Download Print this page

Fuji Electric Monitouch S8 series Connection Manual

page of 406

/ 406
Contents
Table of Contents
Bookmarks

Table of Contents

Advertisement

Quick Links

Connection Manual

Table of Contents

Advertisement

Chapters

Table of Contents

Need help?

Need help?

Do you have a question about the Monitouch S8 series and is the answer not in the manual?

Questions and answers

Summary of Contents for Fuji Electric Monitouch S8 series

Page 1 Connection Manual...
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 July, 2009 2202NE0 First edition December. 2009 2202NE1 Second edition April. 2013 2202NE2 Third edition •...
Page 4 Preface Thank you for selecting the MONITOUCH S8 series. For correct set-up of the S8 series, you are requested to read through this manual to understand more about the product. For more information about the S8 series, refer to the following related manuals.
Page 6 Notes on Safe Usage of MONITOUCH In this manual, you will find various notes categorized under the following two levels with the signal words “Danger” and “Caution”. Indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury. DANGER Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury and CAUTION...
Page 7 CAUTION • Take safety precautions during such operations as setting change during running, forced output, start, and stop. Any misoperation may cause unexpected machine motions, resulting in machine accident or damage. • In facilities where a failure of MONITOUCH could lead to accident threatening human life or other serious damage, be sure that the facilities are equipped with adequate safeguards.
Page 8: Table Of Contents
Contents Overview 2-way Communication ............1-1 1.1.1 Overview.
Page 9 When Connected at COM2 (RS-232C):........... . 6-4 Fuji Electric PLC Connection .
Page 10 Servo Amplifier ..............7-16 Recorder .
Page 11 PLC_CTL ................7-57 7.2.22 APR-N (MODBUS RTU) .
Page 12 MITSUBISHI ELECTRIC 11.1 PLC Connection ............11-1 Serial Connection .
Page 13 12.2.3 Wiring Diagrams ..............12-18 When Connected at COM1 (RS-422 / RS-485): .
Page 14 17.1.1 SDC35/36 ................17-2 Communication Setting.
Page 15 Slave Communication Function 22.1 V-Link ..............22-1 22.1.1 Overview .
Page 16 Appendix Appendix 1 Device Memory Map Device Memory Map Editing............App1-3 Periodical Reading .
Page 18 1. Overview 2-way Communication Connection Modes Physical Port Wiring Settings for the Connected Device...
Page 20: Way Communication
1.1 2-way Communication 2-way Communication 1.1.1 Overview The S8 series is equipped with two serial ports for RS-232C and RS-422/485 communication. You can connect two different models of devices and allow the S8 series to communicate with them at the same time. This is called the 2-way communication.
Page 21: Connection Modes
1. Overview Connection Modes 1.2.1 PLC Connection There are four connection modes below to establish serial communication. 1 : 1 Connection Overview • One set of the S8 is connected to one PLC (1 : 1 connection). • You can make settings for 1 : 1 communication in the [Communication Setting] tab window for the logical ports PLC1 and PLC2.
Page 22: N Connection (Multi-Drop)
1.2 Connection Modes 1 : n Connection (Multi-drop) Overview • Multi-drop connection connects one S8 unit to multiple PLCs of the same model as 1 : n connection. (Maximum connectable PLCs: 31) • You can make settings for 1 : n communication in the [Communication Setting] tab window for the logical ports PLC1 and PLC2.
Page 23: N : 1 Connection (Multi-Link2)
1. Overview n : 1 Connection (Multi-link2) Overview • One PLC is connected to a maximum of four S8/V8 units. The S8 series cannot be connected with the V7 and V6 series as multi-link2. * The terminating resistance of COM1 on S806M10D is always set to ON. If you use S806M10D in multi-link2 connection, S806M10D is available only in the termination of multi-link2 (master and slave).
Page 24: N : 1 Connection (Multi-Link)
1.2 Connection Modes n : 1 Connection (Multi-link) Overview • One PLC is connected to a maximum of 31 S8 units. The S8, V8, V7, and V6 series can be used together. * The terminating resistance of COM1 on S806M10D is always set to ON. So, S806M10D is available only in the termination of multi-link.
Page 25: Temperature Controller/Servo/Inverter Connection
1. Overview 1.2.2 Temperature Controller/Servo/Inverter Connection Overview • The S8 series is connected to temperature controllers, servos, or inverters via serial communication. • You can make settings for temperature controller/servo/inverter communication in the [Communication Setting] tab window for the logical ports PLC1 - PLC2. •...
Page 26: Slave Communication
1.2 Connection Modes 1.2.4 Slave Communication Connecting via V-Link, or Modbus RTU is applicable to slave communication using the S8. V-Link • “V-Link” is the network where the computer reads from and writes to the internal memory of the S8 series, or PLC1 memory using a dedicated protocol.
Page 27: Physical Port
1. Overview Physical Port 1.3.1 COM1 The COM1 port supports communication via RS-422 (4-wire system), and RS-485 (2-wire system). Pin Arrangement RS-422/RS-485 COM1 D-sub 9-pin, Female Signal Contents Receive data (+) −RD Receive data (−) −SD Send data (−) Send data (+) Signal ground Not used +5 V / +3.3 V...
Page 28: Com2
1.3 Physical Port 1.3.2 COM2 The COM2 port supports communication via RS-232C. Pin Arrangement RS-232C COM2 D-sub 9-pin, Male Signal Contents Not used Receive data Send data Not used Signal ground Not used RS request to send CS clear to send Not used Recommended Connector for Communication Cable Recommended Connector...
Page 29: Wiring
1-10 1. Overview Wiring This section provides notes on configuring cables. For device wiring diagrams, refer to the chapters on individual manufacturers. DANGER Be sure to turn off the power before connecting cables. Otherwise, electrical shock or damage may occur. 1.4.1 COM1 (RS-422/485) Connection •...
Page 30 1.4 Wiring 1-11 • If noise disturbs communications, connect a shielded cable to both the S8 series and the connected device. - RS-422 (4-wire system) RS-422 port of the COM1 connected device Name Dsub 9 (Male) Shield Send data (+) Send data (−) Receive data (−) Receive data (+)
Page 31: Com2 (Rs-232C) Connection
1-12 1. Overview 1.4.2 COM2 (RS-232C) Connection • Prepare a communication cable on your side. Twisted pairs of 0.3 mm sq. or above are recommended. • Connect a shielded cable to either the S8 series or the connected device. The connection diagram shows the case where the shielded cable is connected on the S8 series side.
Page 32: Settings For The Connected Device
1.5 Settings for the Connected Device 1-13 Settings for the Connected Device 1.5.1 PLC1 to PLC2 To enable communication with a PLC, a temperature controller, an inverter, etc., the following settings are required to be set on the editor. You can see the contents of these settings on the S8 Main Menu screen. For the Main Menu screen, refer to the separate S8 Series Hardware Specifications manual.
Page 33 1-14 1. Overview Select a baud rate. Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 76800 / 115K BPS Select a data length. Data Length 7-Bit / 8-Bit Select a stop bit. Stop Bit 1-Bit / 2-Bit Select an option for parity bit.
Page 34 1.5 Settings for the Connected Device 1-15 Detail [1] (higher priority) - [2] (lower priority) Priority Specify a priority taken during 2-way communication. If interrupts from two devices occur at the same time, communication with these devices will take place in order of priority. This box is checked if the V7-series screen data has been converted to the data for the S8 series.
Page 35: Read/Write Area
1-16 1. Overview 1.5.2 Read/Write Area Read/Write Area Specify a memory address used to give commands for display or operation from the PLC to MONITOUCH. Read Area Three words (at the minimum) of consecutive memory addresses are secured. For more information, see “Read area” (page 1-16). This is the area, to which the screen numbers or overlaps displayed on MONITOUCH or a buzzer state will Write area be written.
Page 36 1.5 Settings for the Connected Device 1-17 Read area “n” (sub command/data) (1) Free (2) BZ0 [0 → 1] (leading edge) (3) BZ1 [0 → 1] (leading edge) (4) BZ2 [1] (level) (5) Calendar setting ([0 → 1] (leading edge) (6) System reserved When data is saved in this area, the same data is written to [Write Area] “n”...
Page 37 1-18 1. Overview Read area “n + 1” (screen status command) (1) Overlap 0 (2) Overlap 1 (3) Overlap 2 (4) System reserved (5) Global macro execution [0 → 1] (leading edge) (6) Data sheet output [0 → 1] (leading edge) (7) Screen hard copy [0 →...
Page 38 1.5 Settings for the Connected Device 1-19 Usage Example Step a: Screen change according to read area “n + 2” Step b: Screen change with an internal switch Step c: Screen change to the same screen number as step 1 according to read area “n + 2” In this case, however, the same value is stored in read area “n + 2”...
Page 39 1-20 1. Overview Write area This is the area where data is written from [Read Area], such as the displayed screen number, overlap display status, buzzer sounding status, etc. Three words of consecutive memory addresses are secured. MONITOUCH writes information to these three words during communications with the PLC. When the S8 series has completed a display operation, sub command/data in [Read Area] “n”...
Page 40 1.5 Settings for the Connected Device 1-21 Write area “n + 1” (screen status) 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 (1) Overlap 0 (2) Overlap 1 (3) Overlap 2 (4) System reserved (5) Global macro execution (6) Printer busy (7) Print data transferring...
Page 41 1-22 1. Overview *1 Example: a. Display overlap No. 0 from read area (n + 1) using an external command. b. Display overlap No. 0 internally using the [Function: Overlap = ON] switch. In either case (a or b), bit 0 of write area “n + 1” is set (ON). In the case of b, the bit in read area “n + 1”...
Page 42: Others
1.5 Settings for the Connected Device 1-23 GD-80 Compatible When converting screen data files created on the MONITOUCH GD-80/81S series into those of the S8 series, this option is automatically checked. • Unchecked: The memory addresses allocated to the S8 series are applied to the read and write areas. (See page GD-80 Compatible 1-16.) Read/Write Area...
Page 43 1-24 1. Overview...
Page 44: Allen Bradley 2.1 Plc Connection
2. ALLEN BRADLEY PLC Connection...
Page 46: Serial Connection
2.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 1756 Control Logix Logix 5550 Control Logix / RS-232C Compact Logix 1769 Compact Logix Channel 0 Wiring diagram 1 - COM2 Channel 0 RS-232C SLC500...
Page 47: Control Logix / Compact Logix
