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Hakko Electronics Monitouch V9 Series, Connection Manual

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7-12

 

7. CHINO

7.1.6 LT830 (MODBUS RTU)

Communication Setting

Editor

Communication setting

(Underlined setting: default)

Digital Indicating Controller

The communication parameters can be set using keys attached to the digital indicating controller.

Be sure to match the settings to those made under [Communication Setting] of the editor.

(Underlined setting: default)

* When changing parameters from the V series, set “LoCK (lock function): 3”.

Available Device Memory

The available setting range of device memory varies depending on the model. Be sure to set within the range available for the 

model to be used. Use [TYPE] when assigning indirect device memory for macro programs.

Indirect Device Memory Designation

For the device memory address number, specify the value obtained by subtracting “1” from the actual address.

Item

Setting

Remarks

Connection Mode

1

 

:

 

1 / 1

 

:

 

n / Multi-link2 / Multi-link2 (Ethernet) / 

1

 

:

 

n Multi-link2 (Ethernet)

Signal Level

RS-422/485

Baud Rate

9600 / 19200 bps

Data Length

8 bits

Stop Bit

1 / 2 bits

Parity

None / Odd / Even

Target Port No.

1 to 99

Mode

Indication

Item

Setting

Remarks

Mode 5

tyPE (type)

LoCK

Lock function

3: All items prohibited 

*

Mode 6

com 

(communication 

setting)

PtCL

Communication protocol

rtU: MODBUS (RTU)

FUnC

Communication function

Com: Host communication

AdrS

Device No.

1 to 99

rAtE

Baud rate

9600 / 19200 bps

CHAr

Character

(Data length, parity,

stop bit)

8n1: 8 bits / without parity / 1 bit

8n2: 8 bits / without parity / 2 bits

8E1: 8 bits / even parity / 1 bit

8E2: 8 bits / even parity / 2 bits

8o1: 8 bits / odd parity / 1 bit

8o2: 8 bits / odd parity / 2 bits

Device Memory

TYPE

Remarks

4

(analog setting value)

00H

3

(analog input data)

01H

Read only

0

(digital setting value)

02H

1

(digital input data)

03H

Read only

Summary of Contents for Monitouch V9 Series

Page 1: ...omationdirect 4 Azbil 5 Baumuller 6 BECKHOFF 7 CHINO 8 CIMON 9 DELTA 10 DELTA TAU DATA SYSTEMS 11 EATON Cutler Hammer 12 EMERSON 13 FANUC 14 Fatek Automation 15 FUFENG 16 Fuji Electric 17 Gammaflux 18...

Page 2: ...Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual Printing Date Reference No Revised Contents May 2014 2210NE0 First edition...

Page 3: ...il Included Makers SAIA SAMSUNG SanRex SANMEI SHARP SHIMADEN SHINKO TECHNOS Siemens SINFONIA TECHNOLOGY TECO Telemecanique TOHO TOSHIBA TOSHIBA MACHINE TURCK UNIPULSE UNITRONICS VIGOR WAGO XINJE YAMAH...

Page 4: ...r mobile installations please consult your local distributor Operate or store the V9 series under the conditions indicated in this manual and related manuals Failure to do so could cause fire malfunct...

Page 5: ...ghtness and colors of the V9 series may be affected by the ambient temperature Tiny spots dark or luminescent may appear on the display due to the characteristics of liquid crystal There are variation...

Page 6: ...6 1 3 3 Network Communication Under Development 1 41 1 3 4 Slave Communication 1 42 V Link 1 42 MODBUS RTU 1 42 MODBUS TCP IP 1 42 1 3 5 Other Connections 1 42 1 4 Hardware Settings 1 43 1 4 1 PLC Set...

Page 7: ...4 When Connected at MJ1 MJ2 4 5 4 2 Temperature Controller Servo Inverter Connection 4 6 Serial Connection 4 6 Ethernet Connection 4 7 4 2 1 SDC10 4 8 4 2 2 SDC20 4 9 4 2 3 SDC21 4 9 4 2 4 SDC30 31 4...

Page 8: ...LTA 9 1 PLC Connection 9 1 Serial Connection 9 1 9 1 1 DVP Series 9 2 9 1 2 Wiring Diagrams 9 3 When Connected at CN1 9 3 When Connected at MJ1 MJ2 9 4 10 DELTA TAU DATA SYSTEMS 10 1 Temperature Contr...

Page 9: ...Series IEC Mode 16 10 16 1 5 MICREX SX SPH SPB Series N Mode F Mode 16 12 16 1 6 MICREX SX SPH SPB CPU IEC Mode 16 13 16 1 7 MICREX SX SPH SPB CPU N Mode F Mode 16 13 16 1 8 MICREX SX Ethernet IEC Mo...

Page 10: ...91 16 2 34 Wiring Diagrams 16 93 When Connected at CN1 16 93 When Connected at MJ1 MJ2 16 99 17 Gammaflux 17 1 Temperature Controller Servo Inverter 17 1 Serial Connection 17 1 17 1 1 TTC2100 17 2 17...

Page 11: ...HV 20 10 20 1 4 HIDIC EHV Ethernet 20 12 20 1 5 Wiring Diagrams 20 13 When Connected at CN1 20 13 When Connected at MJ1 MJ2 20 15 20 2 Temperature Controller Servo Inverter Connection 20 18 Inverter 2...

Page 12: ...1 Overview 1 1 System Configuration 1 2 Physical Ports 1 3 Connection Methods 1 4 Hardware Settings 1 5 System Device Memory for Communication Confirmation...

Page 13: ...s 8 way Communication Other than 8 way Serial CN1 RS 232C RS 422 485 1 PLC temperature controller servo inverter barcode reader MJ1 RS 232C RS 485 2 wire connection 1 PLC temperature controller servo...

Page 14: ...9 units can be connected to one PLC or temperature controller For more information refer to n 1 Connection Multi link2 Under Development page 1 17 n 1 Connection Multi link2 Ethernet Under Development...

Page 15: ...f 3 models for serial communication and 5 models for Ethernet communication For the connection method refer to 1 3 1 Serial Communication and 1 3 2 Ethernet Communication Ethernet LAN run PROGRAMMER P...

Page 16: ...ting communication via RS 232C set the DIP switches 5 and 7 to OFF For more information on the DIP switch refer to 1 2 6 DIP Switch DIPSW Settings page 1 7 CN1 Dsub 9pin Female No RS 232C RS 422 RS 48...

Page 17: ...4 wire system Use the CN1 port instead or a commercially available RS 232C to RS 422 converter MJ1 MJ2 RJ 45 8pin No Signal Contents 1 SD RD RS 485 data 2 SD RD RS 485 data 3 5V Externally supplied 5...

Page 18: ...nsmission method Base band Maximum segment length 100 m between the node and the hub Connecting cable 100 UTP cable category 5 Protocol UDP IP TCP IP Port Auto MDIX Auto Negotiation functions compatib...

Page 19: ...1 via RS 422 485 4 wire connection set the DIPSW5 and DIPSW7 to ON When connecting a controller at MJ1 via RS 422 485 2 wire connection set the DIPSW6 to ON When connecting a controller at MJ2 via RS...

Page 20: ...PLC s protocol Therefore there is no need to prepare a communication program for the PLC slave station The V9 reads from the PLC device memory for screen display It is also possible to write switch d...

Page 21: ...he PLC Properties window For settings other than the above see 1 4 Hardware Settings page 1 43 Settings of a Connected Device Refer to the chapter of the respective manufacturer For descriptions of co...

Page 22: ...s side Connect the cable to the FG terminal on the backside of MONITOUCH If noise disturbs communications establish connections between SD and SG and between RD and SG as pairs respectively and connec...

Page 23: ...Connect a shielded cable to either the V9 series or the connected device The connection diagram shows the case where the shielded cable is connected on the V9 series side Connect the cable to the FG...

Page 24: ...the cable to the FG terminal on the backside of MONITOUCH If noise disturbs communications connect a shielded cable to both the V9 series and the connected device Name 1 No 2 3 4 RD SD SD 5 SG SG FG...

Page 25: ...ect a shielded cable to either the V9 series or the connected device Connect the cable to the FG terminal on the backside of MONITOUCH If noise disturbs communications connect a shielded cable to both...

Page 26: ...op connection refer to the Connection Compatibility List provided at the end of this manual or the chapters on individual manufacturers V SFT Ver 6 Settings Hardware Settings Selecting a device to be...

Page 27: ...d by the manufacturers RS 422 4 wire system connection Connection example Item Contents Connection Mode 1 n Signal Level RS 422 485 Baud Rate Configure according to the connected device Data Length St...

Page 28: ...FG SG FG RS 485 port of the connected device Send receive data Send receive data RS 485 port of the connected device Send receive data Send receive data Terminating resistance ON For wiring between co...

Page 29: ...e PLC is the same as the one for 1 1 connection RS 485 2 wire system connection is adopted to connect a master with slaves At this time use Hakko Electronics cable V6 MLT for the multi link2 master Wh...

Page 30: ...iving data from the PLC Normally use the default setting 0 Total 2 to 4 Set the total number of V9 units connected in the multi link2 connection The setting must be the same as other V9 series on the...

Page 31: ...switch of TC D9 to ON 2 wire system As a measure against noise connect the frame ground terminal of each V9 series at one side only The frame ground of V6 MLT must be connected to the V9 series When...

Page 32: ...sed Install jumpers between SD and RD as well as SD and RD As a measure against noise connect the frame ground terminal of each V9 series at one side only PLC CN1 MJ1 MJ2 CN1 a b c d CN1 CN1 Communica...

Page 33: ...ocks Use the RS 485 2 wire system connection Use twisted pair cables of 0 3 mm sq or greater b c d The maximum length of the wiring among the master and slave is 500 m Wiring diagrams PLC1 MJ1 MJ2 a b...

Page 34: ...the RS 485 2 wire system connection Use twisted pair cables of 0 3 mm sq or greater The maximum length of the wiring is 500 m c Connection between terminal block and slave The connecting port of the s...

Page 35: ...J2 Terminal block installed by the customer Terminal block installed by the customer Terminating resistance ON Terminating resistance OFF Terminating resistance OFF Slave MJ1 MJ2 Slave MJ1 MJ2 b c d e...

Page 36: ...6 7 8 ON 1 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8 PLC CN1 MJ1 MJ2 CN1 MJ1 MJ2 CN1 MJ1 MJ2 CN1 MJ1 2 CN1 MJ1 2 ON 1 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8...

Page 37: ...V7 and V6 series cannot be used together The communication speed between the master station and the PLC depends on the setting made on the PLC however communication among V9 units is performed via Eth...

Page 38: ...other V9 series on the same communication line Retry Cycle Valid only when the local port is 1 master Set the number of cycles before the master sends an inquiry for restoration to a slave that has a...

Page 39: ...0 in 1 1 Connection Use a LAN cable to connect a master with slaves Item Contents Multi link2 Ethernet Table For local port 1 master Set the IP addresses of all V9 units used as slave to respective lo...

Page 40: ...on and the PLC depends on the setting made on the PLC however communication among V9 units is performed via Ethernet thus high speed communication is possible among them For PLCs that support 1 n mult...

