladder software JW 92SP JW 52SP the program can be written into flash ROMs of control modules See instruction manual of respective support tool for operation 27 12 Upstream communication port J board Z 511J has upstream communication ports communication port PG COMM1 PG COMM2 The communication port can communicate with connected device having the I O port of RS 232C 422A of host computer such as personal computer It can communicate the same as SHARP s computer link When the support tool is not used one set of control module can have two channels of communication port and two systems such as personal com puter and liquid crystal control terminal can be connected Z 511J 5 VDC Power source O O
33. ength 1 km Transfer rate 300 to 19200 bps Host device Personal computer monitor etc JW50 70 100 H J board JW20 JW20H I O board Z 332J board VO board CPU board Z 311J Z 312J JW 21CM JW 10CM Computer link communication system The computer link is a communication method in which the J board responds to commands from a host personal computer and display unit as shown in the figure below J board or JW PLC Host station No 01 Command Personal computer gt monitor etc Response J board or JW PLC g station No 02 gt Command lt Response J board or JW PLC station No 03 Command gt Response 5 Specifications of Z 511J 5 1 General specifications Item Specifications Allowable power voltage 5 VDC 5 0 to 5 2V The 5V power supply must be able to handle the total of the current consumption from all of the boards MAX 2 7A Ambient operation temperature humidity 0 to 55 C 35 to 90 RH without dewing Storage temperature humidity 20 to 70 C 35 to 90 RH without dewing Vibration resistance JIS C 0911 or equivalent double amplitude 0 15 mm 10 to 55Hz 1G 55 to 150Hz 2 hours each in X Y and Z directions Shock resistance JIS C 0912 or equivalent 10G 3 times each in X Y Z directions Installation Any of 3 directions
34. mm Attached to I O board communication board Attached to I O board Standoff 15 mm 20 mm communication board VO board Communication board D D D Standoff 10 mm Attached to CPU board i Fixing bracket A The Z 511J has 15 mm standoffs amp Screw Semuth M3 X 6 mm Attached to each of board For connecting between the boards match position of each connection connector CN1 and secure their inserts For removal be careful not to forcibly pull them in an incorrect direction Required tools for building up Phillips screw driver Standoff shape aoe Box hex driver for 5 5 mm 18 8 2 Fixing Basically use the fixing bracket exclusive for installing the J board and apply all of the recommended installation conditions shown below 1 2 3 or 4 of figures below If you intend to install J board without using the fixing bracket install it with sufficient holding strength Install the J board in well ventilated condition lt Our recommendation fixing conditions gt When fixing bracket A Z 3414 is used When fixing bracket B Z 342J is used Note The fixing bracket B Z 342J cannot be used with the Z 325J lt Spare space for installation gt For spare space for connector wiring work of each board see the figures below Spare space dimensions nominated below are not considered for attachment
35. munication 5 VDC Power source O OUT OUT OUT CN E CN D DOP 10P lt lnstallation limit gt OI Several J boards can be installed under the Z 511J as the stacked installation 2 To connect boards horizontally an I O board with a horizontal extension connector should be at the top Only the Z 325J has the horizontal extension connector The horizontal I O board cannot be connected the communication board Do not set SW1 RACK NO to 0 on the horizontal I O board Make sure to set 1 to 3 Four input output boards and three communication board can be connected to the Z 511J includ ing when arranged horizontally Be sure to use the specialized cables listed below for the horizontal extension cable Cable length JW 203EC 30 cm JW 207EC 70cm 21 lt Example of a horizontal arrangement gt Specialized cable JW 203EC 30 cm or JW 207EC 70 cm Z 325J I O board I O board Z 325J Z 325J Dimension D Z 325J Z 325J Z 325J Communication Z 344J board Z 511J 25 mm 21 6 mm 15 mm Including table connector depth Board composition Measurement D Z 325J Z 325J Z 325J Z 325J Z 325J Z 325J when horizontal arrangement connector is connected Board composition Measurement D Z 511J 35 mm Z 511J Z 334J 56 6 mm 22 10 Allocation of I O rela