2. ALLEN BRADLEY 2.1.1 Control Logix / Compact Logix The logical port PLC1 can only be selected because the tag table is used. Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks For multi-link2, be sure to use the same tag Connection Mode 1 : 1 / Multi-link2 table.
Page 48 2.1 PLC Connection System protocol Item Setting Remarks Protocol DF1 Point to Point Station Address NAK Receive Limit ENQ Transmit Limit ACK Timeout Embedded Responses Autodetect Error Detection Enable Duplicate Detection Checked Compact Logix CH0 - serial port Item Setting Remarks MODE System...
Page 49: Available Memory
2. ALLEN BRADLEY CH0 - system protocol Item Setting Remarks Protocol DF1 Point to Point Station Address NAK Receive Limit ENQ Transmit Limit ACK Timeout Embedded Responses Autodetect Error Detection Enable Duplicate Detection Checked Available 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 to set the PLC memory.
Page 50: Slc500
2.1 PLC Connection 2.1.2 SLC500 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 51 2. ALLEN BRADLEY 1747-KE Jumper JW2 Item Setting Remarks RS-232 RS-422 DF1 port setup menu Item Setting Remarks Baudrate 19200 Bits Per Character Parity Even Stop Bits DF1 full-duplex setup menu Item Setting Remarks Duplicate Packet Detection Enabled Checksum Constant Carrier Detect Disabled Message Timeout Hardware Handshaking...
Page 52: Available Memory
2.1 PLC Connection Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (integer) (bit) T.
Page 53: Micro Logix
2. ALLEN BRADLEY 2.1.3 Micro Logix Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 54: Available Memory
2.1 PLC Connection Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (integer) (bit) T.
Page 55: Wiring Diagrams
2-10 2. ALLEN BRADLEY 2.1.4 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Female) Dsub 9 (Male) TXD- RXD- RXD+ TXD+ * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name...
Page 56: Automation Direct 3.1 Plc Connection
3. Automation Direct PLC Connection...
Page 58: Serial Connection
3.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on Signal Port the Editor Level Transfer COM1 COM2 Port 0 RS-232C Wiring diagram 4 - COM2 D4-430 RS-232C Wiring diagram 1 - COM2 D4-440 Port 1 RS-422 Wiring diagram 1 - COM1 Port 0 RS-232C Wiring diagram 4 - COM2...
Page 59: Direct Logic (K-Sequence)
3. Automation Direct 3.1.1 Direct LOGIC (K-Sequence) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 60 3.1 PLC Connection Register Setting Setting Example Station number 01 to 1F (HEX) Baud rate 4: 4800 bps 8701H 5: 9600 bps 6: 19200 bps 38400 bps R773 7: 38400 bps Odd parity Stop bit 1 Station number 01 Parity stop bit 0: Without parity, stop bit 1 2: Without parity, stop bit 2 8: Odd parity, stop bit 1...
Page 61: Available Memory
3. Automation Direct D2-240/D2-250-1 PORT1 / PORT2 No particular setting is necessary on the PLC. The PLC performs communication functions using the following parameters. Set the following parameters on the [Communication Setting] tab window of S8. Item Setting Remarks For PORT2: Baud Rate 9600 bps 19200 bps can be set in the special register.
Page 62: Direct Logic (Modbus Rtu)
3.1 PLC Connection 3.1.2 Direct LOGIC (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 63: Available Memory
3. Automation Direct PORT3 Set parameters into the special register “R776, 777”, then set “5AAA” (HEX) into the setting complete register “R767”. When the set value at R767 is changed to “AAAA” (HEX), it is regarded as normal; if it is changed to “EAAA” (HEX), it is regarded as erroneous.
Page 64: Wiring Diagrams
3.1 PLC Connection 3.1.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 25 (Male) Dsub 9 (Male) +RXD -RXD +CTS +TXD -TXD -RTS +RTS * Use shielded twist-pair cables. -CTS Wiring diagram 2 - COM1 COM1 Name...
Page 65: When Connected At Com2 (Rs-232C):
3. Automation Direct When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 25 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name High density Dsub 9 (Female) Dsub 15 (Male) * Use shielded twist-pair cables.
Page 66 4. EATON Cutler-Hammer PLC Connection...
Page 68 4.1 PLC Connection PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 Programming port on the CPU ELC-PA10 RS-232C Wiring diagram 1 - COM2 unit (COM1) ELC-PC12 ELC-PH12...
Page 69 4. EATON Cutler-Hammer 4.1.1 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115200 bps Data Length 7 / 8 bits Stop Bit...
Page 70 4.1 PLC Connection 4.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Mini Din (Male)
Page 71 4. EATON Cutler-Hammer Please use this page freely.
Page 72 5.FANUC PLC Connection...
Page 74 5.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 Power Mate Wiring diagram 1 - JD14 RS-422 Model H/D COM1 Wiring diagram 2 - JD40 RS-422 COM1 Power Mate i Model H/D Wiring diagram 1 - JD42...
Page 75: Power Mate
5. FANUC 5.1.1 Power Mate Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1:1 / Multi-link2 Signal Level RS-232C / RS-422/RS-485 Baud Rate 19200 bps (fixed) Data Length 8 bits (fixed) Stop Bit 1 bits (fixed) Parity Even (fixed) Available Memory...
Page 76 5.1 PLC Connection 5.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 JD14 Half-pitch 20 pin COM1 Name Name Dsub 9 (Male) JD15 Half-pitch 20 pin Name * Use shielded twist-pair cables. R: 120 W 1/2W Wiring diagram 2 - COM1 JD40 Half-pitch 20 pin...
Page 77 5. FANUC When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 JD42 Half-pitch 20 pin COM2 Name Name Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 JD36A / JD36B / JD5B Half-pitch 20 pin COM2 Name Name...
Page 78 6. FATEK AUTOMATION PLC Connection...
Page 80 6.1 PLC Connection PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 RS-232C Wiring diagram 1 - COM2 Programming port on the CPU unit RS-485 Wiring diagram 1 - COM1 Port1...
Page 81: Facon Fb Series
6. FATEK AUTOMATION 6.1.1 FACON FB series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 82 6.1 PLC Connection 6.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 15 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 83 6. FATEK AUTOMATION When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 15 (Male) Dsub 9 (Female) RXD1 TXD1 RTS1 CTS1 * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables.
Page 84 7. Fuji Electric PLC Connection Temperature Controller/Servo/Inverter Connection...
Page 86 7.1 PLC Connection PLC Connection The PLC models shown below can be connected. Serial Connection MICREX-F Series Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 NV1P-x (F55) NV1L-RS2 RS-232C Wiring diagram 1 - COM2 NC1L-RS2 RS-232C Wiring diagram 1 - COM2 NC1P-E (F70) NC1P-S...
Page 87: Micrex-Sx Model Selection
7. Fuji Electric MICREX-SX, SPB (IEC Mode) Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 RS-232C Wiring diagram 4 - COM2 NP1L-RS1 RS-485 Wiring diagram 3 - COM1 NP1L-RS2, NP1Px-xx (SPH) RS-232C Wiring diagram 4 - COM2...
Page 88 7.1 PLC Connection 7.1.1 MICREX-F Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 89 7. Fuji Electric Transmission setting NV1L-RS2, NC1L-RS2, NC1L-RS4, FFU120B Switch Contents E.g.) Editor Default Setting Initializing method Switch Initial file Parity Provided Not provided Parity bit Even Data bit length 7 bits 8 bits Stop bit length 1 bit 2 bits...
Page 90 7.1 PLC Connection Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 91: Spb (N Mode) & Flex-Pc Series
7. Fuji Electric 7.1.2 SPB (N Mode) & FLEX-PC Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 92 7.1 PLC Connection NW0LA-RS2, NW0LA-RS4 (Parameter Setting) On the PLC loader, set parameters for general communications. Be sure to match the settings to those made on the [Communication Setting] tab window of the editor. Item Setting Remarks Mode General (Command asyn) Station No.
Page 93: Spb (N Mode) & Flex-Pc Cpu
7. Fuji Electric 7.1.3 SPB (N Mode) & FLEX-PC CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 When connecting MONITOUCH to the RS-232C port on Signal Level RS-232C / RS-422/485 NJ-CPU-B16, select [RS-232C].
Page 94: Micrex-Sx Sph/Spb Series (Iec Mode)
7.1 PLC Connection 7.1.4 MICREX-SX SPH/SPB Series (IEC Mode) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits For the SPH series:...
Page 95 7-10 7. Fuji Electric NW0LA-RS2, NW0LA-RS4 (Parameter Setting) On the PLC loader, set parameters for general communications. Be sure to match the settings to those made on the [Communication Setting] tab window of the editor. Item Setting Remarks Mode Loader...
Page 96: Micrex-Sx Sph/Spb Series (N Mode / F Mode)
7.1 PLC Connection 7-11 7.1.5 MICREX-SX SPH/SPB Series (N Mode / F Mode) Communication Setting The communication setting is the same as the one described in “7.1.4 MICREX-SX SPH/SPB Series (IEC Mode)”. Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used.
Page 97: Micrex-Sx Sph/Spb Cpu (N Mode / F Mode)
7-12 7. Fuji Electric 7.1.7 MICREX-SX SPH/SPB CPU (N Mode / F Mode) Communication Setting The communication setting is the same as the one described in “7.1.6 MICREX-SX SPH/SPB CPU (IEC Mode)”. Available Memory The available memory is the same as the one described in “7.1.5 MICREX-SX SPH/SPB Series (N Mode / F Mode)”.
Page 98 7.1 PLC Connection 7-13 7.1.8 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 99 7-14 7. Fuji Electric When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 25 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name Dsub 15 (Male) Dsub 9 (Female) * Use shielded twist-pair cables.
Page 100 7.2 Temperature Controller/Servo/Inverter Connection 7-15 Temperature Controller/Servo/Inverter Connection The controllers shown below can be connected. Temperature Controller Connection PLC Selection on the Signal Model Port Lst File Editor Level COM1 COM2 PYX4xx PYX5xx Terminal block RS-485 Wiring diagram 1 - COM1 PYX.Lst (MODBUS RTU) PYX9xx...
Page 101 7-16 7. Fuji Electric Inverter Connection PLC Selection on the Signal Model Port Lst File Editor Level COM1 COM2 FVR-E11S Touch panel FVR-E11S(Mo FVRxxE11S-x RS-485 Wiring diagram 6 - COM1 (MODBUS RTU) connector dbus).Lst FVR-C11S FVR-C11S(Mo FVRxxC11S-x OPC-C11S-RSx RS-485 Wiring diagram 7 - COM1 (MODBUS RTU) dbus).Lst...
Page 102 7.2 Temperature Controller/Servo/Inverter Connection 7-17 Recorder Connection PLC Selection on the Signal Model Port Lst File Editor Level COM1 COM2 PHR (MODBUS RTU) PHRxx Terminal block RS-485 Wiring diagram 2 - COM1 F_PHR.Lst Digital Panel Meter Connection PLC Selection on the Signal Model Port...
Page 103: Pyx (Modbus Rtu)
7-18 7. Fuji Electric 7.2.1 PYX (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings Baud Rate...
Page 104: Pxr (Modbus Rtu)
7.2 Temperature Controller/Servo/Inverter Connection 7-19 7.2.2 PXR (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings Baud Rate 9600 bps because these settings on the...
Page 105: Pxg (Modbus Rtu)
7-20 7. Fuji Electric 7.2.3 PXG (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings of...