Page 41: ...the same as other V9 series on the same communication line Retry Cycle Valid only when the local port is 1 master Set the number of cycles before the master sends an inquiry for restoration to a slave...

Page 42: ...nection Multi drop Use a LAN cable to connect a master with slaves Item Contents Multi link2 Ethernet Table For local port 1 master Set the IP addresses of all V9 units used as slave to respective loc...

Page 43: ...set RS 485 2 wire system connection is adopted to connect a V series unit and a PLC For available models see Connection Compatibility List provided at the end of this manual Use twisted pair cables of...

Page 44: ...if the port number specified is the same as that already set for another V9 unit the system will not operate correctly Send Delay Time 1 0 to 255 msec Default setting 20 msec Specify a delay time tha...

Page 45: ...C D9 is used Install jumpers between SD and RD as well as SD and RD FG RD RD SD SD SG SG TC D9 FG RD RD SD SD SG TC D9 FG Name Name Name RD RD SD SD SG TC D9 Terminating resistance OFF Shielded Shield...

Page 46: ...DSR 17 DTR 18 20 21 FG Name Name Name Name SD SD RD RD SG TC D9 FG SD SD RD RD SG TC D9 TC D9 FG SD SD RD RD SG Terminating resistance OFF V MDD GD port Terminating resistance OFF Terminating resistan...

Page 47: ...FF Shielded To the RS422 port of the connected device Receive data Receive data Send data Send data Terminating resistance ON Terminating resistance OFF Terminating resistance ON Jumpers may not be ne...

Page 48: ...s depends on the PLC specifications Refer to the PLC manual issued by the manufacturer You can make settings for Ethernet communication in Communication Setting for the logical ports PLC1 PLC8 Etherne...

Page 49: ...les a prompt detection of a communication error thus significantly shortens the time to wait until a disconnect process takes place after an occurrence of the time out error When using this function s...

Page 50: ...k Setting to display the PLC Table window Set the IP address port number and KeepAlive function under development of the PLC Item Contents Item Contents Select IP Address from Network Table This is va...

Page 51: ...al switch The display switches to Local mode 3 Press the LAN Setting switch and display the LAN Setting screen 4 Set each item 5 Press the Apply switch to determine the setting Press the Return to Scr...

Page 52: ...UTION Use a commercially available cable Using a self made cable may cause an error in network connection If the use of a cross cable cannot stabilize communication use a hub 1 No Name Name 2 3 6 4 5...

Page 53: ...communication unit specifications provided for each network Wiring For more information refer to the communication unit specifications provided for each network Communication Interface Unit Network Av...

Page 54: ...ODBUS RTU The V9 series is connected to a Modbus RTU master via serial connection The device memory table for Modbus slave communication is prepared for the V9 The master is allowed to gain access to...

Page 55: ...anual Item Contents 1 PLC Setting Set the devices PLC temperature controller servo inverter barcode reader etc to connect to PLC1 to PLC8 2 Connection Diagram The devices which are set for connection...

Page 56: ...ouble click Item Contents Communication Setting Connection Mode Select a connection mode 1 1 1 n Multi link Multi link2 Ethernet 1 n Multi link2 Ethernet Available options vary depending on which devi...

Page 57: ...t LSB MSB MSB LSB Comm Error Handling Select an action to be taken in the event of a communication error Stop Communication will be stopped entirely and the communication error screen will be displaye...

Page 58: ...ed to data for the V9 series None P2 493 494 495 is used as the transfer table control device memory Yes s762 763 764 is used as the transfer table control device memory For more information see 1 5 1...

Page 59: ...he calendar data to be read from device memory via the selected port at PLC1 PLC8 Calendar Read Device This setting is valid when the V9 s built in clock is not used This bit should be used differentl...

Page 60: ...endar read device memory to ON At the leading edge of this bit 0 1 data in the calendar device memory is set for calendar data on MONITOUCH 1 Calendar data is cleared when the power is turned off When...

Page 61: ...table refer to Network table page 1 50 IP Address 1 Set the IP address for the V9 Default Gateway 1 Set the default gateway Subnet Mask 1 Set the subnet mask When this box is not checked the subnet ma...

Page 62: ...istered Only valid when set as the local port IP of the V9 unit Item Contents Port Name Set the name of the V9 or the computer IP Address 1 Set the IP address of the V9 or the computer Send Timeout 2...

Page 63: ...cations are carried out for each application between the nodes Consequently it is necessary to have a means to identify the application that data should be transferred to The port number works as this...

Page 64: ...e port to connect the printer cable to USB A Select when connecting an EPSON ESC P R compatible printer Also use this setting when connecting a parallel printer using a commercially available parallel...

Page 65: ...t to the printing paper and printed out Printing examples of hard copies Reversed Image Reversed Screens are printed with black and white inverted Normal Screens are printed as they are displayed on M...

Page 66: ...ch emulation refer to the V9 Series Reference Manual Simulator Configure this setting when saving a simulator communication program to a storage device SD card or USB flash drive in addition to screen...

Page 67: ...see 1 5 2 s518 Ethernet Status Confirmation For the device memory address s s0 to 2047 2 K words are assigned and data can be read from written to this area For more information on addresses other tha...

Page 68: ...C1 Link down information station No 128 143 0 Normal 1 Down 019 121 PLC1 Link down information station No 144 159 0 Normal 1 Down 020 122 PLC1 Link down information station No 160 175 0 Normal 1 Down...

Page 69: ...tatus Station No 255 status page 1 60 356 Device memory map 0 Status V 357 Device memory map 0 Error code 1 358 Device memory map 0 Error code 2 359 361 Device memory map 1 Status error code 362 364 D...

Page 70: ...efer to the V9 Series Reference Manual 0 Periodical reading synchronized reading executed Other than 0 Periodical reading synchronized reading stopped V 494 763 PLC2 3 Forced execution of the device m...

Page 71: ...ting communications If Pn 99 0 the link down information is updated If Pn 99 other than 0 the link down information is not updated Station No 18 Link down 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 0 0 0 0...

Page 72: ...The check code of the response is incorrect Implement solutions 1 and 3 Data error The code of the received data is invalid Implement solutions 1 2 and 3 Error code received An error occurred on the c...

Page 73: ...001H Check code error 8002H Data error 800BH Receives the error code from the connected device Exit Code HEX Contents 10 Host communication error Parity error 11 Framing error 12 Overrun error 13 FCS...

Page 74: ...command u1000 P2 101 W 3 The reception code is stored in P2 508 P2 508 0002H 4 The PXR manual shows that code 002H means device memory address range exceeded Amend the screen program address designati...

Page 75: ...ines 205 TCP connection error Connection cannot be established Check the communication lines or turn the power off and back on again 207 TCP send error TCP communication has failed Check the communica...

Page 76: ...1 64 1 Overview Please use this page freely...

Page 77: ...2 1 PLC Connection 2 ALLEN BRADLEY...

Page 78: ...am 4 M2 1770 KF2 RS 232C Wiring diagram 4 C2 Wiring diagram 5 M2 RS 422 Wiring diagram 2 C4 Control Logix Compact Logix 1756 Control Logix Logix 5550 RS 232C Wiring diagram 1 C2 1 Wiring diagram 1 M2...

Page 79: ...OFF SW2 OFF SW5 OFF Error check BCC Parity None Embedded response No SW1 ON SW2 OFF SW5 OFF Error check BCC Parity Even Embedded response No 3 Detect duplicate messages ON Detect and ignore duplicate...

Page 80: ...d shaking signals OFF Ignore handshaking signals 6 Diagnostic Commands ON Execute diagnostic commands No Item Setting Remarks 1 Octal Digit 0 0 SW1 ON SW2 ON 2 3 5 Octal Digit 1 Setting example Statio...

Page 81: ...ing signals SW Item Setting Remarks SW 2 First Digit 0 SW1 ON SW2 ON SW 3 Second Digit OCT Setting example Station number 15 DEC 17 OCT SW 3 ON OFF OFF SW 4 ON ON ON SW 4 Third Digit OCT No Item Setti...

Page 82: ...F 6 ON OFF 7 ON OFF 8 OFF OFF 9 ON ON 10 OFF OFF Item Setting Remarks Channel 0 Communication Mode System Point To Point Remote Mode Change Unchecked Serial Port Baud Rate 4800 9600 19 2 K Bits Per Ch...

Page 83: ...y Device Memory TYPE Remarks N integer 00H B bit 01H T ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S stat...

Page 84: ...er When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown below T Timer control DN 13 TT 14 EN...

Page 85: ...mode LAN Setting Port number for the V9 unit for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of the PLC Register on...

Page 86: ...ry Device Memory TYPE Remarks N integer 00H B bit 01H T ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S sta...

Page 87: ...er When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown below T Timer control DN 13 TT 14 EN...

Page 88: ...e is used Item Setting Remarks Connection Mode 1 1 Multi link2 Multi link2 Ethernet For multi link2 and multi link2 Ethernet be sure to use the same tag table Signal Level RS 232C RS 422 485 Baud Rate...

Page 89: ...col DF1 Point to Point Station Address 0 NAK Receive Limit 3 ENQ Transmit Limit 3 ACK Timeout 50 Embedded Responses Autodetect Error Detection BCC Enable Duplicate Detection Checked Item Setting Remar...

Page 90: ...LC device memory For more information on importing exporting and creating a tag refer to Connection with A B Control Logix provided separately Indirect Device Memory Designation Not available Item Set...

Page 91: ...communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of the PLC Register on the PLC Table in System Setting Hardware Setting...

Page 92: ...rer BOOTP utility RSLinx software RSLogix 5000 software Available Device Memory Create a CSV file by exporting tag created by using the ladder tool of the PLC Then import the CSV file into the editor...

Page 93: ...de 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Even Target...

Page 94: ...m Setting Remarks Baudrate 19200 Bits Per Character 8 Parity Even Stop Bits 1 Item Setting Remarks Duplicate Packet Detection Enabled Checksum BCC Constant Carrier Detect Disabled Message Timeout 400...

Page 95: ...ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer control 09H C counter control 0AH R con...

Page 96: ...er and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as show...

Page 97: ...the V9 unit Local mode LAN Setting Port number for the V9 unit for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of th...

Page 98: ...t 01H T ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer control 09H C counter control 0A...

Page 99: ...r and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown...

Page 100: ...Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 7 8 bits Stop Bit 1 bit Parity None Even Target P...

Page 101: ...y TYPE Remarks N integer 00H B bit 01H T ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer...

Page 102: ...er and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as show...

Page 103: ...r the V9 unit for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of the PLC Register on the PLC Table in System Setting...

Page 104: ...timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer control 09H C counter control 0AH R control...

Page 105: ...r and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown...

Page 106: ...mmunication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of the PLC Register on the PLC Table in System Setting Hardware Setting PL...

Page 107: ...nel configuration Item Setting Remarks Chan 0 System Driver DF1 Full Duplex Baud 9600 19200 38400 Parity NONE Stop Bits 1 Control Line No Handshaking Error Detection CRC Embedded Responses Auto Detect...

Page 108: ...t 01H T ACC timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer control 09H C counter control 0A...

Page 109: ...r and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown...

Page 110: ...t for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number No 44818 of the PLC Register on the PLC Table in System Setting Hardware Se...

