SAFETY PRECAUTIONS (Always read these precautions before using this equipment.) Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to handle the product correctly. The precautions given in this manual are concerned with this product. In this manual, the safety precautions are ranked as "WARNING"...
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[DESIGN PRECAUTIONS] WARNING If a communication fault (including cable disconnection) occurs during monitoring on the GOT, communication between the GOT and PLC CPU is suspended and the GOT becomes inoperative. For bus connection (GT27 Only) : The CPU becomes faulty and the GOT becomes inoperative. For other than bus connection : The GOT becomes inoperative.
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[MOUNTING PRECAUTIONS] CAUTION Use the GOT in the environment that satisfies the general specifications described in this manual. Not doing so can cause an electric shock, fire, malfunction or product damage or deterioration. When mounting the GOT to the control panel, tighten the mounting screws in the specified torque range (0.36 N m to 0.48 N m) with a Phillips-head screwdriver No.2.
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[WIRING PRECAUTIONS] CAUTION Use applicable solderless terminals and tighten them with the specified torque. If any solderless spade terminal is used, it may be disconnected when the terminal screw comes loose, resulting in failure. Correctly wire the GOT power supply section after confirming the rated voltage and terminal arrangement of the product.
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Before touching the unit, always touch grounded metals, etc. to discharge static electricity from human body, etc. Not doing so can cause the unit to fail or malfunction. Use the battery manufactured by Mitsubishi Electric Corporation. Use of other batteries may cause a risk of fire or explosion. Dispose of used battery promptly.
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[TOUCH PANEL PRECAUTIONS] CAUTION For the analog-resistive film type touch panels, normally the adjustment is not required. However, the difference between a touched position and the object position may occur as the period of use elapses. When any difference between a touched position and the object position occurs, execute the touch panel calibration.
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When disposing of this product, treat it as industrial waste. When disposing of batteries, separate them from other wastes according to the local regulations. (Refer to the GOT2000 Series User’s Manual (Hardware) for details of the battery directive in the EU member states.)
INTRODUCTION Thank you for choosing Mitsubishi Graphic Operation Terminal (Mitsubishi GOT). Read this manual and make sure you understand the functions and performance of the GOT thoroughly in advance to ensure correct use. CONTENTS SAFETY PRECAUTIONS .........................A - 1 INTRODUCTION ............................A - 8 CONTENTS ..............................A - 8 List of Manuals for GT Works3 .......................A - 14 Abbreviations and Generic Terms ......................A - 15...
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2.3.1 RS-232 cable ........................2 - 5 2.3.2 RS-422 cable ........................2 - 5 Device Data Area..........................2 - 6 2.4.1 D devices ..........................2 - 7 2.4.2 R devices ..........................2 - 11 2.4.3 L devices ..........................2 - 12 2.4.4 M devices ...........................
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Device Range that Can Be Set ...................... 3 - 72 Precautions ............................ 3 - 73 MODBUS CONNECTIONS 4. MODBUS(R)/RTU CONNECTION Connectable Model List ........................4 - 2 System Configuration ........................4 - 3 4.2.1 Connecting to MODBUS(R)/RTU equipment................ 4 - 3 Connection Diagram ........................
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7. CONNECTION TO EXTERNAL I/O DEVICE Connectable Model List ........................7 - 2 System Configuration ........................7 - 3 7.2.1 Connecting to the external I/O device .................. 7 - 3 Connection Diagram ........................7 - 5 7.3.1 Connection cable between external I/O unit and connector/terminal block converter module ..........................
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11. VIDEO/RGB CONNECTION 11.1 Connectable Model List ......................... 11 - 2 11.2 System Configuration ........................11 - 3 11.2.1 Displaying video image on GOT ..................11 - 3 11.2.2 Displaying GOT screen on external monitor............... 11 - 5 11.3 Connection Diagram ........................11 - 6 11.3.1 Coaxial cable ........................
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15. WIRELESS LAN CONNECTION 15.1 System Configuration ........................15 - 2 15.1.1 Connecting to wireless LAN ....................15 - 2 15.2 GOT Side Settings......................... 15 - 3 15.2.1 Setting communication interface (Communication settings)..........15 - 3 15.2.2 Communication detail settings.................... 15 - 3 15.2.3 GOT wireless LAN I/F setting .....................
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SW1DND-GTW3-C GT Designer3 Version1 Screen drawing software GT Designer3 for GOT2000/GOT1000 series GT Designer3 Screen drawing software for GOT2000 series included in GT Works3 GT Designer3 (GOT2000) GT Designer3 (GOT1000) Screen drawing software for GOT1000 series included in GT Works3...