Page 106: Pxh (Modbus Rtu)
7.2 Temperature Controller/Servo/Inverter Connection 7-21 7.2.4 PXH (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings of the signal level, data length and stop Baud Rate 9600 / 19200 / 38400 bps...
Page 107: Pum (Modbus Rtu)
7-22 7. Fuji Electric 7.2.5 PUM (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings of...
Page 108 7.2 Temperature Controller/Servo/Inverter Connection 7-23 Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 109: F-Mpc04P (Loader)
7-24 7. Fuji Electric 7.2.6 F-MPC04P (Loader) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 110: Station Number Table
7.2 Temperature Controller/Servo/Inverter Connection 7-25 Station Number Table • A maximum of 31 units can be connected via serial communication. Port numbers from 0 to 31 can be set on the [Memory Setting] dialog of the editor; however, depending on the controller, port numbers exceeding 32 may be available.
Page 111 7-26 7. Fuji Electric Macro To rewrite the station number table on the S8 series screen, use macro commands [FROM_WR] and [RESTART]. FROM_WR FROM_WR F0 F1 • Function: Writing to FROM As many words as specified for F1 from the memory address set for F0 is written in the FP-ROM.
Page 112: System Memory
7.2 Temperature Controller/Servo/Inverter Connection 7-27 Example of Procedure for Rewriting the Station Number Table Port No. Setting Port No. Setting Port No. Setting Write Reconnect Execute reconnection of the Set the port number from Write the station number network using the $u0 to 31 on the screen.
Page 113: F-Mpc Series / Fepsu
7-28 7. Fuji Electric 7.2.7 F-MPC Series / FePSU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 114 7.2 Temperature Controller/Servo/Inverter Connection 7-29 F-MPC04S Communication setting The communication parameters can be set using keys attached to the front of the power monitor unit. Be sure to match the settings to those made on the [Communication Setting] tab window of the editor. (Underlined setting: default) Setting Code Item...
Page 115 7-30 7. Fuji Electric F-MPC50/F-MPC55/F-MPC60B (UM4Bx, UM42xx, UM43xx) Communication setting The communication parameters can be set using keys attached to the front of the power monitor unit. Be sure to match the settings to those made on the [Communication Setting] tab window of the editor. (Underlined setting:...
Page 116 7.2 Temperature Controller/Servo/Inverter Connection 7-31 Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 117 7-32 7. Fuji Electric Address F-MPC04/F-MPC04P/F-MPC04S FePSU F-MPC30/F-MPC50/F-MPC55V/F-MPC60B 20zz Phase selection (Blank) Protective OCG (50G) (current setting) 21zz Power alarm upper limit Power alarm upper limit Protective OCG (50G) (operation time) Pulse multiplying factor 22zz Protective OCG (50G) (output setting)
Page 118 7.2 Temperature Controller/Servo/Inverter Connection 7-33 Address F-MPC04/F-MPC04P/F-MPC04S FePSU F-MPC30/F-MPC50/F-MPC55V/F-MPC60B 55zz (Blank) (Blank) Selective input 2 function setting 56zz (Blank) (Blank) Selective input 3 function setting 57zz (Blank) (Blank) Selective input 4 function setting 58zz (Blank) (Blank) Selective input 5 function setting 59zz (Blank) (Blank)
Page 119 7-34 7. Fuji Electric When using a direct value, set [DEC (with sign)] for [Display Type] on the [Num. Display] dialog. Specify “1” for [Decimal Point] on the [Num. Display] dialog. Specify “2” for [Decimal Point] on the [Num. Display] dialog.
Page 120: Fvr-E11S (Modbus Rtu)
7.2 Temperature Controller/Servo/Inverter Connection 7-35 7.2.8 FVR-E11S (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits Stop Bit...
Page 121: Fvr-C11S (Modbus Rtu)
7-36 7. Fuji Electric 7.2.9 FVR-C11S (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 122: Frenic5000 G11S / P11S (Modbus Rtu)
7.2 Temperature Controller/Servo/Inverter Connection 7-37 7.2.10 FRENIC5000 G11S / P11S (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits...
Page 123: Frenic5000 Vg7S (Modbus Rtu)
7-38 7. Fuji Electric 7.2.11 FRENIC5000 VG7S (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 124 7.2 Temperature Controller/Servo/Inverter Connection 7-39 When Connecting to the Terminal Block on “OPC-VG7-RS” (Optional Communication Board): Communication setting Set communication parameters. Be sure to match the settings to those made on the [Communication Setting] tab window of the editor. (Underlined setting: default) Function Item...
Page 125: Frenic-Mini (Modbus Rtu)
7-40 7. Fuji Electric 7.2.12 FRENIC-Mini (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 126 7.2 Temperature Controller/Servo/Inverter Connection 7-41 Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 127: Frenic-Eco (Modbus Rtu)
7-42 7. Fuji Electric 7.2.13 FRENIC-Eco (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 128 7.2 Temperature Controller/Servo/Inverter Connection 7-43 Function Item Setting Example Code Frequency Operation Command Inverter Inverter RS-485 communication Inverter Inverter RS-485 communication RS-485 communication RS-485 communication Link function RS-485 communication (optional) Inverter RS-485 communication (optional) RS-485 communication Inverter RS-485 communication (optional) RS-485 communication RS-485 communication (optional) RS-485 communication (optional)
Page 129: Frenic-Multi (Modbus Rtu)
7-44 7. Fuji Electric 7.2.14 FRENIC-Multi (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 130 7.2 Temperature Controller/Servo/Inverter Connection 7-45 Function Item Setting Example Code Frequency Operation Command Function code H30, y98 Function code H30, y98 Support link function Commanded from RS-485 Function code H30, y98 Function code H30, y98 Commanded from RS-485 Commanded from RS-485 Commanded from RS-485 Frequency Operation Command...
Page 131: Frenic-Mega (Modbus Rtu)
7-46 7. Fuji Electric 7.2.15 FRENIC-MEGA (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 132 7.2 Temperature Controller/Servo/Inverter Connection 7-47 Function Item Setting Example Code Frequency Operation Command Function code H30, y98 Function code H30, y98 Support link function Commanded from the loader Function code H30, y98 Function code H30, y98 Commanded from the loader Commanded from the loader Commanded from the loader Frequency...
Page 133 7-48 7. Fuji Electric 7.2.16 HFR-C9K Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length...
Page 134 7.2 Temperature Controller/Servo/Inverter Connection 7-49 Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 135 7-50 7. Fuji Electric 7.2.17 HFR-C11K Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 136 7.2 Temperature Controller/Servo/Inverter Connection 7-51 * RS-485 communication is available when the communication is enabled by digital input. Example: To make the communication enabled when digital input terminal X1 is turned ON; Set “11 (RS485 communication selection (RS))” for function code i01 and turn on the digital input terminal X1 externally. Terminals from X2 to X5 can also be used.
Page 137: Ppmc (Modbus Rtu)
7-52 7. Fuji Electric 7.2.18 PPMC (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 bps...
Page 138: Faldic-Α Series
7.2 Temperature Controller/Servo/Inverter Connection 7-53 7.2.19 FALDIC-α Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Do not change the default setting other Data Length 8 bits...
Page 139 7-54 7. Fuji Electric PLC_CTL Contents F1 (= $u n) Station number n + 1 Command: 9 Positioning data 1 - 2 n + 2 ABS/INC (immediate) setting (PLC1 - 2) n + 3 Speed selection n + 4 to n + 5...
Page 140: Phr (Modbus Rtu)
7.2 Temperature Controller/Servo/Inverter Connection 7-55 7.2.20 PHR (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Do not change the default settings of Baud Rate 9600 / 19200 bps the signal level, data length and stop...
Page 141 7-56 7. Fuji Electric 7.2.21 WA5000 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 142 7.2 Temperature Controller/Servo/Inverter Connection 7-57 PLC_CTL Contents F1 (=$u n) Hold remote control response Station number n + 1 Command: 0 1 - 2 (PLC1 - 2) n + 2 Hold status 0: OFF, 1: ON Hold terminal response Station number n + 1 Command: 1 1 - 2...
Page 143 7-58 7. Fuji Electric Contents F1 (=$u n) Digital zero remote control Station number response n + 1 Command: 12 1 - 2 n + 2 Digital zero (PLC1 - 2) 0: OFF, 1: ON n + 3 Displayed value...
Page 144 7.2 Temperature Controller/Servo/Inverter Connection 7-59 Contents F1 (=$u n) Range response Station number n + 1 Command: 22 n + 2 Range No designation Range 11 Range 12 Range 13 1 - 2 (PLC1 - 2) Range 14 Range 15 Range 23 Range 24 Range 25...
Page 145 7-60 7. Fuji Electric Contents F1 (=$u n) Communication function Station number parameter setting n + 1 Command: 31 n + 2 Baud rate 0: 2400, 1: 4800, 2: 9600, 3: 19200, 4: 38400 n + 3 Data length 1 - 2...
Page 146 7.2 Temperature Controller/Servo/Inverter Connection 7-61 Contents F1 (=$u n) Tracking zero response Station number n + 1 Command: 41 1 - 2 n + 2 Tracking zero time (PLC1 - 2) 0 (OFF) / 1 to 99 n + 3 Tracking zero width 0 (OFF) / 1 to 99 Tracking zero time setting...
Page 147 7-62 7. Fuji Electric Contents F1 (=$u n) Linearizing function status setting Station number n + 1 Command: 54 1 - 2 n + 2 Linearizing function (PLC1 - 2) 0: OFF 1: ON 2: CLR Response to the number of...
Page 148 7.2 Temperature Controller/Servo/Inverter Connection 7-63 Contents F1 (=$u n) Linearization data setting Station number n + 1 Command: 58 n + 2 Read start number 1 to 16 n + 3 The number of read data 1 to 16 n + 4 Linearization data input value (start number + 0) n + 5 Linearization data output value (start number + 0)
Page 149 7-64 7. Fuji Electric 7.2.22 APR-N (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 150 7.2 Temperature Controller/Servo/Inverter Connection 7-65 7.2.23 ALPHA5 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 151 7-66 7. Fuji Electric PLC_CTL Contents F1 (=$u n) Station number Command: 03 (HEX) Reading memory address Reading positioning data count: m (1 to 9) Positioning status and M code 15 to 8 Command Not used Positioning mode data M code...
Page 152 7.2 Temperature Controller/Servo/Inverter Connection 7-67 7.2.24 WE1MA (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 153 7-68 7. Fuji Electric 7.2.25 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 154 7.2 Temperature Controller/Servo/Inverter Connection 7-69 Wiring diagram 5 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 6 - COM1 COM1 Name Name RJ45 Dsub 9 (Male) 12345678 * Use shielded twist-pair cables. Wiring diagram 7 - COM1 COM1 Name Name...
Page 155 7-70 7. Fuji Electric Wiring diagram 9 - COM1 COM1 Name Name Plug (10-wire) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 10 - COM1 COM1 Name Name RJ45 Dsub 9 (Male) 12 3 45 6 78 * Use shielded twist-pair cables.