Page 111: ...is model is not equipped with the calendar function Use the built in clock of the V series Item Setting Remarks Chan 0 Driver DF1 Full Duplex Baud 4800 9600 19200 38 4K Parity NONE Control Line No Han...

Page 112: ...timer current value 02H T PRE timer set value 03H C ACC counter current value 04H C PRE counter set value 05H I input 06H O output 07H S status 08H T timer control 09H C counter control 0AH R control...

Page 113: ...r and 0001 for the upper address number When specifying an address for the timer control counter control or control device memory in bit designation specify the bit number in decimal notation as shown...

Page 114: ...9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Use shielded twist pair cables 1 6 5 9 PLC TXD DTR RXD 2 CD 1 No 3 4 SG 5 DSR 6 RTS 7 CTS 8 Name Dsub 9 Female No Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS...

Page 115: ...LEN BRADLEY Wiring diagram 4 C2 PLC RTS CTS RXD 3 TXD 2 No 4 5 DSR 6 SG 7 DCD 8 DTR 20 Name Dsub 25 Female No Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 14 1 25 13 Use shielded twist pai...

Page 116: ...5 9 1 6 1 6 5 9 Use shielded twist pair cables CTS DSR TDA DCD RTS 4 No 5 6 8 14 Name 16 18 RDB RDA TDB DTR 20 25 1 14 13 25 PLC Dsub 25 Female 1 No Dsub 9 Male 2 3 4 RD SD SD RD FG CN1 Name 5 9 1 6...

Page 117: ...4 SG 5 DSR 6 RTS 7 CTS 8 Name PLC Dsub 9 Female 1 6 5 9 Use shielded twist pair cables PLC TXD DTR RXD 2 CD 1 No 3 4 SG 5 DSR 6 RTS 7 CTS 8 Name Dsub 9 Female Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12...

Page 118: ...R 6 SG 7 DCD 8 DTR 11 Name Dsub 15 Male 13 SG Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 8 15 1 9 Use shielded twist pair cables PLC RTS CTS RXD 3 TXD 2 No 4 5 DSR 6 SG 7 DCD 8 DTR 20 Name Dsub 25...

Page 119: ...2 42 2 ALLEN BRADLEY Please use this page freely...

Page 120: ...3 1 PLC Connection 3 Automationdirect...

Page 121: ...ort 1 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 RS 422 Wiring diagram 1 C4 Port 2 RS 232C Wiring diagram 3 C2 Wiring diagram 3 M2 Port 3 RS 422 Wiring diagram 2 C4 D2 230 PORT1 RS 232C Wiring di...

Page 122: ...ult Item Setting Remarks Connection Mode 1 1 Multi link2 Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 8 bits Stop Bit 1 2 bits Parity None Odd E...

Page 123: ...rs under Communication Setting of V9 Available Device Memory The available setting range of device memory varies depending on the PLC model Be sure to set within the range available for the PLC to be...

Page 124: ...Communication Setting Others System Setting Hardware Setting PLC Properties Communication Setting For Transfer Speed select the same setting as the specification of the connected communication module...

Page 125: ...ng range of device memory varies depending on the PLC model Be sure to set within the range available for the PLC to be used Use TYPE when assigning indirect device memory for macro programs Contents...

Page 126: ...link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 Register Setting...

Page 127: ...e for the PLC to be used Use TYPE when assigning indirect device memory for macro programs Register Setting Setting Example R776 Same as the setting register R772 for PORT1 00E0H R777 Same as the sett...

Page 128: ...5 Use shielded twist pair cables PLC RXD RTS SG CTS TXD 2 No 3 4 5 7 No Name Name Dsub 9 Male High density Dsub 15 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 5 15 1 11 10 Use shielded twist pair cab...

Page 129: ...Dsub 9 Male CN1 PLC Dsub 25 Male 5 9 1 6 1 14 13 25 Use shielded twist pair cables Name Name 1 No 2 3 4 RD SD SD 5 SG RD FG RXD RXD TXD 13 TXD 12 SG 7 No 24 25 Dsub 9 Male CN1 PLC Dsub 25 Male 5 9 1 6...

Page 130: ...45678 Use shielded twist pair cables PLC RXD RTS SG CTS TXD 2 No 3 4 5 7 Name High density Dsub 15 Male 5 15 1 11 10 Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables PLC R...

Page 131: ...4 1 PLC Connection 4 2 Temperature Controller Servo Inverter Connection 4 Azbil...

Page 132: ...nual PLC Selection on the Editor Model Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 MX series MX50 LOAD connector CN7 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 ASCII connector CN8...

Page 133: ...ith a calendar function however the calendar data cannot be written from the V series Thus time correction must be performed on the PLC side Item Setting Remarks Connection Mode 1 1 Multi link2 Multi...

Page 134: ...96 9600 bps 192 19200 bps Item 2 Communication mode 8E1 data length 8 bits even parity 1 stop bit 8n2 data length 8 bits without parity 2 stop bits Communication Setup Mode Setting Remarks ASCII conn...

Page 135: ...PLC SD SG CS RS RD 2 No 3 5 7 8 No Dsub 9 Male Dsub 9 Female 2 3 5 7 8 RD SD SG RS CS CN1 Name Name FG 5 9 1 6 1 6 5 9 Use shielded twist pair cables PLC RD RS SG CS SD 2 No 3 4 5 7 No Dsub 9 Male Ds...

Page 136: ...agram 2 M2 No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name 12345678 PLC SD SG CS RS RD 2 No 3 5 7 8 Dsub 9 Female Name 1 6 5 9 Use shielded twist pair cables No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name 12345678 PLC R...

Page 137: ...M4 SDC36 Lst SDC15Txxxx03xx SDC15Txxxx06xx SDC25Txxxxx2xx SDC26Txxxxx2xx None 1 SDC40A SDC40Axxxxxxx2xx Terminal on the back RS 485 Wiring diagram 2 C4 Wiring diagram 2 M4 SDC40A Lst SDC40Axxxxxxx3xx...

Page 138: ...e Editor CPU Unit Port Signal Level Connection Lst File CN1 MJ1 MJ2 NX CPL NX D15 NX D25 NX D35 Built in terminal RS 485 Wiring diagram 1 C4 Wiring diagram 1 M4 NX_CPL Lst NX MODBUS RTU NX CB1N termin...

Page 139: ...ameter as to be reprogrammed frequently into RAM where the number of reprogramming times is not limited However when the parameter has been written into RAM and the power is turned off and back on aga...

Page 140: ...gramming times is not limited However when the parameter has been written into RAM and the power is turned off and back on again data in EEPROM is transferred For more information refer to the instruc...

Page 141: ...ngly we recommend that you write such a parameter as to be reprogrammed frequently into RAM where the number of reprogramming times is not limited However when the parameter has been written into RAM...

Page 142: ...been written into RAM and the power is turned off and back on again data in EEPROM is transferred For more information refer to the instruction manual for the controller issued by the manufacturer It...

Page 143: ...the parameter has been written into RAM and the power is turned off and back on again data in EEPROM is transferred For more information refer to the instruction manual for the controller issued by t...

Page 144: ...rogrammed frequently into RAM where the number of reprogramming times is not limited However when the parameter has been written into RAM and the power is turned off and back on again data in EEPROM i...

Page 145: ...i link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 9600 19200 38400 bps Data Length 8 bits Stop Bit 1 bit Parity Even Target Port No 1 to 16 When connecting to the COM...

Page 146: ...6H Double word read only 0E6 AO status 17H Double word 0E7 TP status 18H Double word 0E8 zener barrier adjustment count 19H Double word read only 0F1 communication setting in use for ME200 1AH Double...

Page 147: ...ord C07 segment setup 48H Double word C08 segment setup 49H Double word C09 segment setup 4AH Double word C0A segment setup 4BH Double word C0B segment setup 4CH Double word C0C segment setup 4DH Doub...

Page 148: ...on 15 8 7 0 n 0 Model Device type n 1 Group ID Item ID n 2 Expansion code Bit designation n 3 00 Station number 15 8 7 4 3 0 n 0 Model Device type n 1 Group ID medium lower 1 Item ID 1 n 2 000 Group I...

Page 149: ...S 422 485 Baud Rate 9600 19200 38400 57600 bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 31 Parameter Type ID Group ID Item ID Setting Items Contents Remarks 0D2...

Page 150: ...6 Ra_PID monitor 14H Double word read only 241 UP_PID setting 15H Double word 242 UP_PID constant 16H Double word 243 UP_PID monitor 17H Double word read only 301 TBL TBR setting 18H Double word 600 P...

Page 151: ...ntroller to V series F05 user defined area 3AH Double word F06 user defined area 3BH Double word Device Memory Parameter Type ID TYPE Remarks Item ID Group ID Parameter type ID Contents F0 F1 u n F2 I...

Page 152: ...h 7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 31 Parameter Type ID Group ID Item ID Setting Items Contents Remarks Exx 1 002 01 Baud rate 9600 bps 19200 bps 38400 bps 02 Data b...

Page 153: ...001 double word 212 PID_CAS constant master side 0FH AHC2001 double word 213 PID_CAS constant slave side 10H AHC2001 double word 214 PID_CAS monitor 11H AHC2001 double word read only 234 Ra_PID settin...

Page 154: ...area 33H AHC2001 double word E03 user defined area 34H AHC2001 double word E04 user defined area 35H AHC2001 double word F01 user defined area 36H AHC2001 double word F02 user defined area 37H AHC2001...

Page 155: ...rect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 422 485 Baud Rate 4800 9600 bps Data Length...

Page 156: ...to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232...

Page 157: ...when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Ra...

Page 158: ...munication Setting IP address port number and maximum read value of the PLC Register on the PLC Table in System Setting Hardware Setting PLC Properties Target Settings Controller Make the following se...

Page 159: ...he available setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro pr...

Page 160: ...ring diagram 1 C4 SD RD SG No Name Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Use shielded twist pair cables PLC RD SD SG No 2 3 5 No Name Name Dsub 9 Male Dsub 9 Female 2 3 5 7 8 RD SD...

Page 161: ...DB RDA RDB SG SDA Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 RJ 10 5 9 1 6 Name CONSOLE UNIT DB SG DA DB DA SG Use shielded twist pair cables Identifier pin Ide...

Page 162: ...No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables PLC RD SD SG No 2 3 5 Name Dsub 9 Female 1 6 5 9 Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables...

Page 163: ...MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Name CONSOLE UNIT DB SG DA DB DA SG Use shielded twist pair cables Identifier pin Identifie r pin RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 No...

Page 164: ...5 1 PLC Connection 5 Baumuller...

Page 165: ...der transfer function see the V9 Series Reference Manual PLC Selection on the Editor CPU Unit Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 BMx x PLC BMx x PLC RS 232C port RS 232C Wiring...

Page 166: ...n the range available for the PLC to be used Use TYPE when assigning indirect device memory for macro programs The assigned device memory is expressed as shown on the right when editing the screen Ite...

Page 167: ...g diagram 1 C4 PLC RXD GND TXD 2 No 3 7 No Dsub 9 Male Dsub 25 Male 2 3 5 7 8 RD SD SG RS CS CN1 Name Name FG 5 9 1 6 1 14 13 25 Use shielded twist pair cables PLC R A SG T A 2 No 4 8 Dsub 15 Male Nam...