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(3) Other software Abbreviations and generic terms Description SW□DNC-GXW2-J (-JA, -JAZ) type programmable controller engineering GX Works2 software (□ indicates a version.) GX Simulator2 GX Works2 with the simulation function SW□D5C-LLT-J (-JV) type ladder logic test tool function software package GX Simulator (SW5D5C-LLT (-V) or later versions) (□...
PREPARATORY PROCEDURES FOR MONITORING 1.1 Setting the Communication Interface ....1 - 3 1.2 Writing the Package Data onto the GOT ....1 - 10 1.3 Option Devices for the Respective Connection .
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PREPARATORY PROCEDURES FOR MONITORING The following shows the procedures to be taken before monitoring and corresponding reference sections. Setting the communication interface 1.1Setting the Communication Interface Determine the connection type and channel No. to be used, and Each chapter GOT Side Settings perform the communication setting.
1.1 Setting the Communication Interface Set the communication interface of GOT and the connected equipment. When using the GOT at the first time, make sure to set the channel of communication interface and the communication driver before writing to GOT. Set the communication interface of the GOT at [Controller Setting] and [I/F Communication Setting] in GT Designer3.
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Setting item This section describes the setting items of the Manufacturer, Controller Type, Driver and I/F. When using the channel No.2 to No.4, put a check mark at [Use CH*]. Item Description Use CH* Select this item when setting the channel No.2 to No.4. Manufacturer Select the manufacturer of the equipment to be connected to the GOT.
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(2) Setting [Controller Type] The types for the selection differs depending on the PLC to be used. For the settings, refer to the following. Type Model name Manufacturer NFCP100 YOKOGAWA NFJT100 TSX P57 203M TSX P57 253M TSX P57 303M TSX P57 353M TSX P57 453M 140 CPU 311 10...
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(3) Setting [I/F] The interface differs depending on the GOT to be used. Set the I/F according to the connection and the position of communication unit to be mounted onto the GOT. Extension interface 3rd stage Standard interface 4 (Ethernet interface built in the GOT) Standard interface 1 (RS-232 interface built in the GOT) 2nd stage...
1.1.2 I/F communication setting This function displays the list of the GOT communication interfaces. Set the channel and the communication driver to the interface to be used. Setting Select [Common] [I/F Communication Setting] from the menu. The I/F Communication Setting dialog box appears. Make the settings with reference to the following explanation. 1 - 7 1.
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Setting item The following describes the setting items for the standard I/F setting and extension I/F setting. Item Description Standard I/F setting Set channel No. and drivers to the GOT standard interfaces. Set the CH No. according to the intended purpose. 0: Not used 1 to 4: Used for connecting a controller of channel No.
POINT POINT POINT Channel No., drivers, [RS232 Setting] (1) Channel No.2 to No.4 Use the channel No.2 to No.4 when using the Multi-channel function. For details of the Multi-channel function, refer to the following. Mitsubishi Products 19. MULTI-CHANNEL FUNCTION (2) Drivers The displayed items for a driver differ according to the settings [Manufacturer], [Controller Type] and [I/F].
1.2 Writing the Package Data onto the GOT Write the package data onto the GOT. For details on writing to GOT, refer to the following manual. GT Designer3 (GOT2000) Help 1.2.1 Writing the Package Data onto the GOT Select [Communication] [Write to GOT…] from the menu.
1.2.2 Checking the package data writing on GOT Confirm if the package data is properly written onto the GOT by reading from GOT using GT Designer3. For reading from the GOT, refer to the following manual. GT Designer3 (GOT2000) Help Select [Communication] [Read from GOT…] from the menu.
1.3 Option Devices for the Respective Connection The following shows the option devices to connect in the respective connection type. For the specifications, usage and connecting procedure on option devices, refer to the respective device manual. 1.3.1 Communication module Product name Model Specifications For QCPU (Q mode), motion controller CPU (Q series)
1.3.2 Option unit Product name Model Specifications Multimedia unit GT27-MMR-Z For video input signal (NTSC/PAL) 1 ch, playing movie Video input unit GT27-V4-Z For video input signal (NTSC/PAL) 4 ch RGB input unit GT27-R2-Z For analog RGB input signal 2 ch Video/RGB input unit GT27-V4R1-Z For video input signal (NTSC/PAL) 4 ch, for analog RGB mixed input signal 1 ch...
Installing a unit on another unit (Checking the unit installation position) This section describes the precautions for installing units on another unit. For the installation method of each unit, refer to the following manual. GOT2000 Series User's Manual (Hardware) When using a bus connection unit The installation position varies depending on the bus connection unit to be used.
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When using a MELSECNET/H communication unit, CC-Link IE Controller Network communication unit, or CC-Link communication unit (GT15-J61BT13) Install a MELSECNET/H communication unit, CC-Link IE Controller Network communication unit, or CC-Link communication unit in the 1st stage of an extension interface. If a bus connection unit is installed in the 2nd stage or above, the unit cannot be used.