36. nd I O relay allocation Z 325J SWI VO relay Installed Installation Rack NO address 000 001 Z 325J 2 325 002 003 Z 511J 004 005 006 007 010 011 D 012 013 014 015 016 017 020 021 022 023 024 025 026 027 030 031 _ 032 033 034 035 _ 036 037 040 041 BON 042 043 OFF 044 045 Vertical arrangement Z 511J Z 334J Z 325J x n n max 3 SW setting and I O relay allocation Z 325J Z 325J Z 325J Z 334J Z 511J SWI HO relay Installed Heeler on RACK NO address address 000 001 002 003 004 005 006 007 010 011 012 013 014 015 016 017 020 021 022 023 024 025 026 027 030 031 032 033 034 035 036 037 040 041 042 043 044 045 046 047 050 051 052 053 054 055 HON OFF J J J J J J J J J J J J J J J J J J J J J J J WIM H O O W M O O W M O O N O 1 AJIN o CG
37. o 79777 89000 to 89777 89000 to 89777 99000 to 99777 99000 to 99777 E0000 to E7777 E0000 to E7777 MRG WRG FRG File register address File O 000000 to 035777 000000 to 035777 File 1 000000 to 037777 000000 to 037777 File 2 3 000000 to 177777 000000 to 177777 File 10 to 2C 000000 to 177777 000000 to 177777 RFL RFLF RFLE WFL WFLF WFLE Special I O module parameter address 000 to 177 0000 to 0177 RPSR RPS WPSR WPS Option module parameter address 00 to 77 0000 to 0077 RPO WPO System memory address 0000 to 2177 0000 to 2177 RSM WSM Z 511J 15 5K words 00000 to 36777 000000 to 036777 ch RPM WPM CTC 4 Data expression system Data are expressed by hexadecimal Program contents are also expressed by hexadecimal based on machine language Contents of bit configuration of program memory is not available 5 Example of communication monitor current value of register Monitor from 09000 to 09003 of PLCO6 Response time 100 ms E Command Station Command Register Register Sumcheck address address 1 address 2 code Response time E Response C 0 6 All fils Kl Ki Dae iss el ac Fac afl cogs REES Station Command Register Register 09000 09002 Sumcheck address address
38. o the Z 511J when it reads out data from the Z 511J Control command Messages that a personal computer transmits to the Z 511J when it reads out data from the Z 511J As for the detail of each command see List of commands and Computer link section of user s manual of link module JW 21CM 1 Communication format When a command from a personal computer is received the communication port of Z 511J operates according to the received command and sends a response When an error occurs while processing it returns an error response Z 511J COMM1 COMM2 COMM2 RS422A Upstream communication 5 VDC Power source O Personal computer etc a Sum check area gt 32 Details of communication format Code used _ Station No 00 to 37oct In command the station no to be received command In response the station no to send response Oto Bucs Response time Set the time from receiving a command to responding See page 35 x Sum check code Search the mistake of transfer data Refer to next 00 to FFHex page Identification symbol Description Header Indicates beginning of command and response question Indicates commands number mark Indicates response at normal percent Indicates response at error Termination mark Indicates termination of a command and response H indicate
39. protocol Max 115 2 K bit s Data link port External interface RS485 proprietary connector The DL1 data link DL9 data link M net or computer link can be connected PG port 2 D sub 15 pin connectors Shared with the communication port to connect to host computers Applicable model Hand held programmer JW 13PG Application program JW92SP for PC98 JW50SP for IBM PC Model setting JW 32CUH1 15 5K Support tool Connection cable Exclusive cable JW 22KC 2 m or JW 24KC 4 m 5 3 Performance specifications CM section data link port Item Specifications DL1 data link EE EIA RS 485 or equivalent SW5 2 Transmission rate 153 6 k bps JIS X 5104 Transmission format Conforms to the frame organization of the High level Data Link Control HDLC protocol Data check CRC Communication line Shielded twisted pair cable Cable total length Max 1 km party line connection No of connected stations Max 16 stations 1 master station 15 slave stations Max 64 bytes When the master station is a Z 551J Z 313J Z 331J Z 332J or JW 21CM the following limitations apply In case of 1 slave station 32 bytes per station In case of 2 to 3 stations 16 bytes per station In case of 4 to 7 stations 8 bytes per station In case of 8 to 15 stations 4 bytes per station Link area Set using SW8 module No SW DL9 data link Communication standard SW5 3