Page 168: ...4 5 Baumuller When Connected at MJ1 MJ2 RS 232C Wiring diagram 1 M2 No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name 12345678 PLC RXD GND TXD 2 No 3 7 Dsub 25 Male Name 1 14 13 25 Use shielded twist pair cables...

Page 169: ...6 1 PLC Connection 6 BECKHOFF...

Page 170: ...t Communication 2 For the ladder transfer function see the V9 Series Reference Manual 3 Use the same voltage 24 V as for the CPU PLC Selection on the Editor CPU Unit LAN port TCP IP UDP IP Port No Kee...

Page 171: ...the PLC Table in System Setting Hardware Setting PLC Properties Target Settings PLC IP address setting 1 Set the DIP switches 9 and 10 to OFF 2 Connect the PLC with the computer 3 Launch Command Promp...

Page 172: ...emory is expressed as shown below when editing the screen Example P800 F00000001 Indirect Device Memory Designation For P300 P800 P801 device memory Specify a value obtained by dividing the address by...

Page 173: ...Data Port Name 100 Logger only NT Log 110 Eventlogger 300 IO 301 Additional Task 1 302 Additional Task 2 801 PLC Run time System 1 811 PLC Run time System 2 821 PLC Run time System 3 831 PLC Run time...

Page 174: ...7 1 Temperature Controller Servo Inverter Connection 7 CHINO...

Page 175: ...5 C4 Wiring diagram 3 M4 DP10xxGGxx xxx Terminal block COM1 RS 422 Wiring diagram 4 C4 COM2 RS 485 Wiring diagram 5 C4 Wiring diagram 3 M4 DB1000B MODBUS RTU DB1xxxBRxx xxx Terminal block RS 232C Wir...

Page 176: ...tting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 7 8 bits Stop Bit 1 2 bi...

Page 177: ...ost communication Device No 01 to 99 Invalid during RS 232C communication 00 Communication not possible Baud rate 4800 9600 19200 38400 bps Communication characters Data length parity stop bit 7N1 dat...

Page 178: ...nt OSL 1 1 2 2 2 19 0 0 Execution sensor offset 4 1 2 2 2 1a 0 0 SV value offset 4 1 2 2 2 1b 0 0 2nd P 1 1 2 1c 0 0 2nd I 1 2 1d 0 0 2nd D 1 2 20 0 0 Controller setting device 1 6 21 0 0 Setting devi...

Page 179: ...BIN Parameter 1 BCD Parameter 2 BCD Read Write Address Denotations Name Decimal Place Command Address BIN Parameter 1 BCD Parameter 2 BCD Read Write 00 Alarm No 1 to 8 0 AL1 4 1 4 12 01 Alarm No 1 to...

Page 180: ...37 5c 1 0 Zero 1 1 4 38 5d 1 0 Span 1 1 4 38 5e 1 0 Deadband 1 1 4 38 61 1 0 Output preset 1 1 4 39 64 1 0 Output in PV error 1 1 4 40 67 1 0 Output normal reverse 1 4 41 6a 1 0 Linear range zero 4 1...

Page 181: ...S4 1 3 3 4 12 Pattern No Step No TS5 1 3 3 4 13 Pattern No Step No TS6 1 3 3 4 14 Pattern No Step No TS7 1 3 3 4 15 Pattern No Step No TS8 1 3 3 4 16 Pattern No Step No TS9 1 3 3 4 17 Pattern No Step...

Page 182: ...Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 99 Mode No Item Setting Remarks...

Page 183: ...address number specify the value obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level...

Page 184: ...value obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rat...

Page 185: ...s number specify the value obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C...

Page 186: ...alue obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 422 485 Baud Rate 9600 192...

Page 187: ...he device memory address number specify the value obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethern...

Page 188: ...C2 RD SG SD No Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 Name Name 5 9 1 6 Use shielded twist pair cables RD1 SG SD1 No Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 Name Name 5 9 1 6 Use shielded twi...

Page 189: ...C4 Name SDB RDA SG RDB SDA 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name 5 9 1 6 Use shielded twist pair cables Name SB SG SA 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name 5 9 1 6 Use shie...

Page 190: ...diagram 5 C4 Name SDB1 RDA1 SG RDB1 SDA1 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name 5 9 1 6 Use shielded twist pair cables Name SB2 SG SA2 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name...

Page 191: ...M4 RD SG SD No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name Name 12345678 Use shielded twist pair cables RD1 SG SD1 No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name Name 12345678 Use shielded twist pair cables RD2 SG SD2...

Page 192: ...m 2 M4 Wiring diagram 3 M4 SB1 SG SA1 Name Name No 1 2 5 RD SD RD SD SG FG RJ 45 MJ1 2 12345678 Use shielded twist pair cables SB2 SG SA2 Name Name No 1 2 5 RD SD RD SD SG FG RJ 45 MJ1 2 12345678 Use...

Page 193: ...8 1 PLC Connection 8 CIMON...

Page 194: ...ing diagram 3 C4 Wiring diagram 1 M4 CM2 BPxxMDxx S Comm port RS 422 485 Wiring diagram 1 C4 Wiring diagram 2 M4 CM2 BPxxMDxx U CH1 RS 422 Wiring diagram 2 C4 CH2 RS 422 485 Wiring diagram 3 C4 Wiring...

Page 195: ...parity none CM2 BPxxMDxx T U CH1 Make communication settings using the application software CICON For more information refer to the instruction manual issued by CIMON Item Setting Remarks Connection M...

Page 196: ...efer to the instruction manual issued by CIMON Item Setting Remarks Comm Type RS422 RS485 RS 422 4 wire RS 485 2 wire Protocol CICON Loader Protocol Baud Rate 9600 19200 38400 bps Parity Even Odd None...

Page 197: ...mory for macro programs 1 The addresses are expressed in bytes For word designation specify an even numbered address Device Memory TYPE Remarks D Data Memory 00H X External Input 01H Y External Output...

Page 198: ...s using the application software CICON For more information refer to the instruction manual issued by CIMON Item Setting Remarks Connection Mode 1 1 Multi link2 Multi link2 Ethernet Signal Level RS 23...

Page 199: ...ing the application software CICON For more information refer to the instruction manual issued by CIMON Item Setting Remarks Protocol CICON Loader Protocol Baud Rate 9600 19200 38400 bps Parity Even O...

Page 200: ...ice memory for macro programs 1 The addresses are expressed in bytes For word designation specify an even numbered address Device Memory TYPE Remarks D Data Memory 00H X External Input 01H Y External...

Page 201: ...123456 Use shielded twist pair cables Name SG TD 3 No 5 PLC RD 2 5 9 1 6 Dsub 9 Male No Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Use shielded twist pair cables No Name Dsub 9 Male 2 3...

Page 202: ...cables Name RDA SDB 2 No 3 PLC SDA 1 5 9 1 6 Dsub 9 Male RDB 4 Name 1 No 2 3 4 RD SD SD RD FG Dsub 9 Male CN1 5 9 1 6 5 SG GND 5 Use shielded twist pair cables Name RDA SDB 7 No 8 PLC SDA 6 5 9 1 6 D...

Page 203: ...8 10 8 CIMON Wiring diagram 5 C4 Name RDA SDB 2 No 3 PLC SDA 1 RDB 4 6 pin Terminal 1 6 GND 5 Name 1 No 2 3 4 RD SD SD RD FG Dsub 9 Male CN1 5 9 1 6 5 SG Use shielded twist pair cables...

Page 204: ...G MJ1 2 12345678 Use shielded twist pair cables Name SG TD 3 No 5 PLC RD 2 5 9 1 6 Dsub 9 Male Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables Name No RJ 45 7 8 5 RD SD S...

Page 205: ...air cables No RJ 45 1 2 5 RD SD RD SD SG FG MJ1 2 Name 12345678 Name RDA SDB 2 No 3 PLC SDA 1 8 pin Terminal RDB 4 1 4 GND 5 Use shielded twist pair cables No RJ 45 1 2 5 RD SD RD SD SG FG MJ1 2 Name...

Page 206: ...9 1 PLC Connection 9 DELTA...

Page 207: ...anual PLC Selection on the Editor CPU Unit Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 DVP series DVP EH2 DVP ES DVP EX DVP SS DVP SA DVP SX DVP SC DVP SV DVP PM RS 232C communication p...

Page 208: ...s Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 9600 19200 38400 57600 115200 bps Data Length 7 8 bits Stop Bit 1 2 bits P...

Page 209: ...gram 1 C2 RS 422 RS 485 Wiring diagram 1 C4 PLC Tx GND Rx 4 No 5 8 No Name Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Mini DIN 8 Male 7 6 4 5 3 2 1 8 Use shielded twist pair cables No Na...

Page 210: ...1 M2 RS 422 RS 485 Wiring diagram 1 M4 No 7 8 5 RD SD SG FG RJ 45 MJ1 2 Name 12345678 PLC Tx GND Rx 4 No 5 8 Name Mini DIN 8 Male 7 6 4 5 3 2 1 8 Use shielded twist pair cables No RJ 45 1 2 RD SD RD S...

Page 211: ...10 1 Temperature Controller Servo Inverter Connection 10 DELTA TAU DATA SYSTEMS...

Page 212: ...Serial port J4 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 PMAC Lst Turbo PMAC PCI Option 9T J8 Wiring diagram 2 C2 Wiring diagram 2 M2 PMAC2 PCI Serial port J5 Turbo PMAC2 PCI Option 9T J8 UMAC...

Page 213: ...E POINT Item Setting Remarks Connection Mode 1 1 Multi link2 Multi link2 Ethernet Signal Level RS 232C Baud Rate 4800 9600 19200 38400 57600 76800 115K bps Data Length 8 bits Stop Bit 1 bit Parity No...

Page 214: ...tween pins 1 and 2 E110 Serial port setting RS 232C Install a jumper between pins 1 and 2 E POINT Contents Setting E17 E18 Serial port type selection RS 232C Install a jumper between pins 1 and 2 E PO...

Page 215: ...munication Setting in the PLC Properties window System Setting Hardware Setting Device Memory TYPE Remarks P variable P 00H Real number Q variable Q 01H Real number M variable M 02H Real number I vari...

Page 216: ...rt IP Address When specified on the V9 unit Local mode LAN Setting Port number for the V9 unit for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP addres...

Page 217: ...thernet configuration Procedure for changing the IP address 1 Change the IP address on the Ethernet Configuration dialog 2 Click Store IP on the Ethernet Configuration dialog 3 The Ethernet Configure...

Page 218: ...ITOUCH turn the power to UMAC off and remove the USB cable Then insert the Ethernet cable and turn the power on again I Variables by number Values after change are saved in FROM and determined when th...

Page 219: ...munication Setting in the PLC Properties window System Setting Hardware Setting Device Memory TYPE Remarks P variable P 00H Real number Q variable Q 01H Real number M variable M 02H Real number I vari...