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When using the video input unit, RGB input unit, video/RGB input unit, RGB output unit, or multimedia unit Install the video input unit, RGB input unit, video/RGB input unit, RGB output unit, or multimedia unit at the 1st stage of the extension interface.
1.4 Connection Cables for the Respective Connection To connect the GOT to a device in the respective connection type, connection cables between the GOT and a device are necessary. For cables needed for each connection, refer to each chapter for connection. 1.4.1 GOT connector specifications The following shows the connector specifications on the GOT side.
1.4.2 Coaxial cableconnector connection method The following describes the method for connecting the BNC connector (connector plug for coaxial cable) and the cable. CAUTION Solder the coaxial cable connectors properly. Insufficient soldering may result in malfunctions. Components of the BNC connector Structure of the coaxial cable External conductor Outer sheath...
1.4.3 Terminating resistors of GOT The following shows the terminating resistor specifications on the GOT side. When setting the terminating resistor in each connection type, refer to the following. RS-422/485 communication unit GT27 Set the terminating resistor using the terminating Set the terminating resistor using the terminating resistor setting switch.
• Channel number of communication interface, communication drivers allocation status • Communication unit installation status For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) After powering up the GOT, touch [GOT basic set] [Controller] from the Utility.
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When setting [Pressing time] to other than 0 second on the setting screen of the utility call key, press and hold the utility call key until the buzzer sounds. For the setting of the utility call key, refer to the following. GOT2000 Series User's Manual (Utility) (3) Communication interface setting by the Utility The communication interface setting can be changed on the Utility's [Communication setting] after writing [Communication Settings] of project data.
Presetting the system alarm to project data allows you to identify errors occurred on the GOT, PLC CPU, servo amplifier and communications. For details on the operation method of the GOT Utility screen, refer to the following manual. GOT2000 Series User's Manual (Utility) Error code Communication Channel No.
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Write data to virtual devices inside GOT (For microcomputer connection) Send a message from the host to the GOT, and confirm that the values are stored in the virtual devices inside the GOT. 2.7 System Configuration Examples) Write command 0100 000A 0163...
1.6.2 Confirming the communication state on the GOT side (For Ethernet connection) ® Confirming the communication state on Windows , GT Designer3 ® (1) When using the Command Prompt of Windows ® Execute a Ping command at the Command Prompt of Windows (a) When normal communication C:\>Ping 192.168.3.18 Reply from 192.168.3.18: bytes=32 time<1ms TTL=64...
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Confirming the communication state on the GOT The Ping test can be confirmed by the Utility screen of the GOT. For the operation method of GOT Utility, refer to the following. GOT2000 Series User's Manual (Utility) 1 - 25 1. PREPARATORY PROCEDURES FOR MONITORING...
1.6.3 Confirming the communication state to each station (Station monitoring function) The station monitoring function detects the faults (communication timeout) of the stations monitored by the GOT. When detecting the abnormal state, it allocates the data for the faulty station to the GOT special register (GS). (1) No.
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(2) Faulty station information The bit corresponding to the faulty station is set. (0: Normal, 1: Abnormal) The bit is reset after the fault is recovered. (a) Ethernet connection (Except for Ethernet multiple connection) GS231 bit 0 GS231 bit 1 GS231 bit 2 GS231 bit 3 Station number...
1.6.4 Check on the PLC Read IC tag (For RFID connection) Read IC tag with a RFID reader/writer and check that the read data are written into the PLC CPU. Detailed settings including sequence programs, device settings and other settings required for monitoring, refer to the following manual.
MICROCOMPUTER CONNECTION (SERIAL) 2.1 Microcomputer Connection (Serial) The "microcomputer connection (Serial)" is a function by which data can be written or read from a PC, Flow of data processing microcomputer board, PLC, etc. (hereinafter referred to as "host") to virtual devices of the GOT. (1) When reading or writing data Interrupt output is also available from the GOT to the host.
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(2) When outputting interrupts Screen data Device data area Screen display (virtual devices) Interrupt(D13) 3139 output value1 output value2 Interrupt output (When the number of interrupt data bytes is 2) Host Data are written to the virtual devices for interrupt output from the touch switches on the GOT.
2.2 System Configuration 2.2.1 For the microcomputer connection (serial) When connecting one GOT Communication driver Host Computer Connection cable Host Connection cable Number of connectable Communication Max. Connection diagram number Option device Model equipment Type distance - (Built into GOT) Differs according to RS-232...
2.3 Connection Diagram The following diagram shows the connection between the 2.3.2 RS-422 cable GOT and the microcomputer. Connection diagram 2.3.1 RS-232 cable (1) RS-422 connection diagram 1) GOT side Host side Connection diagram (1) RS-232 connection diagram 1) Example of the case where the DTR/DSR signal is not used GOT side Host side...