Page 156 7.2 Temperature Controller/Servo/Inverter Connection 7-71 Wiring diagram 13 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 14 - COM1 COM1 Name Name RJ45 Dsub 9 (Male) M5(0V) 1 23 4 56 7 8 *RXD *TXD * Use shielded twist-pair cables.
Page 157 7-72 7. Fuji Electric When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name RJ-10 Dsub 9 (Female) 20 21 22 23...
Page 158 8. IAI Temperature Controller/Servo/Inverter Connection...
Page 160 8.1 Temperature Controller/Servo/Inverter Connection Temperature Controller/Servo/Inverter Connection The controller models shown below can be connected. Serial Connection X-SEL Controller Connection PLC Selection Signal Model Port Lst File on the Editor Level COM1 COM2 XSEL-K Orthogonal XSEL-KE HOST port RS-232C Wiring diagram 1 - COM2 XSEL-KT/KET Scalar XSEL-KX...
Page 161 8. IAI 8.1.1 X-SEL Controller Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 162 8.1 Temperature Controller/Servo/Inverter Connection Available Memory The available memory setting range varies depending on the models. Be sure to set within the range available for the device. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (input port) Read only, virtual input port not available (output port)
Page 163 8. IAI Memory: 215 (System Status) Address Name System mode Most significant level system error number Most recent system error number System status byte 1 System status byte 2 System status byte 3 System status byte 4 Memory: 253 (Program) Address Name Value...
Page 164 8.1 Temperature Controller/Servo/Inverter Connection PLC_CTL Real numbers used on the S8 series are IEEE 32-bit single precision ones. Contents F1 (= $u n) Station number n + 1 Command: 201 (HEX) Unit type 0: Main CPU application area n + 2 1: Main CPU core area 2: Driver CPU n + 3...
Page 165 8. IAI Contents F1 (= $u n) Station number n + 1 Command: 213 (HEX) n + 2 Program number Program status 1 - 2 n + 3 Status inquiry (PLC1 - 2) n + 4 Running program step number n + 5 Program-sensitive error code n + 6...
Page 166 8.1 Temperature Controller/Servo/Inverter Connection Contents F1 (= $u n) Station number n + 1 Command: 234 (HEX) Axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 2 Axis 1 Traverse by absolute command 1 - 2 6 + 2m...
Page 167 8. IAI Contents F1 (= $u n) Station number n + 1 Command: 244 (HEX) n + 2 Change start point data number n + 3 Change point data count: t (1 to 2) Axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 4 Axis 1...
Page 168 8.1 Temperature Controller/Servo/Inverter Connection Contents F1 (= $u n) Station number 1 - 2 Program pause n + 1 Command: 255 (HEX) (PLC1 - 2) n + 2 Program number Station number Program one step 1 - 2 n + 1 Command: 256 (HEX) execution (PLC1 - 2)
Page 169 8-10 8. IAI Contents F1 (= $u n) Station number n + 1 Command: 2A2 (HEX) Inquiry top number for interference check zone n + 2 definition data n + 3 Inquiry record count t (1 to 16) Effective axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 4...
Page 170 8.1 Temperature Controller/Servo/Inverter Connection 8-11 Contents F1 (= $u n) Station number n + 1 Command: 2D6 (HEX) Inquiry axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 2 Traverse by point Axis 1 number command 1 - 2...
Page 171 8-12 8. IAI 8.1.2 PCON / ACON / SCON (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits...
Page 172 8.1 Temperature Controller/Servo/Inverter Connection 8-13 8.1.3 Wiring Diagrams When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 HOST COM2 Name Name Dsub 9 (Female) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name Dsub 25 (Male) Dsub 9 (Female)
Page 173 8-14 8. IAI Please use this page freely.
Page 174 9. KEYENCE PLC Connection...
Page 176 9.1 PLC Connection PLC Connection The PLC models shown below can be connected. Serial Connection KV Series Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 KV-10 KV10/24CPU KV-24 CPU modular port RS-232C Wiring diagram 1 - COM2 KV-40 CPU modular port RS-232C...
Page 177 9. KEYENCE 9.1.1 KV10/24 CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C If a baud rate higher than 57600 bps is set, Baud Rate 9600 / 19200 / 38400 / 57600 bps communication is performed at 9600 bps.
Page 178 9.1 PLC Connection 9.1.2 KV-700 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 bps Data Length 8 bits Stop Bit 1 bit...
Page 179 9. KEYENCE Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (data memory) (input/output/internal auxiliary/special relay) (timer/current value) (counter/current value)
Page 180 9.1 PLC Connection 9.1.3 KV-1000 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600/ 115k bps Data Length 8 bits Stop Bit 1 bit...
Page 181 9. KEYENCE Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (data memory) (input/output/internal auxiliary/special relay) (timer/current value) (counter/current value)
Page 182 9.1 PLC Connection 9.1.4 KV-3000 / 5000 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600/ 115K bps Data Length 8 bits Stop Bit...
Page 183 9. KEYENCE Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (data memory) (input/output/internal auxiliary/special relay) (timer/current value) Double-word...
Page 184 9.1 PLC Connection 9.1.5 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Modular 6 pin...
Page 185 9-10 9. KEYENCE Wiring diagram 3 - COM2 COM2 Name Name Dsub 9 (Female) * Use shielded twist-pair cables.
Page 186 10. LS 10.1 PLC Connection...
Page 188 10.1 PLC Connection 10-1 10.1 PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 K3P-07AS K200S K3P-07CS RS-232C connector MASTER-KxxxS RS-232C Wiring diagram 1 - COM2 on the CPU unit K300S K4P-15AS...
Page 189 10-2 10. LS 10.1.1 MASTER-KxxxS Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C Baud Rate 9600 / 19200 / 38400 / 57600 / 76800 / 115200 bps Data Length 8 bits Stop Bit...
Page 190 10.1 PLC Connection 10-3 10.1.2 MASTER-KxxxS CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 76800 / 115200 bps Data Length 7 / 8 bits Stop Bit...
Page 191 10-4 10. LS 10.1.3 XGT/XGK series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115200 bps Data Length 7 / 8 bits Stop Bit...
Page 192 10.1 PLC Connection 10-5 10.1.4 XGT/XGK series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-232C Baud Rate 115200 bps Data Length 8 bits Stop Bit 1 bit Parity None All PLC parameters are fixed to the following settings: Baud rate: 115200 bps, data length: 8 bits, stop bit: 1 bit, parity: none.
Page 193 10-6 10. LS 10.1.5 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 194 10.1 PLC Connection 10-7 Wiring diagram 4 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name...
Page 195 10-8 10. LS Wiring diagram 3 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables.
Page 196 11. MITSUBISHI ELECTRIC 11.1 PLC Connection 11.2 Temperature Controller/Servo/Inverter Connection...
Page 198 11.1 PLC Connection 11-1 11.1 PLC Connection The PLC models shown below can be connected. Serial Connection A/QnA/QnH Series Standard Type Link Unit Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 AJ71C24-S6 A2A, A3A AJ71C24-S8 RS-232C Wiring diagram 2 - COM2 AJ71UC24...
Page 199 11-2 11. MITSUBISHI ELECTRIC Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 Hakko Electronics’ cable “D9-MI2-09” Q00U Q02U RS-232C Q03UD(E) QJ71C24N Gender changer QnH (Q) series link Q04UD(E)H QJ71C24N-R2 Wiring diagram 1 - COM2 (multi CPU) Q06UD(E)H QJ71C24N-R4 Hakko Electronics’...
Page 200 11.1 PLC Connection 11-3 FX Series Connection Ladder PLC Selection on Signal Port the Editor Level Transfer COM1 COM2 Hakko Electronics’ cable “D9-MI4-FX” FX2N Hakko Electronics’ cable FX2N/1N series FX1N Tool port RS-422 “D9-MB-CPUQ” FX2NC FX1NC Mitsubishi’s cable “FX-20P-CADP” FX2N-232-BD RS-232C Wiring diagram 3 - COM2 Hakko Electronics’...
Page 201 11-4 11. MITSUBISHI ELECTRIC 11.1.1 A Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Transmission Mode 1 / Transmission Mode 1: Without CR/LF Transmission Mode...
Page 202 11.1 PLC Connection 11-5 A1SJ71C24-R2, A1SJ71UC24-R2 Switch Contents Example: RS-232C, 19200 bps SW03 Not used SW04 Write while running Enabled Disabled 9600 19200 SW03 SW05 SW04 Baud rate SW05 SW06 SW06 SW07 SW07 SW08 Data bit SW08 SW09 SW09 Parity bit Provided Not provided SW10...
Page 203 11-6 11. MITSUBISHI ELECTRIC 11.1.2 QnA Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate 115K bps Data Length...
Page 204 11.1 PLC Connection 11-7 Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 205 11-8 11. MITSUBISHI ELECTRIC 11.1.3 QnH (Q) Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate 115K bps Data Length...
Page 206 11.1 PLC Connection 11-9 Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 207 11-10 11. MITSUBISHI ELECTRIC 11.1.4 QnH (Q) Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection mode 1 : 1 / Multi-link2 Signal level RS-232C Baud rate 9600 / 19200 / 38400 /57600 / 115K bps Data length 8 bits Stop bit...
Page 208 11.1 PLC Connection 11-11 11.1.5 Q00J/00/01 CPU The communication setting and available memory are the same as those described in “11.1.4 QnH (Q) Series CPU”. 11.1.6 QnH (Q) Series Link (Multi CPU) The communication setting and available memory are the same as those described in “11.1.3 QnH (Q) Series Link”. 11.1.7 QnH (Q) Series CPU (Multi CPU) The communication setting and available memory are the same as those described in “11.1.4 QnH (Q) Series CPU”.
Page 209 11-12 11. MITSUBISHI ELECTRIC 11.1.9 FX2N/1N Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 bits Stop Bit 1 bit Parity...
Page 210 11.1 PLC Connection 11-13 11.1.10 FX Series Link (A Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Transmission Mode Transmission Mode 1 / Transmission Mode 4...
Page 211 11-14 11. MITSUBISHI ELECTRIC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 212 11.1 PLC Connection 11-15 11.1.11 FX-3UC Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 /57600 / 115K bps Data Length 7 bits Stop Bit...
Page 213 11-16 11. MITSUBISHI ELECTRIC 11.1.12 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 Hakko Electronics’ cable “D9-MI4-0T- M” ( = 2, 3, 5, 10, 15) COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name...
Page 214 11.1 PLC Connection 11-17 When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name Dsub 25 (Male) Dsub 9 (Female) * Use shielded twist-pair cables.
Page 215 11-18 11. MITSUBISHI ELECTRIC 11.2 Temperature Controller/Servo/Inverter Connection The controller models shown below can be connected. Inverter FR-*500/FR-V500 Series Connection PLC Selection on Model Port Signal level Lst File the Editor COM1 COM2 FR-A500 FR-E500 PU connector FR-*500 FR-E500.Lst FR-F500 RS-485 Wiring diagram 1 - COM1 FR-S500...
Page 216 11.2 Temperature Controller/Servo/Inverter Connection 11-19 11.2.1 FR-*500 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 217 11-20 11. MITSUBISHI ELECTRIC Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 218 11.2 Temperature Controller/Servo/Inverter Connection 11-21 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number Writing running 1 - 2 n + 1 Command: 00EEH frequency (EEPROM) (PLC1 - 2) n + 2 Running frequency Station number Writing running 1 - 2 n + 1...