Page 220: ...iring diagram 2 C2 No Name Dsub 9 Male 2 3 5 RD SD SG FG CN1 5 9 1 6 PLC RD SG DSR DTR CTS RTS SD 5 No 3 13 9 7 14 11 Name IDC 26 Female 25 26 2 1 Use shielded twist pair cables No Name Dsub 9 Male 2...

Page 221: ...ame No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 PLC RD SG DSR DTR CTS RTS SD 5 No 3 13 9 7 14 11 Name IDC 26 Female 25 26 2 1 Use shielded twist pair cables Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 1234567...

Page 222: ...11 EATON Cutler Hammer 11 1 PLC Connection...

Page 223: ...ee the V9 Series Reference Manual PLC Selection on the Editor CPU Unit Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 ELC ELC PA10 ELC PC12 ELC PH12 ELC PB14 Programming port on the CPU un...

Page 224: ...within the range available for the PLC to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Mu...

Page 225: ...LC Tx GND Rx 4 No 5 8 Name Mini Din Male No Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 1 2 4 3 5 6 7 8 5 9 1 6 Use shielded twist pair cables Name Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male...

Page 226: ...11 4 11 EATON Cutler Hammer RS 422 Wiring diagram 1 M4 Name RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Use shielded twist pair cables...

Page 227: ...12 1 PLC Connection 12 EMERSON...

Page 228: ...erminals is not allowed for connection PLC Selection on the Editor CPU Unit Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 EC10 EC20 EC20H MODBUS RTU EC10 Port1 2 RS 232C Wiring diagram 1...

Page 229: ...ograms Indirect Device Memory Designation For bit designation an expansion code setting is required 00H when designating bit 0 to 15 01H when designating bit 16 to 31 Item Setting Remarks Connection M...

Page 230: ...2C Wiring diagram 1 C2 RS 422 RS 485 Wiring diagram 1 C4 RXD GND TXD No Name Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Use shielded twist pair cables 1 No Dsub 9 Male 2 3 4 RD SD SD 5 S...

Page 231: ...iring diagram 1 M2 RS 422 RS 485 Wiring diagram 1 M4 RXD GND TXD Name Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables RS485 SG RS485 Name No RJ 45 1 2 5 RD SD RD SD SG FG...

Page 232: ...13 FANUC 13 1 PLC Connection...

Page 233: ...2 Power Mate Power Mate Model H D JD14 RS 422 Wiring diagram 1 C4 Power Mate i Model H D JD40 RS 422 Wiring diagram 2 C4 JD42 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 16 Model C JD5B RS 232C Wi...

Page 234: ...emory for macro programs Item Setting Remarks Connection Mode 1 1 Multi link2 Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 19200 bps fixed Data Length 8 bits fixed Stop Bit 1 bit fix...

Page 235: ...S CS FG CN1 5 9 1 6 Use shielded twist pair cables Half pitch 20 pin DR JD36A JD36B JD5B RD 3 1 CS 5 SG CD SD ER RS 8 7 11 15 13 No Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 No Name 5 9 1 6 Use...

Page 236: ...2 3 4 6 7 RD SD SD RS 5 SG RS RD FG CN1 Name 1 2 3 4 11 No Name No Name 5 9 1 6 Use shielded twist pair cables Half pitch 20 pin Half pitch 20 pin JD40 RXD TXD 1 3 2 4 5 RTS 6 7 CTS 8 CTS RTS TXD RXD...

Page 237: ...G MJ1 2 12345678 Use shielded twist pair cables Half pitch 20 pin DR JD36A JD36B JD5B RD 3 1 CS 5 SG CD SD ER RS 8 7 11 15 13 No Name Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist...

Page 238: ...13 6 13 FANUC Please use this page freely...

Page 239: ...14 Fatek Automation 14 1 PLC Connection...

Page 240: ...er Transfer 1 CN1 MJ1 MJ2 FACON FB series FBE 20MC FBE 28MC FBE 40MC CPU unit Programming port Port1 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 Port2 RS 485 Wiring diagram 1 C4 Wiring diagram 1 M...

Page 241: ...ose where bits or words can be used data is processed as words consisting of lower 16 bits For input Upper 16 bits are ignored For output 0 is written for upper 16 bits Item Setting Remarks Connection...

Page 242: ...GND 6 No Name 2 3 5 7 8 RD SD SG RS CS FG Dsub 9 Male CN1 5 9 1 6 8 15 1 9 Use shielded twist pair cables PLC RXD SG TXD 2 No 3 5 Name Dsub 9 Male 5 9 1 6 CTS 7 RTS 8 No Name 2 3 5 7 8 RD SD SG RS CS...

Page 243: ...G RD FG D D Dsub 9 Male CN1 5 9 1 6 Use shielded twist pair cables PLC TXD1 RTS1 RXD1 1 No 2 3 Name Dsub 15 Male CTS1 4 GND 6 Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 8 15 1 9 Use shielded twist...

Page 244: ...M4 Wiring diagram 2 M4 PLC D SG D 5 No 7 6 Name Dsub 15 Male 8 15 1 9 RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Use shielded twist pair cables Name D D RJ 45 MJ1 2 Name No 1 2 5 RD SD RD S...

Page 245: ...14 6 14 Fatek Automation Please use this page freely...

Page 246: ...15 1 PLC Connection 15 FUFENG...

Page 247: ...9 Series Reference Manual PLC Selection on the Editor CPU Unit Port Signal Level Connection Ladder Transfer 1 CN1 MJ1 MJ2 APC Series Controller APB 50 COM1 RS 232C Wiring diagram 1 C2 Wiring diagram 1...

Page 248: ...equipped with the calendar function Use the calendar function of the V series Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232...

Page 249: ...mon to D41 to D55 1 K Thermal control relay area 07H Common to D56 to D63 1 TSW Timer setting area 08H Common to D208 to D335 TP Present timer setting area 09H Read only common to D336 to D463 CSW Cou...

Page 250: ...b 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Dsub 9 Female 1 6 5 9 Use shielded twist pair cables PLC RXR SG TXD 2 No 3 5 No Name Name Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 Dsub 9 Ma...

Page 251: ...Dsub 9 Female 1 6 5 9 No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name 12345678 Use shielded twist pair cables PLC TXD SG RXR 2 No 3 5 Name Dsub 9 Male No RJ 45 7 8 5 RD SD SG FG MJ1 2 Name 12345678 5 9 1 6 Use...

Page 252: ...15 6 15 FUFENG Please use this page freely...

Page 253: ...16 Fuji Electric 16 1 PLC Connection 16 2 Temperature Controller Servo Inverter Connection...

Page 254: ...ode FLEX PC series NS CPU xx NS RS1 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 RS 485 Wiring diagram 1 C4 NJ CPU xx NJ RS2 RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 NJ RS4 RS 485 Wiring dia...

Page 255: ...ation 2 For the ladder transfer function see the V9 Series Reference Manual PLC Selection on the Editor CPU Unit TCP IP UDP IP Port No Keep Alive 1 Ladder Transfer 2 MICREX SX Ethernet NP1PH xx SPH200...

Page 256: ...editor PLC PLC Programming Tool Setting on the V9 Editor Address Expression PLC Selection Mode Selection 2 SPH series SX Programmer Expert D300win MICREX SX SPH SPB series MICREX SX SPH SPB CPU MICRE...

Page 257: ...ot provided on NV1L RS2 nor NC1L RS2 Item Setting Remarks Connection Mode 1 1 1 n Multi link Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 232C RS 422 485 Baud Rate 4800 96...

Page 258: ...it length 7 bits 8 bits 4 Stop bit length 1 bit 2 bits Baud rate 19200 9600 3 ON ON 2 ON OFF 1 OFF ON 8 7 6 5 4 3 2 1 ON Switch Contents ON OFF E g Editor Default Setting 8 Initializing method Switch...

Page 259: ...er 16 bits 2 WS step relay is a byte device processed as described below For input Upper 8 bits are 0 For output Lower 8 bits are written 3 To set up the file memory on the editor enter file number co...

Page 260: ...d Rate 4800 9600 19200 38400 bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 0 to 31 MODE Setting Contents 1 RS 232C Command defined asynchronous communication non proce...

Page 261: ...31 Initialize method Set parameters Baud rate 4800 9600 19200 38400 Parity Odd Even None Data bits 8 7 Stop bits 1 2 Notes on use of 2 wire connection with NW0LA RS4 The settings show above are not en...

Page 262: ...Be sure to match the settings to those made under Communication Setting of the editor Available Device Memory The available device memory is the same as the one described in 16 1 2 SPB N Mode FLEX PC...

Page 263: ...38400 bps For the SPH series Do not change the default setting Data Length 8 bits Stop Bit 1 bits Parity Even Target Port No 0 to 31 MODE Setting RS1 2 4 RS 232C Port RS 485 Port Remarks RS3 5 CH1 CH2...

Page 264: ...ords for MW1 100 3 The assigned device memory is expressed as shown below when editing the screen For IX or QX For MX1 MX3 or MX10 Item Setting Remarks Mode Loader Baud rate 4800 9600 19200 38400 Pari...

Page 265: ...length is set to 2 words in the word address WM WL WSM Example When accessing the address in DM100 Set the data length to 2 words for WM100 3 The assigned device memory is expressed as shown below wh...

Page 266: ...s IEC Mode PLC_CTL The macro command is the same as the one described in 16 1 4 MICREX SX SPH SPB Series IEC Mode 16 1 7 MICREX SX SPH SPB CPU N Mode F Mode Communication Setting The communication set...

Page 267: ...C Register on the PLC Table in System Setting Hardware Setting PLC Properties Target Settings The PLC port number is Self port standard No plus 251 set on the PLC PLC Ethernet Parameter Setting The ta...

Page 268: ...d to the PLC To transfer it to the PLC check Module driver on the relevant PLC transfer setting dialog Settings on the editor IP address setting for the V9 unit on the editor System Setting Hardware S...

Page 269: ...is the same as the one described in 16 1 8 MICREX SX Ethernet IEC Mode Available Device Memory The available device memory is the same as the one described in 16 1 5 MICREX SX SPH SPB Series N Mode F...

Page 270: ...25 Male 2 3 5 7 8 RD SD SG RS CS CN1 Name Name FG 5 9 1 6 1 14 13 25 Use shielded twist pair cables PLC SD CTS RD 2 No 3 4 No Dsub 9 Male Dsub 15 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 Name Name 5 7 SG...

Page 271: ...9 1 6 5 9 1 6 Use shielded twist pair cables Name SDB RDA SG RDB SDA 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name 5 9 1 6 Use shielded twist pair cables Name 1 No Dsub 9 Male 2 3 4 RD SD SD 5...

Page 272: ...4 13 25 Use shielded twist pair cables PLC SD CTS RD 2 No 3 4 No RJ 45 Dsub 15 Male 7 8 5 RD SD SG FG MJ1 2 Name Name 5 7 SG RTS 8 15 1 9 12345678 Use shielded twist pair cables PLC SD SG RD 2 No 3 5...

Page 273: ...16 20 16 Fuji Electric RS 422 RS 485 Wiring diagram 1 M4 SDB RDA SG RDB SDA No RJ 45 1 2 5 RD SD RD SD SG FG MJ1 2 Name Name 12345678 Use shielded twist pair cables...