40. s upper digit L indicates lower digit CR carriage return e Details of error code Error code ME EC am EC a Description Format error Designated address is not TMR CNT setting value Number of transfer bytes is not correct PLC does not stop by HLT stop PLC processing Writing to PLC memory is not executed correctly Memory capacity file capacity is full Parity error Framing error Overrun error Sum check error Prohibit program memory write memory protection switch ON Other CPU is accessing memory Not match write mode Not program area Tried to write in ROM System memory error A password is not yet registered The secret mode is not released Password register error Tried to register other than alphabetical and numerical figures The secret mode is not released 33 Sum check code SC H SC L The communication port detects error using sum check as well as party check in order to increase the reliability 1 Sum check area See page 32 Example Command Sumcheck area ck A A s s c D D Command content C C H L H L R 2 Check method 1 Add data from station No to the last data of the command contents or response contents just before sum check code that are summed up in ASCII code 2 Convert the sum check code 2 digits hexadecimal to 8 bits
41. seeeneeseseeeneeeseseeeneeseeseeneenes 21 10 Allocation of VO relay eebe Seege abenan 23 10 1 Basic MESCIIPTION saurira aaa ewa akang AK ANAN ENEK aKA ANAKAN NANA EENEN NEEE NANAS AK KANANE TK NAN ANNA 23 10 2 VO relay alocati E 23 10 3 Example for I O relay allocation cccccccseeeeeeeeeeeeneeeeseeeeeeeeseseeeeeeeeeesneeeeeeeeeesseaeeeeeeaenss 24 Ti ROM Opera ti i lee meee a lS ne Te a NY er Sn a Sea eo ee ee 27 12 Upstream COMMUNICATION port eccccceeeeeeeeeeeeee eee eeeeneeeeseeeneeeseseeeneeseeseeneeesesseeneeseeseeeneesnsneenans 28 13 Data link PON ee eege ee E EASAN ARN E AnA EE 39 14 Items the user must Supply ceceeeeee eee eeeneeeeeeeeeneeseeeeeneeeseeeeeneeseesesneeeseeeenueeseeseseneeseseesneneeeeenenes 41 1 Outline Programable controller J board Z 500 series hereafter referred to as the J board realized both compactness and low cost by employing a board type structure together with various communication functions which only larger class models have It is a programmable controller for middle and small scale control systems suitable for integrating into equipment and providing local control of distributed control systems 2 Special precautions H Precautions for installation Never install the J board in the following locations Where proximate to any heat generating object or ambient temperature exceeding 0 to 55 C range at storage 20 to 70 C Where temperature rapidly ch
42. tion port RS232C or RS422A D sub 15 pin female Connect to a ground Data link port LEDs Data transfer standard RS422A Connector for the upstream communication port Shared use with COMM2 RS422A Molex 5278 05AG Data link port DL1 DL9 CL or M net can be used RS422A Molex 5278 05AG Power connector 5 VDC input Molex SD 53376 0310 Applicable connector Molex 5265 N 2578G Data link port RS422A Molex 5265 N 2578G 5 VDC power 11 Molex 51102 0500 50351 8100 LEDs on the CPU board J board status FAULT Operation mode Goes ON Goes OFF Stop mode Blinks Goes OFF Error Goes OFF CN5 CN4 CN3 EG ON DV CN5 CPU section upstream communication port 5 pin Signal name Description Frame ground connect to the shield Sending data Sending data Receiving data Receiving data RS422A upstream communication port CN4 Data link port 5 pin Frame ground connect to the shield Sending data receiving data Sending data receiving data RS422A upstream Receiving data communication port Receiving data CN3 Power connector Signal name Description Frame ground Power input OV Power input 5V 12 Description of the indicator lamps Z 511J CU section Display condition Operation