2.4 Device Data Area The following shows a list of virtual devices inside the GOT available in the microcomputer connection (serial), and the address specification values for each data format. The address specification of the virtual devices differs depending on the data format. Address specification value Virtual device Device...
2.4.1 D devices The D devices are word devices into which GOT communication errors, clock data or other information are stored. The user can also store data using the user area. List of D devices The following lists the D devices (virtual devices inside the GOT). Address Description Set side...
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(From previous page) Address Description Set side Clock data (hour) – – Data of hours 00 to 23 stored as 2-digit BCD Unused Clock data (minute) – – Data of minutes 00 to 59 stored as 2-digit BCD Unused Clock data (second) System –...
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(From previous page) Address Description Set side Interrupt output When data are written to D13 and D14 from a GOT touch switch, for example, the data of D13 *1*2 and D14 are transmitted (interrupt output) to the host side. The data amount (number of bytes) to be interrupt-output is set at "Interrupt Data Byte" in "Communication Detail Settings".( 2.6.1 Setting communication interface (Communication settings))
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POINT POINT POINT (1) The side where virtual devices are set System : Set on the system side. User : Set on the user side (by sending request messages from host or using the touch switches, etc. on the GOT). (2) Interrupt output (D13, D14) •...
2.4.2 R devices The R devices are word devices into which user data are stored. All of these devices can be used as a user area. List of R devices and differences in address specification by data format The following shows the R devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
2.4.3 L devices The L devices are bit devices into which user data are stored. All of these devices can be used as a user area. List of L devices and differences in address specification by data format The following shows the L devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
2.4.4 M devices The M devices are bit devices into which user data are stored. All of these devices can be used as a user area. List of M devices and differences in address specification by data format The following shows the M devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
2.4.5 SD devices The SD devices are word devices into which GOT communication errors (error codes), clock data and other information are stored. List of SD devices The following lists the SD devices (virtual devices inside the GOT). Address Description Set side 100ms counter (32bits)
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(From previous page) Address Description Set side Clock data (year) 4-digit year data is stored. Clock data (day of week) System Day-of-the-week data is stored. 0: Sunday 1: Monday 2: Tuesday 3: Wednesday 4: Thursday 5: Friday 6: Saturday ― SD10 to 15 Unused If a wrong day of the week is set by the clock data setting commands, the clock data will differ from the time displayed on the...
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Differences in address specifications by data format The address specification of devices varies depending on the data format. The following shows the address specification values for each data format. Address specification value Address Formats 1, 2 Formats 3 to 6 Formats 7 to 10 Formats 11 to 13 Formats 14, 15...
2.4.6 SM devices The SM devices are bit devices into which interrupt outputs and clock data that turn ON/OFF at 1-second cycles. List of SM devices The following shows the SM devices (virtual devices inside the GOT). Address Description Set side Interrupt output When the ON/OFF state of SM0 to 49 is changed by a touch switch on the GOT, for example, the interrupt...
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Differences in address specifications by data format The address specification of devices varies depending on the data format. The following shows the address specification values for each data format. Address Address specification value Model Format Format Format Format Format 1, 2 3 to 6 7 to 10...
2.5 Message Formats This section describes the format of messages that can be used in the microcomputer connection (serial). 2.5.1 Data format type and application Data format type and application Communication is possible using any of the data formats shown below. (1) Formats 1, 2 (GOT-A900 Series microcomputer connection) This is the same message format as when a microcomputer connection is established with the GOT-A900 series.
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(4) Formats 11 to 13 (Digital Electronics Corporation's memory link method) This is the same format as the protocol of the Digital Electronics Corporation's memory link method. Type Name Description Refer to Digital Electronics Corporation's memory link This is the basic format of the Digital Electronics Corporation's memory link Format 11 method method.
2.5.2 List of commands The following shows the list of commands available in each data format. List of commands for formats 1, 2 (GOT-A900 Series microcomputer connection) Command Max. number of points Command name Description ASCII processed Symbol code Reads bit devices in 16-point units.
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Command lists for formats 7 to 10 (QnA compatible 3C/4C frame) Sub- Max. number of points Command Command name Description command processed Batch read 0401 0001 Reads bit devices in 1-point units. 64 points in bit units 64 words (1024 points) Reads bit devices in 16-point units.
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List of commands for formats 14, 15 (GOT-F900 series microcomputer connection) Command Max. number of points Command name Description ASCII processed Symbol code Reads bit devices in byte units. 255bytes (2040 points) Batch read (w/out station No.) Reads word devices in byte units. 255bytes (127 points) Reads bit devices in byte units.