Page 219 11-22 11. MITSUBISHI ELECTRIC 11.2.2 FR-V500 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 220 11.2 Temperature Controller/Servo/Inverter Connection 11-23 Available Memory The available memory setting range varies depending on the device. Be sure to set within the range available with the device to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 221 11-24 11. MITSUBISHI ELECTRIC PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number Writing setting speed 1 - 2 n + 1 Command: 00EEH (EEPROM) (PLC1 - 2) n + 2 Running frequency Station number Writing setting speed 1 - 2 n + 1...
Page 222 11.2 Temperature Controller/Servo/Inverter Connection 11-25 11.2.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name RJ-45 Dsub 9 (Male) 12 3 45 6 78 * Use shielded twist-pair cables.
Page 223 11-26 11. MITSUBISHI ELECTRIC Please use this page freely.
Page 224 12. OMRON 12.1 PLC Connection 12.2 Temperature Controller/Servo/Inverter Connection...
Page 226 12.1 PLC Connection 12-1 12.1 PLC Connection The PLC models shown below can be connected. Serial Connection SYSMAC C Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 C20H, C28H, C40H RS-232C port RS-232C Wiring diagram 1 - COM2 C120, C120F C120-LK201-V1 RS-232C...
Page 227 12-2 12. OMRON SYSMAC CS1/CJ1 Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 RS-232C port Hakko Electronics’ cable “D9-OM2-09” CS1W-SCU21 RS-232C Gender changer CS1W-SCB21 Wiring diagram 2 - COM2 Port 1 CS1W-SCB41 Port 2 RS-422 Wiring diagram 3 - COM1 SYSMAC CS1/CJ1...
Page 228 12.1 PLC Connection 12-3 12.1.1 SYSMAC C Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 229 12-4 12. OMRON C20H / C28H / C40H Standard setting Item Setting Remarks Start Bit 1 bit Communication parameter format can be Data Length 7 bits specified in the DM920 to DM923 memory. Parity Even For more information, refer to the PLC Stop Bit 2 bits manual issued by the manufacturer.
Page 230 12.1 PLC Connection 12-5 C500H-LK203 Back switch setting Switch Setting Contents 5-V power supply I/O port RS-232C/RS422 Synchronization Internal Terminating resistance Provided Applicable for RS-422 1 to 5 Unit No. 0 7 / 2 / even Monitor 19200 bps System No. 0 1 : n protocol Enables levels 1, 2, and 3 C200HW-COM02 - 06...
Page 231 12-6 12. OMRON CPM1A/CPM2C Communication port function setting switch (only for CPM2C) Communication Port Setting Contents Function Setting Switch The RS-232C port is operated according to the communication protocol and communication format set on the PLC system setting. PLC system setting (peripheral port) Item Setting Remarks...
Page 232 12.1 PLC Connection 12-7 12.1.2 SYSMAC CS1/CJ1 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 / Baud Rate 57600 / 115k bps Data Length...
Page 233 12-8 12. OMRON PLC system setting (host link port) Item Setting Remarks User Setting Checked The system setting can be made by Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115200 specifying a value for the address Parameter 7, 2, E using a programming console.
Page 234 12.1 PLC Connection 12-9 Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 235 12-10 12. OMRON 12.1.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 236 12.1 PLC Connection 12-11 When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 2 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables.
Page 237 12-12 12. OMRON 12.2 Temperature Controller/Servo/Inverter Connection The controller models shown below can be connected. Digital Temperature Controller Connection PLC Selection on Signal Model Port Lst File the Editor Level COM1 COM2 E5AR-xxxxxxxxx-FLK E5AR/E5ER Terminal RS-485 Wiring diagram 1 - COM1 E5AR.Lst E5ER-xxxxxxxxx-FLK E5AN-xxxx01xxxxFLK...
Page 238 12.2 Temperature Controller/Servo/Inverter Connection 12-13 12.2.1 E5AR Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 /1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit 1 / 2 bits...
Page 239 12-14 12. OMRON Indirect 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 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0006H...
Page 240 12.2 Temperature Controller/Servo/Inverter Connection 12-15 Contents F1 (= $u n) Unlatch 0C00H: Channel 1 Warning unlatch 0C10H: Channel 2 Warning unlatch 0C20H: Channel 3 Warning unlatch 0C30H: Channel 4 Warning unlatch 1 - 2 0CF0H: All channels Warning unlatch Operation instructions n + 2 (PLC1 - 2) SP mode...
Page 241 12-16 12. OMRON 12.2.2 E5AN/E5EN/E5CN/E5GN Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 / 57600 Baud Rate Data Length 7 / 8 bits...
Page 242 12.2 Temperature Controller/Servo/Inverter Connection 12-17 Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks (setting area 0)
Page 243 12-18 12. OMRON 12.2.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) B(+) A(-) * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name...
Page 244 13. Panasonic Electric Works 13.1 PLC Connection...
Page 246 13.1 PLC Connection 13-1 13.1 PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 COM port of the CPU RS-232C Wiring diagram 1 - COM2 AFP3462 (CCU) RS-232C AFP3463 (C-NET)
Page 247 13-2 13. Panasonic Electric Works 13.1.1 MEWNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 /57600 / 115k bps Data Length 7 / 8 bits Stop Bit...
Page 248 13.1 PLC Connection 13-3 COM port setting System Register *1 Contents COM1 COM2 Unit No. 1 to 99 Communication Mode Computer link Data Length 7 / 8 bits Parity None / Odd / Even Stop Bit 1 / 2 bits Baud Rate 4800 / 9600 / 19200 / 38400 /57600 / 115k bps *2 System register setting is enabled in the RUN mode.
Page 249 13-4 13. Panasonic Electric Works FP10/FP10s (COM Port) Operation mode setting switch Switch Setting Contents Baud rate: 19200 bps Data length: 8 bits With parity Stop bit 1 Station number setting switch Switch Setting The tens place The ones place 01 to 32 FP10SH (COM Port) Operation mode setting switch (upper)
Page 250 13.1 PLC Connection 13-5 AFP3463 (C-NET Link Unit) DIP switch setting Switch Setting Contents Baud rate: 19200 bps Data length: 8 bits With parity Stop bit 1 Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used.
Page 251 13-6 13. Panasonic Electric Works 13.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) Terminal * Use shielded twist-pair cables.
Page 252 13.1 PLC Connection 13-7 Wiring diagram 2 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 3 - COM2 COM2 Name Name Dsub 9 (Female) * Use shielded twist-pair cables. Wiring diagram 4 - COM2 COM2 Name Name...
Page 253 13-8 13. Panasonic Electric Works Please use this page freely.
Page 254 14. RKC 14.1 Temperature Controller/Servo/Inverter Connection...
Page 256 14.1 Temperature Controller/Servo/Inverter Connection 14-1 14.1 Temperature Controller/Servo/Inverter Connection Serial Connection Module-type Temperature Controller Connection PLC Selection on the Signal Model Port Lst File Editor Level COM1 COM2 H-PCP-A-x4N-4 * xx Z-1021 SR-Mini Modular RS-422A Wiring diagram 2 - COM1 SR-Mini.Lst (MODBUS RTU) connector 1/2...
Page 257 14-2 14. RKC 14.1.1 CB100/CB400/CB500/CB700/CB900 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Parity None / Odd / Even Data Length...
Page 258 14.1 Temperature Controller/Servo/Inverter Connection 14-3 14.1.2 SRV (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 259 14-4 14. RKC 14.1.3 SR-Mini (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 bps Data Length 8 bits Stop Bit...
Page 260 14.1 Temperature Controller/Servo/Inverter Connection 14-5 14.1.4 SR-Mini (Standard Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 bps Data Length 7/ 8 bits Stop Bit...
Page 261 14-6 14. RKC 14.1.5 MA900 / MA901 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits Stop Bit...
Page 262 14.1 Temperature Controller/Servo/Inverter Connection 14-7 14.1.6 SRZ (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 263 14-8 14. RKC 14.1.7 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) T/R(B) T/R(A) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name RJ-11 Dsub 9 (Male) R(A) R(B)
Page 264 15. SAIA 15.1 PLC Connection...
Page 266 15.1 PLC Connection 15-1 15.1 PLC Connection Serial Connection Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer COM1 COM2 PCD1.M120 PGU port RS-232C Wiring diagram 1 - COM2 PCD1.M130 PCD7.F120 RS-232C Wiring diagram 2 - COM2 PCD2.M120 PCD2.M130 PCD7.F110 RS-422...
Page 267 15-2 15. SAIA 15.1.1 PCD Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 268 15.1 PLC Connection 15-3 15.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) RX-TX /RX-/TX 12 PGND * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name...
Page 269 15-4 15. SAIA Please use this page freely.
Page 270 16. Siemens 16.1 PLC Connection...
Page 272 16.1 PLC Connection 16-1 16.1 PLC Connection Serial Connection Connection Ladder PLC Selection on Unit/Port Signal Level the Editor Transfer COM1 COM2 CPU 226 CPU 224 CPU 222 CPU 221 S7-200PPI RS-422 CPU 216 CPU 215 CPU 214 CPU 212 CPU 312 CPU 312C CPU 313C...
Page 273 16-2 16. Siemens 16.1.1 S7-200PPI Communication Setting Editor Communication setting (PLC1) (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 For S806M10D, 187.5k bps communication is not Baud Rate 9600 / 19200 / 187.5k bps available.
Page 274 16.1 PLC Connection 16-3 16.1.2 S7-300/400MPI Communication Setting Editor Communication setting (PLC1) (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n A maximum of four MPI-capable units can be connected. Signal Level RS-422/485 Baud Rate 19200 / 187.5k bps For S806M10D, 187.5k bps communication is not available.
Page 275 16-4 16. Siemens 16.1.3 Wiring Diagrams We recommend the following cable and the connectors for cable configuration. For more information, refer to related documents issued by Siemens. • Recommended cable Manufacturer Model Siemens 6XV1 830-0EH10 • Recommended connector Manufacturer Model Remarks 6ES7 972-0BA50-0XA0 For vertical wiring...
Page 276 17. Yamatake 17.1 Temperature Controller/Servo/Inverter Connection...
Page 278 17.1 Temperature Controller/Servo/Inverter Connection 17-1 17.1 Temperature Controller/Servo/Inverter Connection Serial Connection Digital Indicating Controller Connection PLC Selection on Model Port Signal Level Lst File the Editor COM1 COM2 SDC35xxxxxx2xx SDC35xxxxxx4xx SDC36.Lst SDC36xxxxxx2xx SDC36xxxxxx4xx SDC35/36 Terminal on the back RS-485 Wiring diagram 1 - COM1 SDC15Txxxx03xx SDC15Txxxx06xx None...