43. ut is ON 126 mA when all of the output points are ON When N number of points are ON 15 2 5N1 12N2 N1 30 point I O board Number of points whose TR output is currently turned ON N2 Number of points whose triac output is currently turned ON 38 mA when all of the output points are ON When N 28 point I O board number of points are ON 10 2 3N1 N1 Number of points whose output is ON 267 mA when all of the output points are ON When 64 point I O board 2 N number of points are ON 15 6 3N1 N1 Number of points whose output is ON Communication board 1 LM CM 170 mA Communication board 2 CM 100 mA Communication board 3 LM 80 mA ME NET board 330 mA Satellite net board 280 mA Analog input board 60 mA Analog output board 100 mA Pulse output board 120 mA Support tool JW 2PG JW 13PG 150 mA 16 7 Board size Printed circuit board size 5 mm ke 100 mm AA NEE he EE e E mm ecm lt CPU board Standoff hole D2 ER D2 D I O board or 170 mm W D2 communication D2 board A 15 mm In case of fixing bracket A 5mm H CPU board should be installed on the top 15 mm for Z 511J and Z 325J Board size Fixing bracket size is excluded Type Weight Z 511J CPU board Approx 230 g Z 321J 32 point I O board 110 mm S Approx 125 g Z 322J 64 point I O board 110 mm Approx
44. y 10 1 Basic description The I O relay addresses are assigned using SW1 and SW2 SWA on each board as shown in the table below E SWI RACK NO settings The rack numbers are assigned as shown in the table below SWI RACK NO settings Rack NO 0 ek Rack NO 1 E SW2 SWA settings 1 Assigns the first half or last half of a rack ON first half and OFF last half If you use two communication boards set the second communication board to OFF 2 Set the number of bytes used ON 8 bytes and OFF 4 bytes Normally this switch is set to ON First half 2 ON 8 bytes occupation First half OFF 4 bytes occupation OFF Last half ON 8 bytes occupation OFF Last half OFF 4 bytes occupation 10 bytes occupation in the case of Z 325J 6 bytes occupation in the case of Z 325J SEIS SPE ee OJOJO Z zZ Note 1 Be careful not to set the same number for more than one board with SW1 RACK No and SW2 When multiple boards are allocated on the same I O J board malfunctions Note 2 When more than one point is turned ON with SW1 RACK No I O verify error Error code 60 occurs 10 2 I O relay allocation of Z 511J Address otc 23 10 3 Example for I O relay allocation Vertical arrangement Z 511J Z 325J x n n max 3 SW setting a
45. y before installation operation maintenance and checking in order to use the J board correctly Understand all of the J board knowledge safety information and cautions before starting to use In this user s manual safety precautions are ranked into Danger and Caution as follows Wrong handling may possibly lead to death or heavy injury Wrong handling may possibly lead to medium light injury or loss on properties Even in the case of Z Caution a serious result may be experienced depending on the circumstances Anyway important points are mentioned Be sure to observe them strictly The picture signs of prohibit and compel are explained below S It means a don t For example prohibition of disassembly is indicated as 9 Q It means a must For example obligation of grounding is indicated as 1 Installation N Caution e Use in the environments specified in the catalog and user s manual Electric shock fire or malfunction may be caused when used in the environments of high temperature high humidity dusty or corrosive atmosphere vibration or impact lt Install according to the instruction manual and user s manual Wrong installation may cause drop trouble or malfunction e Never admit wire chips or foreign matter Or fire trouble or malfunction may be caused 2 Wiring Q Compel Be sure to ground Unless grounded electric shock or malfunction may be caused A Caution
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