Page 274: ...le CN1 MJ1 MJ2 F MPC04P loader F MPC04P UM02 AR2 UM02 AR3 UM02 AR4 RS 485 connector RS 485 Wiring diagram 3 C4 Wiring diagram 3 M4 F MPC04P Lst F MPC series FePSU F MPC04 UM01 ARxx Terminal block RS 4...

Page 275: ...FRNxxE1S x Touch panel connector RS 485 Wiring diagram 10 C4 Wiring diagram 10 M4 F Multi Lst OPC E1 RS communication board Wiring diagram 10 C4 Wiring diagram 10 M4 FRENIC MEGA MODBUS RTU FRNxxxG1x...

Page 276: ...on Lst File CN1 MJ1 MJ2 WSZ series WSZ 24MCT2 AC WSZ 32MCT2 AC WSZ 40MCT2 AC WSZ 60MCT2 AC PORT0 RS 232C Wiring diagram 3 C2 Wiring diagram 3 M2 WSZ Lst WSZ CB25 PORT1 RS 232C Wiring diagram 4 C2 Wiri...

Page 277: ...am 15 M4 F_WE1MA Lst WE1MA AGxxx Mxx WE1MA A1xxx Mxx F_WE1MA_1P Lst 1 WE1MA A5xxx Mxx WE1MA A2xxx Mxx F_WE1MA_1P3L L st 1 WE1MA A6xxx Mxx WE1MA A3xxx Mxx F_WE1MA_3P3L L st 1 WE1MA A7xxx Mxx WE1MA A4xx...

Page 278: ...following communication parameters are fixed baud rate 9600 bps data length 8 bits stop bit 1 bit and parity odd Available Device Memory The available setting range of device memory varies depending o...

Page 279: ...top bit 1 bit Available Device Memory The available setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assign...

Page 280: ...l Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi li...

Page 281: ...n the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link...

Page 282: ...422 485 Do not change the default settings of the signal level data length and stop bit because these settings on the temperature controller cannot be changed Baud Rate 9600 19200 38400 115200 bps Da...

Page 283: ...irect device memory for macro programs Device Memory TYPE Remarks 4 holding register 02H 3 input register 03H Note on Setting the Device Memory In accordance with the connected PUM model set the List...

Page 284: ...s depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1...

Page 285: ...ort No 32 or greater It is easier to specify port numbers for each network in the field by making the screen for setting the port number when creating the screen program In this case it is not necessa...

Page 286: ...at is displayed by selecting System Setting Unit Setting General Settings Be sure to leave this box unchecked RESTART SYS RESTART F0 Function Reconnection This macro command reconnects the controller...

Page 287: ...econds u0050 5 is set Set the port number from u0 to 31 on the screen u00000 00 u00001 50 u00002 51 u00031 81 Port No Setting Write the station number table in the FP ROM by the FRM_WR macro Macro FRO...

Page 288: ...Underlined setting default The communication parameter stop bit is fixed to 1 bit Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level R...

Page 289: ...ing of the editor Underlined setting default The communication parameter stop bit is fixed to 1 bit Setting Code Item Setting Example L Baud rate 4 8 4800 bps 9 6 9600 bps 19 2 19200 bps 19 2 L2 Data...

Page 290: ...ion function of FePSU can be selected at the time of purchase Select a model on which FePSU mode is available 2 The communication parameter stop bit is fixed to 1 bit Setting Code Item Setting Example...

Page 291: ...or of circuit 1 to 10 and invalid power 1 2 03H Double word read only 09 model code 09H Read only 10 operation status 0AH Read only 11 pre alarm value 1 0BH Double word read only 12 current value meas...

Page 292: ...tion time 2 Protective DG DG OCG maximum sensitivity phase angle 27zz OCG sensitivity current Leak alarm sensitivity current Protective DG DG OCG voltage setting 2 28zz OCG operation time 2 Leak alarm...

Page 293: ...component 2 output setting 66zz Blank Blank Distant direct state output setting 67zz Blank Blank Transducer output current phase setting 68zz Blank Blank Transducer output voltage phase setting 69zz B...

Page 294: ...90zz Blank Blank Transducer output CH6 setting 91zz Blank Blank External change over function setting of transducer output 92zz Blank Blank Display mode selection Note on Setting the Device Memory On...

Page 295: ...N the output of Power OFF 2 Turning OFF the output of power ON OFF Reset all of the demand maximum values 3 1 8 PLC1 8 n Station number 2 n 1 Command 3 Alarm reset 3 1 8 PLC1 8 n Station number 2 n 1...

Page 296: ...o be used Set the function code corresponding to the digital input terminal to use 2 When FVR E11S is selected for model selection on the editor use FGI bus for the communication protocol on the inver...

Page 297: ...when assigning indirect device memory for macro programs PLC_CTL Macro command PLC_CTL F0 F1 F2 Device Memory TYPE Remarks S command data 00H M monitor data 01H Double word F basic function 02H E term...

Page 298: ...ory The available setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for mac...

Page 299: ...etting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Se...

Page 300: ...function code corresponding to the digital input terminal to use 2 When FRENIC5000G11S P11S is selected for model selection on the editor select FGI bus for the communication protocol on the inverter...

Page 301: ...ata or M monitor data is used For the device memory address number specify the value obtained by subtracting 1 from the actual address PLC_CTL Macro command PLC_CTL F0 F1 F2 Device Memory TYPE Remarks...

Page 302: ...n on the editor select Modbus RTU for the communication protocol on the inverter Available Device Memory The available setting range of device memory varies depending on the model Be sure to set withi...

Page 303: ...t Signal Level RS 422 485 Baud Rate 4800 9600 19200 38400 bps Data Length 8 bits Do not change the default setting because the setting on the inverter cannot be changed Stop Bit 1 2 bits 1 Parity None...

Page 304: ...e Device Memory The available setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device me...

Page 305: ...200 bps Data Length 8 bits Do not change the default setting because the setting on the inverter cannot be changed Stop bit 1 2 bits 1 Parity None Odd Even Target Port No 1 to 31 Function Code Item Se...

Page 306: ...en assigning indirect device memory for macro programs Address denotations XXYY Device Memory TYPE Remarks 02H Function code identification number Function code group Group Code Name F 00H Basic funct...

Page 307: ...tically made according to the parity bit setting When no parity setting is made 2 bits is set for stop bit When a parity setting even or odd is made 1 bit is set for stop bit y10 Communication protoco...

Page 308: ...n parameter data length is fixed to 8 bits Available Device Memory The available setting range of device memory varies depending on the model Be sure to set within the range available for the model to...

Page 309: ...8400 bps 3 y06 Parity bit 0 None 1 Even 2 Odd 3 None 0 y07 Stop bit For Modbus RTU communication the stop bit setting is automatically made according to the parity bit setting When 0 is specified for...

Page 310: ...epending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs y99 Support link function 0 H30 Link function...

Page 311: ...400 bps 3 y06 Parity bit 0 None 1 Even 2 Odd 3 None 0 y07 Stop bit For Modbus RTU communication the stop bit setting is automatically made according to the parity bit setting When 0 is specified for y...

Page 312: ...ure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs y99 Support link function 0 H30 Link function 2 3 Function Code Item Se...

Page 313: ...Even 2 Odd 3 None 0 y07 Stop bit For Modbus RTU communication the stop bit setting is automatically made according to the parity bit setting When 0 is specified for y06 2 bits is set for stop bit When...

Page 314: ...the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs y99 Support link function 0 H30 Link function 2 3 Function Code Item Setting Example Freq...

Page 315: ...Parity bit 0 None 1 Even 2 Odd 3 None 0 y07 Stop bit For Modbus RTU communication the stop bit setting is automatically made according to the parity bit setting When 0 is specified for y06 2 bits is...

Page 316: ...in the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs y99 Support link function 0 H30 Link function 2 3 Function Code Item Setting Example F...

Page 317: ...d Rate 4800 9600 19200 bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 31 Switch Contents Example Station Address 1 Optional Selection Selection for Communication O...

Page 318: ...vailable Device Memory The available setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect de...

Page 319: ...Terminals from X2 to X5 can also be used Set the function code corresponding to the digital input terminal to use Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Mul...

Page 320: ...or macro programs PLC_CTL Device Memory TYPE Remarks S command data 00H M monitor data 01H F basic function 02H E error display function 03H C control function 04H P optional function 05H H high level...

Page 321: ...gning indirect device memory for macro programs Remarks on data format for the following device memory 40022 fixed voltage 40028 Ip fixed power factor 6 byte character string 40046 calendar 14 byte ch...

Page 322: ...ry for macro programs 1 Input a parameter number by manual operation 2 Address denotations XXYY Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet S...

Page 323: ...selection n 4 to n 5 Position data Automatic start immediate 1 8 PLC1 8 n Station number 6 n 1 Command 11 n 2 ABS INC n 3 Speed selection n 4 to n 5 Position data Automatic start positioning data num...

Page 324: ...model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Mul...

Page 325: ...tored from the servo amplifier to the V9 15 8 7 0 n 0 Model Device Memory type n 1 Address No n 2 Expansion code Bit designation n 3 00 Station number 15 8 0 0 0 0 0 0 0 Expansion bit designation 0 0...

Page 326: ...lected at the time of purchase Select a model on which RS 485 transmission mode is available The communication parameter data length is fixed to 8 bits Item Setting Remarks Connection Mode 1 1 1 n Mul...

Page 327: ...file CH6 06H F07 range file CH7 07H F08 range file CH8 08H F09 range file CH9 09H F10 range file CH10 0AH F11 range file CH11 0BH F12 range file CH12 0CH F13 warning setting file 0DH F14 system file 0...

Page 328: ...ilable setting range of device memory varies depending on the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs...

Page 329: ...in the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs 1 To perform zero calibration 0000 specify a value other than 0 Item Setting Remarks C...

Page 330: ...ation number 2 n 1 Command 5 n 2 Peak hold type 0 Peak hold 1 Valley hold 2 Peak valley hold n 3 Peak hold status 0 OFF 1 ON Peak hold terminal response 1 8 PLC1 8 n Station number 2 n 1 Command 6 n 2...

Page 331: ...ote control cancel 1 8 PLC1 8 n Station number 2 n 1 Command 18 Remote control response 1 8 PLC1 8 n Station number 2 n 1 Command 19 n 2 Remote control status Maximum minimum maximum minimum response...

Page 332: ...1 Command 27 n 2 Average number of movement times 0 OFF 2 4 8 16 32 times Step wide response 1 8 PLC1 8 n Station number 2 n 1 Command 28 n 2 Step wide 1 1 2 2 5 5 0 10 digit Step wide setting 1 8 PL...

Page 333: ...2 n 1 Command 39 n 2 Input change 0 Not provided 1 Open collector 2 Logic 3 Magnetic Input change setting 1 8 PLC1 8 n Station number 3 n 1 Command 40 n 2 Input change 1 Open collector 2 Logic 3 Magn...

Page 334: ...Command 51 n 2 Prohibition of key operations 0 OFF 1 ON Prohibition of key operations setting 1 8 PLC1 8 n Station number 3 n 1 Command 52 n 2 Prohibition of key operations 0 OFF 1 ON Response to line...

Page 335: ...mber 6 n 17 Linearization data output value start number 6 n 18 Linearization data input value start number 7 n 19 Linearization data output value start number 7 n 20 Linearization data input value st...