2.5.3 Formats 1, 2 (GOT-A900 Series microcomputer connection) Basic format of data communication Item Message format Command Data Check Request message (host GOT) Sum check is performed in this range. (1) During processing of read commands Data Check Response message during normal Sum check is performed in this range.
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Details of data items in message format POINT POINT POINT Data code during communication Communication is performed in ASCII code. (excluding interrupt output) (1) Control codes Symbol ASCII code Description Start of Text (start marker of message frame) End of Text (end marker of message frame) End of Transmission Enquiry (start of enquiry) Negative ACK (error response)
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(8) Sum check code The sum check code is obtained by converting the lower 1 byte (8 bits) of the result (sum), after having added the sum check target data as binary data, to 2-digit ASCII code (Hex). Number of Command Address points...
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Message Formats (1) Batch read in word units (RD) command (a) When reading a word device The following shows an example of reading the two points of the virtual devices D100 and D101. (Assuming D100=0102 , D101=0304 are stored.) D100 0102 D101...
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(b) When reading a bit device The following shows an example of reading the two points of the virtual devices M0 to M31. (Assuming M0="1" and M31="1" are stored. M15 to 0 0001 M31 to 6 8000 Item Message format Number of Command Address...
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(2) Batch write in word units (WD) command (a) When writing to a word device The following shows as example of writing "0064 "and "0065 "to virtual devices D100 and D101. D100 0000 D100 0064 D101 0000 D101 0065 Before execution After execution Item Message format...
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(b) When writing to a bit device The following shows an example of writing "1"s to virtual devices M0 and M31. 0000 0001 M15 to 0 M15 to 0 M31 to 16 0000 M31 to 16 8000 Before execution After execution Item Message format Sum check is performed in this range.
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(3) Random read in word units (RR) command The following shows an example of reading the two points of the virtual devices D100 and M0 to M15. (Assuming D100=0064 , M0=1are stored.) D100 0064 M15 to 0 0001 Item Message format Command Address 1 Address 2...
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(4) Random write in word units (RW) command The following shows an example of writing "0064 " and "1" to virtual devices D100 and M0, respectively. D100 0000 D100 0064 M15 to 0 0000 M15 to 0 0001 Before execution After execution Item Message format...
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(5) Read clock data (TR) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2004, June 1, 18:46:49, Tuesday".) Time display 2004/06/01 18:46:49 Item Message format Command Check Request message...
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(6) Set clock data (TS) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2004, June 1, 18:46:49 Tuesday".) Time display 2004/06/01 18:46:49 After execution Item Message format Second...
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(7) In the case of interrupt outputs The following shows an example of an interrupt output when data are written to the interrupt output devices (D13 and D14). (Assuming that "3139 " is written to D13 and "AA55 " to D14.) Example: When the number of interrupt data bytes is 2 3139 Interrupt...
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POINT POINT POINT Interrupt output • To disable the interrupt output, turn ON SM52 (interrupt code output disable flag). ( 2.4.6 SM devices) • To enable the interrupt output, set 8 bits to the data length at "Communication Detail Settings". 2.6.1 Setting communication interface (Communication settings)) •...
2.5.4 Formats 3 to 6 (A compatible 1C frame) Basic format of data communication This is the same message format as when communication is performed using the dedicated protocol (A compatible 1C frame) of the A Series computer link module. For details of the basic format of data communication, refer to the following manual: MELSEC-Q/L MELSEC Communication Protocol Reference Manual This section describes items whose settings differ from the dedicated protocol of the A Series computer link modules,...
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(4) Address Specifies the head No. of the device data to be read/written. The data annotated in decimal is converted to a 5- or 7-digit ASCII code (Hex) and transmitted from the upper digit. For details of the device range that can be accessed, refer to the following. 2.4 Device Data Area (5) Number of points Specifies the number of device data to be read/written.
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Message format The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Read clock data (TR) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2004, June 1, 18:46:49, Tuesday".) Time display 2004/06/01 18:46:49 Item...
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(2) Set clock data (TS) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2004, June 1, 18:46:49 Tuesday".) Time display 2004/06/01 18:46:49 After execution Item Message format Example: Format 3 (A compatible 1C frame (format 1))
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Error code list The following shows error code, error contents, cause, and measures. Error code Description Action • Check the communication cable and communication module attachment. Parity error • Check the settings of "Communication Detail Settings". The parity bit does not match. •...
2.5.5 Formats 7 to 10 (QnA compatible 3C/4C frame) Basic format of data communication This is the same message format as when communication is performed using the MC protocol (QnA compatible 3C/ 4C frame) of the Q/QnA Series serial communication module. For details of the basic format of data communication, refer to the following manual: MELSEC-Q/L MELSEC Communication Protocol Reference Manual This section describes items whose settings differ from the MC protocol of the Q/QnA Series serial communication...