Page 279 17-2 17. Yamatake 17.1.1 SDC35/36 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 280 17.1 Temperature Controller/Servo/Inverter Connection 17-3 17.1.2 DMC10 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 281 17-4 17. Yamatake 17.1.3 DMC50 (COM) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 282 17.1 Temperature Controller/Servo/Inverter Connection 17-5 Available Memory The available memory setting range varies depending on the controller model. Be sure to set within the range available for the controller. Use [TYPE] when assigning the indirect memory for macro programs. Memory (Parameter Type ID) TYPE Remarks (NA area)
Page 283 17-6 17. Yamatake Memory (Parameter Type ID) TYPE Remarks (user-defined parameter) Double-word (user-defined parameter) Double-word (user-defined parameter) Double-word (user-defined parameter) Double-word (user-defined parameter) Double-word (user-defined parameter) Double-word Address denotations On the signal name reference list, every group ID is designated as “001”. To access any group ID other than “001”, input the desired ID via manual operation.
Page 284 17.1 Temperature Controller/Servo/Inverter Connection 17-7 17.1.4 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 285 17-8 17. Yamatake Please use this page freely.
Page 286 18. Yaskawa Electric 18.1 PLC Connection...
Page 288 18.1 PLC Connection 18-1 18.1 PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 JAMSC-IF60 JAMSC-IF61 RS-232C Wiring diagram 1 - COM2 JAMSC-IF611 GL60 series JAMSC-IF612 RS-422 Wiring diagram 1 - COM1...
Page 289 18-2 18. Yaskawa Electric 18.1.1 Memobus Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits Stop Bit...
Page 290 18.1 PLC Connection 18-3 18.1.2 CP9200SH/MP900 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 76800 bps Data Length 8 bits Stop Bit...
Page 291 18-4 18. Yaskawa Electric 217IF-01, 218IF-01 Module configuration Item Setting Remarks Transmission Protocol Memobus Master/Slave Slave Device Address Serial I/F RS-232 / RS-485 Transmission Mode Data Length 8 bits Parity Bit Even Stop Bit 1 stop Baud Rate 19.2K The maximum baud rate available is 76.8 kbps. To speed up communications, select [Not Specified].
Page 292 18.1 PLC Connection 18-5 18.1.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) Dsub 9 (Male) TXD+ RXD+ RXD- TXD- * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name Name...
Page 293 18-6 18. Yaskawa Electric Wiring diagram 4 - COM1 COM1 Name Name Dsub 9 (Male) MR-8 (Male) * Use shielded twist-pair cables. Wiring diagram 5 - COM1 COM1 Name Name Dsub 9 (Male) MDR14 (Male) * Use shielded twist-pair cables.
Page 294 18.1 PLC Connection 18-7 When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Male) Dsub 9 (Female) (TXD) (RXD) (CTS) (DSR) * Use shielded twist-pair cables. (DTR) Wiring diagram 2 - COM2 COM2 Name Name Dsub 15 (Male) Dsub 9 (Female)
Page 295 18-8 18. Yaskawa Electric Please use this page freely.
Page 296 19. Yokogawa Electric 19.1 PLC Connection 19.2 Temperature Controller/Servo/Inverter Connection...
Page 298 19.1 PLC Connection 19-1 19.1 PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection on Signal Unit/Port the Editor Level Transfer COM1 COM2 F3SP21-0N F3SP25-2N PROGRAMMER port RS-232C Yokogawa’s “KM11-xT” F3SP35-5N FA-M3 F3SP20-0N F3LC01-1N RS-232C Wiring diagram 1 - COM2...
Page 299 19-2 19. Yokogawa Electric 19.1.1 FA-M3/FA-M3R Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link / Multi-link2 Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate 76800 / 115K bps Data Length...
Page 300 19.1 PLC Connection 19-3 PC Link Module Station number setting Station Number Setting Setting Setting Example STATION 01 to 32 Baud rate setting switch F3LC01-1N / F3LC11-1N / F3LC11-2N Baud Rate Setting Switch Setting Baud Rate Remarks 4800 bps 9600 bps 19200 bps F3LC11-1F / F3LC12-1F / F3LC11-2F Baud Rate Setting Switch...
Page 301 19-4 19. Yokogawa Electric Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory TYPE Remarks...
Page 302 19.1 PLC Connection 19-5 PLC_CTL The user log can be read using the macro command “PLC_CTL”. Contents F1 (=$u n) Station number CPU No. CPU No. 1: 0 n + 1 CPU No. 2: 1 CPU No. 3: 2 User log registration number 1 - 2 CPU No.
Page 303 19-6 19. Yokogawa Electric 19.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) SHIELD * Use shielded twist-pair cables. When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name...
Page 304 19.2 Temperature Controller/Servo/Inverter Connection 19-7 19.2 Temperature Controller/Servo/Inverter Connection The controllers shown below can be connected. Digital Indicating Controller UT350/UT450 Series Connection PLC Selection on Model Port Signal Level Lst File the Editor COM1 COM2 UT350-01 UT350 UT350-21 UT350.Lst UT350-31 UT450-01 UT450-02 UT450-11...
Page 305 19-8 19. Yokogawa Electric 19.2.1 UT350 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-422/485 Baud Rate 4800 / 9600 bps Data Length 7 / 8 bits Stop Bit 1 / 2 bits Parity...
Page 306 19.2 Temperature Controller/Servo/Inverter Connection 19-9 19.2.3 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) SDB(+) SDA(-) RDB(+) RDA(-) * Use shielded twist-pair cables.
Page 307 19-10 19. Yokogawa Electric Please use this page freely.
Page 308 20. MODBUS 20.1 PLC Connection...
Page 310 20.1 PLC Connection 20-1 20.1 PLC Connection Serial Connection The S8 series works as the Modbus RTU master station. It can be connected with devices that support Modbus RTU communication. Connection PLC Selection on the Editor Applicable Device Signal Level COM1 COM2 RS-232C...
Page 311 20-2 20. MODBUS 20.1.1 MODBUS RTU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / 1 : n / Multi-link2 Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 312 20.1 PLC Connection 20-3 Make communication settings of the connected device according to the settings made for the S8 series. For more information on settings, refer to the instruction manual issued by the manufacturer. Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available for the PLC.
Page 313 20-4 20. MODBUS 20.1.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): Wiring diagram 1 - COM1 COM1 Name Name Dsub 9 (Male) Send data + Send data − Receive data − Receive data + * Use shielded twist-pair cables. Wiring diagram 2 - COM1 COM1 Name...
Page 314 21. Barcode Reader 21.1 Barcode Reader Connection...
Page 316 21.1 Barcode Reader Connection 21-1 21.1 Barcode Reader Connection Barcode readers can be connected to the serial port COM2 at the S8 series. 21.1.1 Recommended Models (Operations Verified) Operations of the following models have been verified by Hakko Electronics. Connection Manufacturer Model Signal Level...
Page 317: Barcode Reader
21-2 21. Barcode Reader 21.1.2 Communication Setting Editor Device selection Select [Barcode] at [Device] for the logical ports PLC2. [Barcode] cannot be selected for PLC1. PLC2 Communication setting (Underlined setting: default) Item Setting Remarks Type JAN / ITF / CODABAR / CODE39 / ANY Baud Rate 4800 / 9600 / 19200 bps Data Length...
Page 318 21.1 Barcode Reader Connection 21-3 21.1.3 I/F Memory I/F memory stores barcode information. The number of words used varies depending on the setting. I/F Memory Type: JAN / ITF / CORDABAR / CODE39 Memory Contents Flag / the number of bytes read The number of bytes read Reading complete Communication error...
Page 319 21-4 21. Barcode Reader 21.1.4 Wiring Diagrams When Connected at COM2 (RS-232C): Wiring diagram 1 - COM2 COM2 Name Name Dsub 9 (Female) * Use shielded twist-pair cables.
Page 320 22. Slave Communication Function 22.1 V-Link 22.2 Modbus RTU Slave Communication...
Page 322 22.1 V-Link 22-1 22.1 V-Link 22.1.1 Overview • “V-Link” is the network where the computer reads from and writes to the internal memory of the S8 series, or PLC1 memory using a dedicated protocol. Dedicated commands Reading disc Writing RESET S8 series •...
Page 323 22-2 22. Slave Communication Function 22.1.2 Communication Setting Editor Device selection Select [V-Link] at [Device] for the logical ports PLC2. [V-Link] cannot be selected for PLC1. PLC2 Communication setting (Underlined setting: default) Item Setting Signal Level RS-232C / RS-485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115 Kbps Data Length 7 / 8 bits...
Page 324 22.1 V-Link 22-3 MONITOUCH Local port number setting (Main Menu) When [ Set Local Port No. in Main Menu] is checked in the [Communication Setting] tab window for V-Link, the local port number must be set on the Main Menu screen of the S8 series. 1.
Page 325 22-4 22. Slave Communication Function 22.1.3 Connection RS-232C The S8 unit is connected to a personal computer with the COM2 port via RS-232C. The COM1 port is used to connect to a PLC (RS-422). disc Computer RESET RS-232C COM2 Local port COM1 RS-422 RS-485...
Page 326 22.1 V-Link 22-5 RS-485 The S8 unit is connected to a personal computer with the COM1 port via RS-485. With RS-485, a maximum of 31 S8 series units can be connected. The COM2 port is used to connect to a PLC (RS-232C). * The terminating resistance of COM1 on S806M10D is always set to ON.
Page 327 22-6 22. Slave Communication Function 22.1.4 Protocol Read (with Sum Check and CR/LF) Read command Command Local Read target Number Read port of words memory command to read setting Bytes Response Memory Memory Local port data data (Normal communication) Bytes (When an error occurs) Local port...
Page 328 22.1 V-Link 22-7 Write (with Sum Check and CR/LF) Write command Command Local Write target Memory Memory Number Write port memory of words data data command to write setting Bytes Response (Normal communication) Local port Bytes (When an error occurs) Local port Bytes...
Page 329 22-8 22. Slave Communication Function Items for Protocols Transmission control code: 1 byte Code Signal Name Content (Hexadecimal) Start of transmission block End of transmission block Carriage return Line feed Local port number: 2 bytes Local port numbers are used so that the host computer can identify each S8 series for access. The data range is from 01H to 1FH (1 to 31) and is converted into the ASCII code before use.
Page 330 22.1 V-Link 22-9 • Expansion code When accessing to the memory shown below, set the expansion code in addition to the type and address. PLC number 1 to 2 Mitsubishi Electric PLC Slot No. of SPU memory Yokogawa Electric PLC CPU No.
Page 331 22-10 22. Slave Communication Function 22.1.5 1-byte Character Code List Upper ’ " & Lower ’ < >...
Page 332: Modbus Rtu Slave Communication
22.2 Modbus RTU Slave Communication 22-11 22.2 Modbus RTU Slave Communication For details on Modbus RTU slave communication, refer to the Modbus Slave Communication Specifications manual provided separately.
Page 333 22-12 22. Slave Communication Function Please use this page freely.
Page 334 23. Universal Serial Communication 23.1 Overview 23.2 Wiring Diagrams 23.3 Device Connection Setting 23.4 Standard Type Protocol 23.5 Memory Map...
Page 336: Overview Of Communication