Page 336: ...5 n 16 Linearization data input value start number 6 n 17 Linearization data output value start number 6 n 18 Linearization data input value start number 7 n 19 Linearization data output value start n...

Page 337: ...No address For bit designation it is possible to specify the device memory No address in both even and odd address Specify 00H for the extensional code because the setting range for the bit address is...

Page 338: ...tting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 422 485 Baud Rate 9600 19200 38400 bps Data Length 8 bits Stop Bit 1 2 bits Parity None...

Page 339: ...13 Deceleration time n 14 to n 3 10m Positioning data m 2 Positioning data writing 1 8 PLC1 8 n Station number 1 4 10m n 1 Command 10 HEX n 2 Writing device memory address n 3 Writing positioning data...

Page 340: ...Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethernet Signal Level RS 422 485 Baud Rate 9600 19200 38400 115K bps Data Length 8 bits Stop Bit 1 2 bits Parity None E...

Page 341: ...13 Deceleration time n 14 to n 3 10m Positioning data m 2 Writing of positioning data 1 8 PLC1 8 n Station number 1 4 10m n 1 Command 10 HEX n 2 Writing address n 3 Number of positioning data to write...

Page 342: ...he model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2 M...

Page 343: ...the model Be sure to set within the range available for the model to be used Use TYPE when assigning indirect device memory for macro programs Item Setting Remarks Connection Mode 1 1 1 n Multi link2...

Page 344: ...C RS 422 485 Baud Rate 4800 9600 19200 38400 57600 76800 115k bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Even Odd Target Port No 1 to 254 Setting Items Setting Remarks Station Number 1 to...

Page 345: ...nation In the expansion code set which word higher or lower is to be read when a double word address is specified Device Memory TYPE Remarks R data register 00H D data register 01H X input relay 02H W...

Page 346: ...se shielded twist pair cables No Dsub 9 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 Name PLC TXD SG RXD 20 No Name 21 22 23 RJ 10 5 9 1 6 20 21 22 23 Use shielded twist pair cables No Dsub 9 Male 2 3 5 7 8 R...

Page 347: ...9 1 6 Use shielded twist pair cables Name Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 SG 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC DXB SG D...

Page 348: ...b 9 Male CN1 SG 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC DX DX 3 No Name 4 RJ45 12345678 5 9 1 6 Use shielded twist pair cables Name Name 1 No 2 3...

Page 349: ...st pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC DX DX 4 No Name 5 RJ45 12345678 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC TX...

Page 350: ...L FG T2 T1 Dsub 9 Male CN1 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC TXD TXD RXD RXD M5 0V 2 No Name 3 4 5 6 RJ45 5 9 1 6 12345678 Use shielded twi...

Page 351: ...SG RD FG TRX2 TRX1 Dsub 9 Male CN1 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 PLC RXD TXD RXD TXD 3 No Name 4 5 6 RJ45 5 9 1 6 12345678 Use shielded twi...

Page 352: ...M Use shielded twist pair cables PLC TXD SG RXD 20 No Name 21 22 23 RJ 10 20 21 22 23 Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables Name No RJ 45 7 8 5 RD SD SG FG MJ1...

Page 353: ...ables RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG Name SG 12345678 Use shielded twist pair cables PLC DXB SG DXA 8 No Name 7 6 RJ45 12345678 RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Use sh...

Page 354: ...ist pair cables RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG Name DXB DXA 12345678 Use shielded twist pair cables RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG Name DX DX 12345678 Use shielded twist pair...

Page 355: ...SG SG RXD RXD TXD 1 No Name 2 3 6 7 8 RJ45 Name No 1 2 5 RD SD RD SD SG FG 12345678 RJ45 MJ1 2 12345678 Use shielded twist pair cables RJ 45 MJ1 2 Name SHELL No 1 2 5 RD SD RD SD SG FG Name T2 T1 1234...

Page 356: ...5 RD SD RD SD SG FG Name SG Ter 12345678 Use shielded twist pair cables RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG Name TRX2 TRX1 12345678 Use shielded twist pair cables PLC RXD TXD RXD TXD 3 No Name...

Page 357: ...16 104 16 Fuji Electric Please use this page freely...

Page 358: ...17 1 Temperature Controller Servo Inverter 17 Gammaflux...

Page 359: ...7 1 Temperature Controller Servo Inverter Serial Connection PLC Selection on the Editor Model Port Signal Level Wiring Diagrams Lst File CN1 MJ1 MJ2 TTC2100 TTC2100 1 TTC2100 2 TTC2200 1 COM2 RS 485 W...

Page 360: ...ory Address denotations are as follows For the TD Example 0 0 TD0000A For ZC ZD Example 0 1 ZC000A0 Item Setting Remarks Connection Mode 1 1 1 n Multi link2 Multi link2 Ethernet 1 n Multi link2 Ethern...

Page 361: ...ddress No n 2 Higher address No n 3 Expansion code Bit designation n 4 00 Station number Contents F0 F1 u n F2 External Standby Group 1 8 PLC1 8 n Station number 7 n 1 ZONE No Fixed to 0 n 2 ZONE COMM...

Page 362: ...oup 1 8 PLC1 8 n Station number 7 n 1 ZONE No Fixed to 0 n 2 ZONE COMMAND 009AH Storage device memory Volatile 809AH Storage device memory Nonvolatile n 3 n 4 n 5 n 6 Contents F0 F1 u n F2 Bit 15 14 2...

Page 363: ...ected at MJ1 MJ2 RS 422 RS 485 Wiring diagram 1 M4 No Name Dsub 9 Male 2 3 5 7 8 RD RD SD SD SG FG CN1 PLC 2 No 3 4 5 Name Dsub 9 Male 5 9 1 6 5 9 1 6 RD SD RD SD SG Use shielded twist pair cables No...

Page 364: ...17 6 17 Gammaflux Please use this page freely...

Page 365: ...18 GE Fanuc 18 1 PLC Connection...

Page 366: ...0 IC693CPU360 IC693CPU363 IC693CPU364 IC693CPU366 IC693CPU367 IC693CPU374 COM port of the CPU RS 422 Wiring diagram 1 C4 90 series SNP 90 30 series IC693CPU311 IC693CPU313 IC693CPU323 IC693CPU331 IC69...

Page 367: ...RX7i IC698CPE010 IC698CPE020 IC698CPE030 IC698CPE040 IC698CRE020 IC698CRE030 IC698CRE040 COM1 RS 232C Wiring diagram 4 C2 Wiring diagram 4 M2 COM2 RS 422 Wiring diagram 1 C4 Wiring diagram 2 M4 IC697C...

Page 368: ...Rate 4800 9600 19200 bps Data Length 8 bits Stop Bit 1 bit Parity None Odd Target Port No 1 to 31 Item Setting Remarks Configuration Mode CCM ONLY BAS CCM PROG CCM CCM PROG Port 1 CCM Enable YES CCM M...

Page 369: ...lue obtained by subtracting 1 from the actual address Item Setting Remarks Configuration Mode CCM ONLY CCM RTU RTU CCM SNP CCM CCM SNP Port 1 CCM Enable YES CCM Mode SLAVE Interface RS 232 Date Rate 4...

Page 370: ...ory for macro programs Indirect Device Memory Designation For the device memory address number specify the value obtained by subtracting 1 from the actual address Item Setting Remarks Connection Mode...

Page 371: ...em Setting Remarks Configuration Mode SNP ONLY SNP CCM CCM SNP SNP RTU RTU SNP Port 1 SNP Enable YES SNP Mode SLAVE Interface RS485 RS232 Only RS232C supported by IC693CMM311 Date Rate 4800 9600 19200...

Page 372: ...obtained by subtracting 1 from the actual address Parameter Setting Remarks Port Mode SNP Slave Data Rate 4800 9600 19200 38400 57600 115200 bps Parity ODD EVEN NONE Stop Bits 1 Physical Interface 2 w...

Page 373: ...ar function Use the built in clock of the V series Available Device Memory The available setting range of device memory varies depending on the PLC model Be sure to set within the range available for...

Page 374: ...the calendar function Use the built in clock of the V series Available Device Memory The available setting range of device memory varies depending on the PLC model Be sure to set within the range ava...

Page 375: ...hielded twist pair cables PLC RD SG SD 14 No 16 7 No Dsub 9 Male Dsub 25 Male 2 3 5 7 8 RD SD SG RS CS FG CN1 Name Name 5 9 1 6 1 14 13 25 Use shielded twist pair cables PLC TXD SG CTS 1 No 2 3 No Dsu...

Page 376: ...les 1 No Dsub 9 Male 2 3 4 6 7 RD SD SD RS 5 SG RS RD FG CN1 PLC 0V CTS B RD B SD A RD A RT RTS A 6 No 7 8 9 10 11 12 RTS B SD B 13 14 Dsub 15 Male Name Name CTS A 15 5 9 1 6 8 15 1 9 Use shielded twi...

Page 377: ...me 5 9 1 6 Use shielded twist pair cables PLC RD SG SD 2 No 3 7 Dsub 25 Male Name Name RD SD SG FG No RJ 45 7 8 5 MJ1 2 12345678 1 14 13 25 Use shielded twist pair cables PLC RD SG SD 14 No 16 7 Dsub...

Page 378: ...M2 PLC RXD SG TXD 2 No 3 5 No RJ 45 Dsub 9 Male 7 8 5 RD SD SG FG MJ1 2 Name Name 7 8 RTS CTS 5 9 1 6 12345678 Use shielded twist pair cables PLC SD SG RD 3 No 4 8 RJ 45 Name 87654321 Name RD SD SG F...

Page 379: ...b 25 Male Name Name RD B 25 12345678 RJ 45 MJ1 2 Use shielded twist pair cables PLC 0V CTS B RD B SD A RD A RT RTS A 6 No 7 8 9 10 11 12 RTS B SD B 13 14 Dsub 15 Male Name CTS A 15 8 15 1 9 1 No 2 5 S...

Page 380: ...19 1 PLC Connection 19 Hitachi...

Page 381: ...120 RS 232C connector on the CPU unit RS 232C Wiring diagram 1 C2 Wiring diagram 1 M2 LQE060 CN1 CN2 RS 232C Wiring diagram 2 C2 Wiring diagram 2 M2 LQE160 CN1 CN2 LQE560 CN1 CN2 LQE165 CN1 CN2 RS 422...

Page 382: ...l setting switch Channel No Protocol Setting Switch A maximum of two RS 232C RS 422 modules four channels can be attached to one CPU When using multiple channels set a unique channel number 1 to 4 for...

Page 383: ...rd device K keep relay 05H KW as word device T on delay timer contact 06H TW as word device U one shot timer contact 07H UW as word device C up down counter contact 08H CW as word device TS on delay t...

Page 384: ...9 unit for communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number of the PLC Register on the PLC Table in System Setting Hardware Settin...

Page 385: ...rd device K keep relay 05H KW as word device T on delay timer contact 06H TW as word device U one shot timer contact 07H UW as word device C up down counter contact 08H CW as word device TS on delay t...