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Details of data items in message format POINT POINT POINT Data code during communication Communication is performed in ASCII code. (1) Block No., network No., PLC No., request destination module I/O No. and station No. Ignored in a microcomputer connection of the GOT. Specify "00".
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(7) Year, month, day, hour, minute, second and day of the week data Specifies year, month, day, hour, minute, second, and day of the week to be read/set to the GOT clock data. The address notated in decimal is converted to a 2-digit ASCII code (Hex) and transmitted from the upper digit. ■...
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Message format The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Read clock data (1901) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2004, June 1, 18:46:49, Tuesday".) Time display 2004/06/01 18:46:49 Item...
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(From previous page) Item Message format Example: Format 7 (QnA compatible 4C frame (format 1)) Host Frame ID Network Request destination Request destination Station No. PLC No. module station No. Address No. module I/O No. Following – – Response message during faulty communication (GOT...
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(2) Set clock data (0901) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2004, June 1, 18:46:49 Tuesday".) Time display 2004/06/01 18:46:49 After execution Item Message format Example: Format 7 (QnA compatible 4C frame (format 1))
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(From previous page) Item Message format Example: Format 7 (QnA compatible 4C frame (format 1)) Host Frame ID Network Request destination Request destination Station No. PLC No. Address No. module I/O No. module station No. Following – – Response message during faulty communication (GOT...
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Error code list The following shows error code, error contents, cause, and measures. Error code Description Action • Review the contents of the message to transmit. Command error • Check the commands in the message. 7E40 An unsupported command or sub-command was used. 2.5.2 List of commands) Data length error 7E41...
2.5.6 Formats 11 to 13 (Digital Electronics Corporation's memory link method) Basic format of data communication This is the same format as the protocol of the Digital Electronics Corporation's memory link method. For details of the basic format of data communication, refer to the following manual: The connection manual of the device manufactured by Digital Electronics Corporation This section describes items whose settings differ from the protocols of the Digital Electronics Corporation's memory link method and dedicated commands for a microcomputer connection of GOT.
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Details of data items in message format POINT POINT POINT Data code during communication Communication is performed in ASCII code. (1) Command Specifies the contents to access from the host to GOT. The command is converted to a 1-digit ASCII code (Hex) and transmitted. For details of the commands that can be used, refer to the following.
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Message format The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Read clock data (N) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2004, June 1, 18:46:49, Tuesday".) Time display 2004/06/01 18:46:49 Item...
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(From previous page) Item Message format Example: Format 13 (Digital Electronics Corporation's memory link method (extended mode, ASCII code 1:n)) • Digital compatible signal (GS580 to GS583): OFF (Partly compatible) Com- Station No. Check mand Following This range Sum check Second Day-of- Year data...
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(2) Set clock data (M) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2004, June 1, 18:46:49 Tuesday".) Time display 2004/06/01 18:46:49 After execution Item Message format Example: Format 13 (Digital Electronics Corporation's memory link method (extended mode, ASCII code 1:n))
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(From previous page) Item Message format Example: Format 13 (Digital Electronics Corporation's memory link method (extended mode, ASCII code 1:n)) Station No. Error code Response message during faulty communication (GOT host) The above is a case where the sum check error (06 ) has occurred.
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(3) In the case of interrupt inquiry The following shows an example of an interrupt inquiry when data are written to the interrupt output devices (D13 and D14). (Assuming that "3139 " is written to D13 and "AA55 " to D14.) Example: When the number of interrupt data bytes is 2 in format 11 3139 Interrupt...
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(From previous page) Item Message format Example: Format 13 (Digital Electronics Corporation's memory link method (extended mode, ASCII code 1:n)) (1) When [Interrupt Data Byte] in "Communication Detail Settings" is set to "1 byte" Output Com- Station No. mand value 1 Check This range Sum check is performed.
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Error code list In the case of formats 12 and 13 (Digital Electronics Corporation's memory link method (extended mode)), the details (error code) of the error are appended to the response message during faulty communication. The following shows error code, error contents, cause, and measures. Error code Description Action...
2.5.7 Formats 14, 15 (GOT-F900 Series microcomputer connection) Basic format of data communication Item Message format (format 15: GOT-F900 Series microcomputer connection (format (format 14: GOT-F900 Series microcomputer connection (format (1) w/out station No. (1) w/out station No. Com- Com- Data Data...
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Details of data items in message format POINT POINT POINT Data code during communication Communication is performed in ASCII code. (excluding interrupt output) (1) Control codes Symbol ASCII code Description Start of Text (start marker of message frame) End of Text (end marker of message frame) End of Transmission Enquiry (start of enquiry) Negative ACK (error response)
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(7) Number of bytes Specifies the number of bytes of the device data to be batch read/written.(Setting range: 0 to FF The address notated in hexadecimal is converted to a 2-digit ASCII code (Hex) and transmitted from the upper digit. (8) Number of points Specifies the number of device data to be written to multiple points in bit units.(Setting range: 0 to 70) The address notated in decimal is converted to a 2-digit ASCII code (Hex) and transmitted from the upper digit.