23.1 Overview 23-1 23.1 Overview Overview of Communication • As shown in the diagram below, when a general-purpose computer communicates with the S8 series, the general-purpose computer acts as the host and the S8 series acts as the slave. • Switch, lamp, data display, etc., are allocated within the internal user memory ($u0 to 32767). Assign memory addresses for system, lamp, data display, and mode within this range.
Page 337: System Configuration
23-2 23. Universal Serial Communication Differences between Connecting to General-purpose Computer and Connecting to • Input format (code) The input format used for screen number, block number, message number, etc., is fixed in [DEC]. • Write area When connecting to the PLC, only the three words shaded in the diagram below are used, but when connecting to a general-purpose computer, all 16 words shown below are used.
Page 338 23.2 Wiring Diagrams 23-3 23.2 Wiring Diagrams When Connected at COM1 (RS-422 / RS-485): RS-422 1 : 1 connection COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. 1 : n connection It is convenient to use the optional terminal converter “TC-D9”. The terminating resistance of COM1 on S806M10D is always set to ON.
Page 339 23-4 23. Universal Serial Communication 1 : n connection The terminating resistance of COM1 on S806M10D is always set to ON. So, S806M10D is available only in the termination. • S8 series with TC-D9 General-purpose TC-D9 TC-D9 TC-D9 computer (SW1: 4W) (SW1: 4W) (SW1: 4W) Name...
Page 340: Device Connection Setting
23.3 Device Connection Setting 23-5 23.3 Device Connection Setting PLC1 Make settings of universal serial communication for the logical port PLC1. You cannot select this type as PLC2. Device Selection (PLC1) Communication Setting Set the connection method for the S8 series and host. Connection Mode 1 : 1: Select it when connecting one S8 series unit to one host.
Page 341 23-6 23. Universal Serial Communication When using text process, choose either [LSB → MSB] or [MSB → LSB] in order to make arrangements for the order of the first and the second bytes in one word. [LSB → MSB] 2nd byte 1st byte Text Process [MSB →...
Page 342 23.3 Device Connection Setting 23-7 Read clear and read clear backup action The action that occurs when a read command from the host tries to access to the read clear area is shown in the following diagram. Backup data of the system memory write area is allocated following the read clear backup area. Read command Read clear backup area Data transmission to the...
Page 343 23-8 23. Universal Serial Communication Read/Write Area Read/Write Area Read area This memory area is necessary to change the screen display status by giving a command from the host. Be sure to set the $u memory. Address allocation is shown in the table below. For more information, see “Read/Write Area” (page 1-16). Address Name Contents...
Page 344 23.3 Device Connection Setting 23-9 • n + 7 (ENT2) entry information 2 The entry mode window number where a write operation was executed is written. The relationship between the window number and base and the window number and overlap is shown in the following table.
Page 345: Standard Type Protocol
23-10 23. Universal Serial Communication 23.4 Standard Type Protocol 23.4.1 Standard Type Protocol The connection mode and transmission mode are set in the [Communication Setting] tab window under [System Setting]. The mode contents are as follows. • Connection mode 1 : 1: Select it when connecting one S8 series unit to one host.
Page 346: Connection (1 : 1), Transmission Mode (With Sum Check)
23.4 Standard Type Protocol 23-11 Connection (1 : 1), Transmission Mode (with Sum Check) This protocol is used when one host communicates with one S8 series unit (1 : 1). Contents Protocol disc RESET Host side S8 series side Transmission sequence Reading the S8 series data at the host side disc...
Page 347: Connection (1 : 1), Transmission Mode (With Sum Check And Cr/Lf)
23-12 23. Universal Serial Communication Connection (1 : 1), Transmission Mode (with Sum Check and CR/LF) This protocol is used when one host communicates with one S8 series unit (1 : 1). Contents Protocol disc RESET Host side S8 series side Transmission sequence Reading the S8 series data at the host side...
Page 348: Connection (1 : N), Transmission Mode (With Sum Check)
23.4 Standard Type Protocol 23-13 Connection (1 : n), Transmission Mode (with Sum Check) It is possible to connect as many as 32 S8 series units to one host. * The terminating resistance of COM1 on S806M10D is always set to ON. So, S806M10D is available only in the termination.
Page 349: Connection (1 : N), Transmission Mode (With Sum Check And Cr/Lf)
23-14 23. Universal Serial Communication Connection (1 : n), Transmission Mode (with Sum Check and CR/LF) It is possible to connect as many as 32 S8 series units to one host. * The terminating resistance of COM1 on S806M10D is always set to ON. So, S806M10D is available only in the termination.
Page 350: Port Number
23.4 Standard Type Protocol 23-15 23.4.2 Protocol Contents Transmission Control Code The transmission control codes are shown in the table below. Signal Name Code (Hexadecimal) Contents Start of transmission block End of transmission block Interrupt Positive acknowledge Carriage return Change contents within a block Negative acknowledge Line feed Port Number...
Page 351: Error Codes
23-16 23. Universal Serial Communication Sum Check Code (SUM) Data is added up (SUM), and the lower one byte (8 bits) of the sum is converted into a two-digit ASCII code (HEX). Example: Transmission mode: without CR/LF, with sum check The sum check code is added as shown below when data “3882”...
Page 352: Response Time And Busy
23.4 Standard Type Protocol 23-17 Response Time and BUSY Response time varies depending on the type of command. RM / RI / RC These commands immediately send a response once receipt of data is complete. No NAK [01] (BUSY) signal is given. Host side (command) S8 series...
Page 353: Rc: Read Chr
23-18 23. Universal Serial Communication 23.4.3 Command RC: Read CHR This command is used to read data memory as characters. * When character data is sent, 1 character (1 byte) is converted into a two-byte ASCII code and transmitted by the read memory command.
Page 354: Rm: Read Memory
23.4 Standard Type Protocol 23-19 RM: Read Memory This command is used to read data memory. * Communication speed is increased when you use the read CHR command to read characters. Details of read memory Read memory command Host side S8 series side Transmission data Transmission data...
Page 355: Wc: Write Chr
23-20 23. Universal Serial Communication WC: Write CHR This command is used to write data memory as characters. * When character data is sent, 1 character (1 byte) is converted into a two-byte ASCII code and transmitted by the write memory command.
Page 356: Wm: Write Memory
23.4 Standard Type Protocol 23-21 WM: Write Memory This command is used to write data memory. * Communication speed is increased when you use the write CHR command to write characters. Details of write memory Write memory command Host side S8 series side Transmission data •...
Page 357: Tr: Retry Command
23-22 23. Universal Serial Communication TR: Retry Command This command is used to re-send a write command/write CHR command when an NAK error code [01] is returned. Details of retry Command A Retry command * Retry command re-sends the command A which is waiting. Host side S8 series side Error...
Page 358: Wi: Interrupt Setting Command
23.4 Standard Type Protocol 23-23 WI: Interrupt Setting Command This command is used to send interrupt conditions. It can be used for 1 : 1 connection. Details of interrupt setting command Interrupt setting command Host side S8 series side • Host side Data: Interrupt conditions is specified when the interrupt data bit is set.
Page 359: Ri: Interrupt Status Read Command
23-24 23. Universal Serial Communication RI: Interrupt Status Read Command This command is used to read interrupt setting status. It can be used for 1 : 1 connection. Details of interrupt status read command Interrupt status read command Host side S8 series side •...
Page 360: Interrupt (Enq)
23.4 Standard Type Protocol 23-25 23.4.4 Interrupt (ENQ) The interrupt command can be used for 1 : 1 connection.* Interrupt data becomes the contents of write areas n + 2 to n + 7. (See page 23-8.) * For RS-485 (2-wire connection), interrupts cannot be used. Interrupt codes and conditions An interrupt code is sent to the host for the following actions.
Page 361 23-26 23. Universal Serial Communication • When the “Write” switch on the keypad is pressed: When the [ENT] switch on the keypad is pressed Screen No. ENT0 ENT1 ENT2 S8 series side WORD WORD WORD WORD WORD WORD ENT0/1/2 is the same as system memory area (n + 5, n + 6, n + 7). •...
Page 362 23.4 Standard Type Protocol 23-27 1-byte Character Code List Upper ’ " & Lower ’ < >...
Page 363: Memory Map
23-28 23. Universal Serial Communication 23.5 Memory Map Memory Inside the S8 series, there is internal memory necessary for screen display called “user memory ($u)”, as well as memory that the S8 series uses for the system called “system memory ($s)”. User Memory ($u) 32768 words are available for user memory.
Page 364: System Memory ($S)
23.5 Memory Map 23-29 System Memory ($s) 2048 words are available for system memory. System memory is memory that writes S8 series action status when the S8 series is currently displaying something. With this written information, it is possible to check overlap status, buffer area, printer, backlight, and slave station status in multi-drop connection mode.
Page 365 23-30 23. Universal Serial Communication Address Contents Universal serial switch output 9 Switch No. 144 to 159 $s89 Universal serial switch output 10Switch No. 160 to 175 $s90 Universal serial switch output 11Switch No. 176 to 191 $s91 Universal serial switch output 12 Switch No. 192 to 207 $s92 Universal serial switch output 13 Switch No.
Page 366 23.5 Memory Map 23-31 Switch ON Macro Action The macro command that controls a repeat function in the switch ON macro, as well as the processing sequence, is shown in the following diagram. Switch action flowchart Switch ON Interlock Not satisfied Interlock condition Satisfied...
Page 367 23-32 23. Universal Serial Communication Please use this page freely.
Page 368 Appendix Appendix 1 Device Memory Map Appendix 2 System Memory Appendix 3 n : 1 Connection Appendix 4 Ladder Transfer Function...
Page 370 Appendix 1 Device Memory Map App1-1 Appendix 1 Device Memory Map • Within the S8 series, for each logical port there are a total of 32 device memory maps from No. 0 to No. 31. 128 memory addresses can be registered in each memory map, and batch transfer of data among devices, and sampling, are possible.