Page 386: ...RS 422 485 Baud Rate 19200 bps Data Length 8 bits Stop Bit 1 bit Parity Odd Device Memory TYPE Remarks FW work register 00H X input 01H XW as word device Y output 02H YW as word device R internal rel...

Page 387: ...must be set using the channel No protocol setting switch Channel No Protocol Setting Switch A maximum of two RS 232C RS 422 modules four channels can be attached to one CPU When using multiple channe...

Page 388: ...e 09H TC on delay timer enumerated value 0AH US one shot timer set value 0BH UC one shot timer enumerated value 0CH CS up down counter set value 0DH CC up down counter enumerated value 0EH DW data reg...

Page 389: ...r communication with PLC System Setting Hardware Setting PLC Properties Communication Setting IP address and port number of the PLC Register on the PLC Table in System Setting Hardware Setting PLC Pro...

Page 390: ...ue 0DH CC up down counter enumerated value 0EH DW data register 0FH E event register 10H EW as word device S system register 11H SW as word device J transfer register 12H JW as word device Q receive r...

Page 391: ...m 2 C2 PLC SD SG RD 2 No 3 5 No Name Name Dsub 9 Male Dsub 9 Female 2 3 5 7 8 RD SD SG RS CS FG CN1 5 9 1 6 1 6 5 9 Use shielded twist pair cables PLC RD SD CD 1 No 2 3 SG DR ER 4 5 6 RS CS 7 8 No Nam...

Page 392: ...2 W as shown below Wiring diagram 2 C4 Name Name 1 No 2 3 4 RD SD SD 5 SG RD FG UTX L URX H URX L UTX H Dsub 9 Male CN1 50 50 5 9 1 6 Use shielded twist pair cables Name 1 No 2 3 4 RD SD SD 5 SG RD F...

Page 393: ...agram 2 M2 PLC SD SG RD 2 No 3 5 Name Dsub 9 Female Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 1 6 5 9 Use shielded twist pair cables PLC RD SD CD 1 No 2 3 SG DR ER 4 5 6 RS CS 7 8 Name Dsub 9 Fem...

Page 394: ...19 14 19 Hitachi Please use this page freely...

Page 395: ...20 1 PLC Connection 20 2 Temperature Controller Servo Inverter Connection 20 Hitachi Industrial Equipment Systems...

Page 396: ...2 H 5M or Wiring diagram 1 C2 PERIPHERAL2 RS 232C Hakko Electronics cable D9 HI2 H 5M Hitachi s CNCOM 05 or Wiring diagram 1 C2 Hitachi s CNCOM 05 EH 150 On CPU PORT1 RS 232C Wiring diagram 2 C2 2 Wir...

Page 397: ...31 Transmission Mode Protocol 2 with port Protocol 1 without port Protocol 2 without port Protocol 1 with port Protocol 2 achieves higher communication speed compared to protocol 1 ST No Setting Remar...

Page 398: ...e set for WRF037 Mode setting switch Item Setting Remarks Signal Level RS 232C Baud Rate 19200 bps Data Length 7 bits ASCII Stop Bit 1 bit Parity Even Transmission Mode Protocol 1 without port Sum Che...

Page 399: ...ce status display to be set by system e f Interface 0 0 RS 232C 0 1 RS 422 1 0 RS 485 1 1 Built in terminating resistance 0 None 1 Provided Station number 0 Without station number 1 With station numbe...

Page 400: ...Version 2 1 and later RS 422 Transmission control protocol 1 Version 2 0 and later Transmission control protocol 2 Version 2 1 and later Transmission control protocol 1 with port Version 2 0 and later...

Page 401: ...3D has been changed to the one shown in the System Setting column 4 Set the bit R7F6 setting write request to save the setting in the flash memory It is not necessary to make the setting again upon ne...

Page 402: ...YPE when assigning indirect device memory for macro programs PLC Port Signal Level Communication Protocol EH WD10DR SERIAL RS 232C Transmission control protocol 1 Transmission control protocol 2 EH WA...

Page 403: ...chi Industrial Equipment Systems website Connect the computer PC to the RS 232C port of PORT1 and specify the IP address and the task port For more information refer to the PLC manual issued by the ma...

Page 404: ...d Use TYPE when assigning indirect device memory for macro programs Device Memory TYPE Remarks WR internal output word 00H X external input 01H WX as word device Y external output 02H WY as word devic...

Page 405: ...s higher communication speed compared to protocol 1 Item Setting Serial communication setting Dedicated Port type RS 232C RS 422 RS 485 The following table shows the combination of port type and commu...

Page 406: ...later Transmission control protocol 2 Version 2 1 and later PORT2 RS 232C Transmission control protocol 1 Version 2 0 and later Transmission control protocol 2 Version 2 1 and later RS 422 Transmissi...

Page 407: ...ange of device memory varies depending on the PLC model Be sure to set within the range available for the PLC to be used Use TYPE when assigning indirect device memory for macro programs Item Contents...

Page 408: ...ame Dsub 9 Male Dsub 15 Male 2 3 5 8 RD SD SG CS FG CN1 5 9 1 6 8 15 1 9 Use shielded twist pair cables PLC ER PHL SD SG 1 No 4 5 DR RS RD 6 7 8 No Name Name Dsub 9 Male RJ 45 2 3 5 8 RD SD SG CS FG C...

Page 409: ...t pair cables PLC TXN RXN TX 4 No 5 6 RX 7 Name RJ 45 12345678 Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 5 9 1 6 Use shielded twist pair cables SD RD SD 1 No 2 3 RD 4 TERM 5 SG 6 Name Name 1...

Page 410: ...1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 5 9 1 6 Use shielded twist pair cables PLC TX TXN SG 1 No 3 5 RXN 6 RX 7 Name RJ 45 12345678 Name 1 No 2 3 4 RD SD SD 5 SG RD FG Dsub 9 Male CN1 5 9 1 6...

Page 411: ...2 12345678 Use shielded twist pair cables PLC DTR TXD SG 1 No 3 5 DSR RXD 6 7 Name RJ 45 12345678 Name No RJ 45 7 8 5 RD SD SG FG MJ1 2 12345678 Use shielded twist pair cables PLC TXN RXN TX 4 No 5 6...

Page 412: ...MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Use shielded twist pair cables PLC SDP SDN SG 1 No 4 5 RDN 6 RDP 7 Name RJ 45 12345678 RJ 45 MJ1 2 Name No 1 2 5 RD SD RD SD SG FG 12345678 Use shielded...

Page 413: ...er Connection Inverter PLC Selection on the Editor Model Port Signal Level Connection Lst File CN1 MJ1 MJ2 SJ300 series SJ300 SJH300 TM2 RS 485 Wiring diagram 1 C4 Wiring diagram 1 M4 H_SJ300 Lst SJ70...

Page 414: ...485 Baud Rate 4800 9600 19200 bps Data Length 7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 32 Function Code Function Name Setting Remarks Basic setting A001 Frequency command se...

Page 415: ...F1 F2 Device Memory TYPE Remarks d 00H Double word read only F 01H Double word A 02H Double word b 03H Double word C 04H Double word H 05H Double word P 06H Double word T trip history 07H Double word...

Page 416: ...1 10 9 8 7 6 5 4 3 2 1 0 Bit 0 AT Analog input selection Bit 1 SET3 3rd control Bit 2 RS Reset Bit 3 Bit 4 STA 3 wire start Bit 5 STP 3 wire retain Bit 6 F R 3 wire normal reverse turn Bit 7 PID PID s...

Page 417: ...ogress 10 Tripping 11 Waiting for reset n 3 Status B BCD 00 Stopping 01 Running 02 Tripping n 4 Status C BCD 00 01 Stop 02 Deceleration 03 Constant speed 04 Acceleration 05 Normal turn 06 Reverse turn...

Page 418: ...7 8 bits Stop Bit 1 2 bits Parity None Odd Even Target Port No 1 to 32 Function Code Function Name Setting Remarks Basic setting A001 Frequency command selection 03 RS 485 To give the frequency comma...

Page 419: ...F1 F2 Device Memory TYPE Remarks d 00H Double word read only F 01H Double word A 02H Double word b 03H Double word C 04H Double word H 05H Double word P 06H Double word T trip history 07H Double word...

Page 420: ...8 TL Torque limitation valid invalid Bit 9 TRQ1 Torque limit selection 1 Bit 10 TRQ2 Torque limit selection 2 Bit 11 PPI P PI selection Bit 12 BOK Brake check Bit 13 ORT Orientation Bit 14 LAC LAD can...

Page 421: ...ogress 10 Tripping 11 Waiting for reset n 3 Status B BCD 00 Stopping 01 Running 02 Tripping n 4 Status C BCD 00 01 Stop 02 Deceleration 03 Constant speed 04 Acceleration 05 Normal turn 06 Reverse turn...

Page 422: ...MJ2 RS 485 Wiring diagram 1 M4 Use shielded twist pair cables RP Name SN SP 1 No Dsub 9 Male 2 3 4 RD SD SD 5 SG RD FG CN1 Name SN 5 9 1 6 Use shielded twist pair cables RP SN short circuited at the...

Page 423: ...20 28 20 Hitachi Industrial Equipment Systems Please use this page freely...

Page 424: ...AHC2001 AHC2001 DCP31 32 DCP31 32 NX CPL NX MODBUS RTU NX MODBUS TCP IP Baumuller BMx x PLC BECKHOFF ADS protocol Ethernet CHINO LT400 Series MODBUS RTU DP1000 DB100B MODBUS RTU KR2000 MODBUS RTU LT23...

Page 425: ...TCP IP RX3i Ethernet TCP IP Hitachi HIDIC S10 2 S10mini HIDIC S10 2 S10mini Ethernet HIDIC S10 4 HIDIC S10V HIDIC S10V Ethernet Hitachi Industrial Equipment Systems HIDIC H HIDIC H Ethernet HIDIC EHV...

Page 426: ...ries multi CPU Ethernet QnH Q series CPU multi CPU QnH Q series Ethernet ASCII QnH Q series multi CPU Ethernet ASCII QnU series built in Ethernet L series link L series built in Ethernet FX series CPU...

Page 427: ...0 CB400 CB500 CB700 CB900 MODBUS RTU SR Mini Standard Protocol REX F400 F700 F900 Standard Protocol SRV MODBUS RTU MA900 MA901 MODBUS RTU SRZ MODBUS RTU FB100 FB400 FB900 MODBUS RTU RS Automation NX7...

Page 428: ...patible EX series VF S7 VF S9 VF S11 VF A7 VF AS1 VF P7 VF PS1 VF FS1 VF nC1 TOSHIBA MACHINE TC200 VELCONIC series TURCK BL Series Distributed I O MODBUS TCP IP UNIPULSE F340A F371 F800 F805A F720A UN...

Page 429: ...UT100 UT750 UT550 UT520 UT350 UT320 UT2400 2800 UT450 None Universal Serial MODBUS RTU MODBUS RTU EXT Format MODBUS TCP IP Ethernet MODBUS TCP IP Ethernet Sub Station MODBUS TCP IP Ethernet EXT Format...

Page 430: ...890 1 Kamikashiwano machi Hakusan shi Ishikawa 924 0035 Japan TEL 81 76 274 2144 FAX 81 76 274 5136 Sales www monitouch com 1...

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