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Message format (1) Batch read (0) command (w/out station No.), batch read (A) command (w/station No.) (a) When reading a word device The following shows an example of reading four bytes of virtual devices R100 to R101 from the GOT at station No.15.
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(b) When reading a bit device The following shows an example of reading four bytes of the virtual devices M0 to M31. (Assuming M0="1" and M31="1" are stored. M15 to 0 0001 M31 to 16 8000 Item Message format (format 14: GOT-F900 Series microcomputer connection (format 1)) Com- Number of Station No.
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(2) Batch write (1) command (w/out station No.), batch write (B) command (w/station No.) (a) When writing to a word device The following shows an example of writing "0064 " and "0065 " to virtual devices R100 and R101 on the GOT at station No.15.
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(b) When writing to a bit device The following shows an example of writing "1"s to virtual devices M0 and M31 on the GOT at station No.15. M15 to 0 0000 M15 to 0 0001 0000 8000 M31 to 16 M31 to 16 Before execution After execution...
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(3) Multi-point write in bit units (3) command (w/out station No.), multi-point write in bit units (D) command (w/ station No.) The following shows an example of turning OFF the virtual device M31 and turning ON the virtual device M2038 on the GOT at station No.31.
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The write specification specifies how the data of the specified address is changed in the bit pattern. Write Function Description Action example specification Original data 1010 Bits set to "1" by the bit pattern are turned ON. Bit pattern 1100 specification Result 1110...
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(4) Fill command (4) (w/out station No.), fill command (E) (w/station No.) The following shows an example of writing "16"s to virtual devices R50 to R100 on the GOT at station No.27. 0000 1616 0000 1616 R100 0000 R100 1616 Before execution After execution Item...
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(5) Read clock data (6) command (w/out station No.), read clock data (G) command (w/station No.) The following shows an example of reading the clock data of GOT at station No.27. (Assuming that the clock data of GOT has been set to "2004, June 1, 18:46:49, Tuesday".) Time display 2004/06/01 18:46:49 Item...
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(6) Set clock data (5) command (w/out station No.), set clock data (F) command (w/station No.) The following shows an example of setting clock data of GOT at station No.27. (Assuming the clock data of GOT is to be set to "2004, June 1, 18:46:49 Tuesday".) Time display 2004/06/01 18:46:49 After execution...
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(7) In the case of interrupt outputs The following shows an example of an interrupt output when data are written to the interrupt output devices (D13 and D14). (Assuming that "3139 " is written to D13 and "AA55 " to D14.) Example: When the number of interrupt data bytes is 2 3139 Interrupt...
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Error code list When faulty, the error code is stored in SD2. For details of error code stored in SD2, the error contents, cause and measures, refer to the following: 2.4.5 ■ Details and actions for errors (error codes) stored into SD2 When an error other than those to be stored in SD2 occurs, at faulty, only the NAK response is executed.
2.6 GOT Side Settings 2.6.1 Setting communication 2.6.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Controller setting Set the channel of the equipment to be connected to the GOT. Item Description Range 4800bps, Set this item when change the 9600bps,...
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POINT POINT POINT (1) Special Interrupt Code The following shows the compatibility between the special interrupt codes and the event types. Special Interrupt Code Event type (Hex) Base Screen and Overlap Window Output when the screens are switched according to the change in the switching device values assigned to 1/2.
2.7 System Configuration Examples The following shows a system configuration example in the case of the microcomputer connection (serial). (2) Monitor screen settings The following shows the monitor screen settings in this System configuration system configuration example. The system configuration example illustrated below is (a) Common settings explained in this section.
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Numerical display (b) Monitor screen image Create the following screens by GT Designer3. Basic Settings Device/Style Base screen 1 Device Data Type Format Number Size Digits Unsigned BIN16 Signed Decimal Arbitrary Sample Screen 1 Touch switch Basic Settings Action Screen 2 Data Setting Action...
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Displays the send packet structure of the screen 1 batch switching Outline of system operation write packet. The following describes the processing on the host Number of Command Address Data 1 (D20) points Check side, display/processing on the GOT side, and data transfer packets.
2.8 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
2.9 Precautions GOT clock control The settings of "time adjusting" or "time broadcast" made on the GOT will be disabled on the PLC. Use the dedicated commands to set or read out the clock data of microcomputer. 2 - 79 2.
MICROCOMPUTER CONNECTION (ETHERNET) 3.1 Microcomputer connection (Ethernet) The "microcomputer connection (Ethernet)" is a function by which data can be written or read from a PC, microcomputer board, PLC, etc. (hereinafter referred to as "host") to virtual devices of the GOT after connecting the host to the GOT with the Ethernet.