Page 371 App1-2 • Functions that use device memory maps - Periodical reading The memory data registered in a device memory map is periodically transferred to other devices. (page App1-7) - Periodical writing The data of other devices is periodically transferred to the memories registered in a device memory map. (page App1-9) - Synchronized reading The data of each memory registered in a device memory map is transferred to another device when its bit is set (ON).
Page 372 Appendix 1 Device Memory Map App1-3 Device Memory Map Editing Starting 1. Click [System Setting] → [Device Memory Map] → [PLCn]. The [Device Memory Map: PLCn] dialog is displayed. 2. Select the device memory map number from 0 to 31 and click [OK]. The [Device Memory Map Edit] window is opened.
Page 373 App1-4 Device Memory Map Editing Clicking any cell displays the relevant setting menu. Memory input Data format Device memory map setting 1. Memory Input Specify the memory address whose data is to be transferred. If you have opened the PLC2 device memory map editing dialog, register the PLC2 memory.
Page 374 Appendix 1 Device Memory Map App1-5 When [Word] or [Double Word] is selected: In the internal memory of the S8 series, data is normally handled as DEC with signs. Code Communication Transfer source 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 setting PLCn 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0...
Page 375 App1-6 Enabling interruption Interrupt is enabled by selecting [Enabling Interruption] in the right-click menu displayed by right-clicking on the device memory map number. The “*” mark is displayed at the selected memory. When interruption is enabled, switch data output, cycle reading or sampling can be executed during the device memory map process.
Page 376 Appendix 1 Device Memory Map App1-7 Periodical Reading The memory data registered in a device memory map is transferred to the target memory address every cycle set at [Reading Cycle]. Data PLC2 PLC1 F A C T O R Y A C E COM2 COM1...
Page 377 App1-8 Synchronized Reading The memory data registered in a device memory map is transferred to the target memory address at the leading edge of each bit (0 → 1). Data PLC2 PLC1 F A C T O R Y A C E COM2 COM1 PROGRAMMER...
Page 378 Appendix 1 Device Memory Map App1-9 Function Synchronized Reading >> Target Memory 1 Set the memory address at which the read data is to be stored. >> Target Memory 2 Enter a memory address as the trigger for synchronized reading. Control Memory The specified memory address is used for the device memory map Nos.
Page 379 App1-10 Synchronized Writing The data at the source memory address is transferred to a memory address registered in a device memory map at the leading edge of the control memory bit (0 → 1). Data PLC1 PLC2 F A C T O R Y A C E COM1 COM2...
Page 380 Appendix 1 Device Memory Map App1-11 Function Synchronized Writing << Source Memory 1 Specify the storage target memory address for the source data. << Source Memory 2 Enter a memory address as the trigger for synchronized reading. Control Memory The specified memory address is used for the device memory map Nos. 0 to 31. Four words are occupied.
Page 381 App1-12 Sampling The history data of the memory addresses registered in a device memory map is saved in the S8 series internal buffer. Setting items Items that must be set to perform sampling • “Device Memory Map Editing” (page App1-3) •...
Page 382 Appendix 1 Device Memory Map App1-13 Buffering area setting Click [System Setting] → [Buffering Area Setting]. The [Buffering Area Setting] dialog is opened. Type Trend Sampling Method Device Memory Map: PLCn Table No. Select the device memory map number for sampling. Word Count The number of words is automatically set in this area based on the data in the device memory map.
Page 383 App1-14 TBL_READ / TBL_WRITE The data at the memory addresses registered in a device memory map is batch transferred using the [TBL_READ] and [TBL_WRITE] macro commands. Setting items Items that must be set to perform memory data transfer set in the device memory map •...
Page 384 Appendix 2 System Memory App2-1 Appendix 2 System Memory The S8 series has system memories $s and $Pn. The memory addresses $s0 to 2047 (2 k words) are for system use. Data can be read from and write to these areas. For more information, refer to the S8 Series Reference Manual.
Page 385 App2-2 $Pn List The $Pn list is presented below. Part of the information of logical ports PLC1/PLC2 can also be stored in $s. Contents Memory Type (n = 1 to 2) S8 local port number ← S8 Stores the local port number of the S8 series. (PLC1) (Universal serial communication, slave communication, etc.) With 1 : n connection Link down information (station No.
Page 386 Appendix 2 System Memory App2-3 Contents Memory Type (n = 1 to 2) 838 (PLC2) Error status Station No. 50 status (page App2-4) 848 (PLC2) Error status Station No. 60 status (page App2-4) 858 (PLC2) Error status Station No. 70 status (page App2-4) 868 (PLC2) Error status Station No.
Page 387 App2-4 Detail $Pn: 99 The update timing for the link down information stored in $Pn: 010 to 025 is set here. 0: Always updated with the latest information Other than 0: Only updated when a communication error occurs • Example: An error has occurred at station No.
Page 388 Appendix 2 System Memory App2-5 • Solution 1) Check if the communication settings of the S8 series and the connected device are matched. 2) Check the cable connection. 3) Data may be disrupted because of noise. Fix noise. If you still cannot solve the error even after following the suggestions above, contact your local distributor. $Pn: 493, 495 Periodical or synchronized reading set in the [Device Memory Map Setting] dialog is suspended.
Page 389 • “0” is stored for devices that have no expansion error code. • Example PLC2: Fuji Electric PXR station No. 1 1) On receipt of an error code at station No. 1 of PLC2, “800BH” is stored in $P2: 101.
Page 390 Appendix 3 n : 1 Connection App3-1 Appendix 3 n : 1 Connection Appendix 3.1 Multi-link2 • One PLC is connected to a maximum of four S8/V8 units. The S8 series cannot be connected with the V7 and V6 series as multi-link2.
Page 391 App3-2 System Configuration and Wiring Diagram The COM1 of the master S8 unit is connected to the COM1 of the slave S8 units. Master Slave Slave Slave (= Local Port 1) (= Local Port 2) (= Local Port 3) (= Local Port 4) COM2 COM1 COM1...
Page 392 Appendix 3 n : 1 Connection App3-3 Setting on the Editor The settings for Multi-link2 are covered below. The differences with respect to a 1 : 1 connection and the points where care is required are explained here. Communication Setting [System Setting] →...
Page 393: Communication Error
App3-4 Set the number of cycles before the master sends an inquiry for restoration to the slave that has a communication problem (= system down). When a slave has a problem, it is temporarily removed from the communication targets, and the master sends an inquiry for restoration every number of cycles specified for [Retry Cycle].
Page 394 Appendix 3 n : 1 Connection App3-5 Appendix 3.2 Multi-link • One PLC is connected to a maximum of 31 S8 units . The S8, V8, V7, and V6 series can be used together. * The terminating resistance of COM1 on S806M10D is always set to ON. If you use S806M10D in multi-link connection, S806M10D is available only in the termination of multi-link.
Page 395 App3-6 Wiring Diagrams It is convenient to use Hakko Electronics’ “TC-D9” (terminal converter) optionally available for this multi-link connection. • S8 series with TC-D9: TC-D9 TC-D9 TC-D9 To the RS422 port of (SW1: 2W) (SW1: 2W) (SW1: 2W) Shield Shield Shield the connected device Name...
Page 396 Appendix 3 n : 1 Connection App3-7 Setting on the Editor The settings for Multi-link are covered below. The differences with respect to a 1 : 1 connection and the points where care is required are explained here. PLC selection Select the PLC corresponding to the multi-link connection in the [Communication Setting] tab window ([System Setting] →...
Page 397 App3-8 1 to 100 (× 10) When the S8 series has a problem, it is temporarily removed from the communication targets, and the master sends an inquiry for restoration every number of cycles specified for [Retry Cycle]. This Retry Cycle setting does not affect the communication speed if no problem is occurring;...
Page 398: Operating Environment
Applicable PLC Models The following PLC models support the ladder transfer function. Manufacturer Ladder Communication Program PLC Selection on the Editor NP1Px-xx(SPH) Fuji Electric FA MICREX-SX SPH/SPB CPU MicrexSX_U.lcmA NW0Pxx(SPB) QnH (Q) series CPU Q02(H), Q06H, Q12H, Q25H Q00J/00/01 CPU...
Page 399 App4-2 Setting The following settings are necessary to use the ladder transfer via USB. Editor Device connection setting Select [System Setting] → [Device Connection Setting] → [PLC1] → [Ladder Transfer Port] * The [Ladder Transfer Port] tab window is only displayed if a model that is compatible with the ladder transfer function (see page App4-1) has been selected for PLC1.
Page 400 Appendix 4 Ladder Transfer Function App4-3 3. Select the location of where to install the tool and click the [Next] button. 4. Click the [Install] button. 5. Installation starts. 6. Click the [Finish] button. Reboot your computer. * Whenever you have installed or uninstalled the “LadderComOp”, reboot your computer. Failure to do so may cause a malfunction.
Page 401 App4-4 7. “LadderComOp” is added as an option under V-SFT-5. Ladder transfer setting From the [Start] menu of your computer, click [Programs] → [V-SFTV5] → [LadderComOp] → [Ladder Transfer Setting]. Match the port number to the one set in the ladder software for the PLC. Checked COM port COM1 to COM256 (COM9 as default)
Page 402 To see which port must be set for [COM port] in the [Ladder Transfer Setting] dialog, go to the following dialog provided in the PLC ladder software. • MITSUBISHI ELECTRIC GX Developer • Fuji Electric SX-Programmer Expert (D300win) Notes • The ladder transfer function can be used with PLC1. It cannot be used with PLC2.
Page 403 App4-6 Please use this page freely.
Page 404 PXH (MODBUS RTU) PUM (MODBUS RTU) F-MPC04P (loader) F-MPC series / FePSU FVR-E11S (MODBUS RTU) FVR-C11S (MODBUS RTU) Fuji Electric FRENIC5000 G11S/P11S (MODBUS RTU) FRENIC5000 VG7S (MODBUS RTU) FRENIC-Mini (MODBUS RTU) FRENIC-Eco (MODBUS RTU) FRENIC-Multi (MODBUS RTU) FRENIC-MEGA (MODBUS RTU)
Page 405 List-2 1 : n n : 1 n : 1 Manufacturer Models 1 : 1 Multi-drop Multi-link2 Multi-link SYSMAC C SYSMAC CS1/CJ1 OMRON E5AN/E5EN/E5CN/E5GN E5AR/E5ER Panasonic Electric Works FP Series SR-Mini (MODBUS RTU) CB100/CB400/CB500/CB700/CB900 (MODBUS RTU) SR-Mini (Standard Protocol) SRV (MODBUS RTU) MA900/MA901 (MODBUS RTU) SRZ (MODBUS RTU) SAIA...
Page 406 www.monitouch.com 890-1, Kamikashiwano-machi, Hakusan-shi, Sales Ishikawa, 924-0035 Japan TEL +81-76-274-2144 FAX +81-76-274-5136 2202NE2 30400000...