3.3 Device Data Area The following shows a list of virtual devices inside the GOT available in the microcomputer connection (Ethernet), and the address specification values for each data format. The address specification of the virtual devices differs depending on the data format. Address specification value Virtual device Device...
3.3.1 D devices The D devices are word devices into which GOT communication errors, clock data or other information are stored. The user can also store data using the user area. List of D devices The following lists the D devices (virtual devices inside the GOT). Address Description Set side...
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(From previous page) Address Description Set side Clock data (hour) – – Data of hours 00 to 23 stored as 2-digit BCD Unused Clock data (minute) – – Data of minutes 00 to 59 stored as 2-digit BCD Unused Clock data (second) System –...
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(From previous page) Address Description Set side Interrupt output When data are written to D13 and D14 from a GOT touch switch, for example, the data of D13 and D14 are *1*2 transmitted (interrupt output) to the host side. The data amount (number of bytes) to be interrupt-output is set at "Interrupt Data Byte" in "Communication Detail Settings".
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Differences in address specifications by data format The address specification of devices varies depending on the data format. The following shows the address specification values for each data format. Address specification value Address Format Format Format Format 1, 2 3, 4 6 to 9 8000...
3.3.2 R devices The R devices are word devices into which user data are stored. All of these devices can be used as a user area. List of R devices and differences in address specification by data format The following shows the R devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
3.3.3 L devices The L devices are bit devices into which user data are stored. All of these devices can be used as a user area. List of L devices and differences in address specification by data format The following shows the L devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
3.3.4 M devices The M devices are bit devices into which user data are stored. All of these devices can be used as a user area. List of M devices and differences in address specification by data format The following shows the M devices (virtual devices inside the GOT). The address specification values different depending on the data format are also given below.
3.3.5 SD devices The SD devices are word devices into which GOT communication errors (error codes), clock data and other information are stored. List of SD devices The following lists the SD devices (virtual devices inside the GOT). Address Description Set side 100ms counter (32bits)
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(From previous page) Address Description Set side Clock data (year) 4-digit year data is stored. Clock data (day of week) System Day-of-the-week data is stored. 0: Sunday 1: Monday 2: Tuesday 3: Wednesday 4: Thursday 5: Friday 6: Saturday ― SD10 to 15 Unused If a wrong day of the week is set by the clock data setting commands, the clock data will differ from the time displayed on the...
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Differences in address specifications by data format The address specification of devices varies depending on the data format. The following shows the address specification values for each data format. Address specification value Address Formats 1, 2 Formats 5 Formats 6 to 9 Formats 3, 4 2100 2100...
3.3.6 SM devices The SM devices are bit devices into which interrupt outputs and clock data that turn ON/OFF at 1-second cycles. List of SM devices The following shows the SM devices (virtual devices inside the GOT). Address Description Set side Interrupt output When the ON/OFF state of SM0 to 49 is changed by a touch switch on the GOT, for example, the interrupt...
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Differences in address specifications by data format The address specification of devices varies depending on the data format. The following shows the address specification values for each data format. Address Address specification value Format3, 4 Format Format Format When GS580.b8, When GS580.b8, 1, 2 6 to 9...
3.4 Message Formats This section describes the format of messages that can be used in the microcomputer connection (Ethernet). 3.4.1 Data format type and application Data format type and application Communication is possible using any of the data formats shown below. (1) Formats 1, 2 (GOT-A900 Series microcomputer connection) This is the same message format as when a microcomputer connection is established with the GOT-A900 series.
3.4.2 List of commands The following shows the list of commands available in each data format. List of commands for formats 1, 2 (GOT-A900 Series microcomputer connection) Command Max. number of points Command name Description ASCII processed Symbol code Reads bit devices in 16-point units.
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List of commands for formats 5 (Digital Electronics Corporation's memory link method) Command Max. number of points Command name Description ASCII processed Symbol code Reads bit devices in 16-point units. 64 words (1024 points) Batch read in word units Reads word devices in 1-point units.
3.4.3 Formats 1, 2 (GOT-A900 Series microcomputer connection) Basic format of data communication Item Message format Command Data Request message (host GOT) (1) During processing of read commands Data Response message during normal communication (2) During processing of write commands (GOT host) Error...
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Details of data items in message format POINT POINT POINT Data code during communication Communication of the format 1 is performed in ASCII code. (excluding interrupt output) Communication of the format 2 is performed in Binary code. (1) Control codes Symbol ASCII code Description...
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Message Formats (1) Batch read in word units (RD) command (a) When reading a word device The following shows an example of reading the two points of the virtual devices D100 and D101. (Assuming D100=0102 , D101=0304 are stored.) D100 0102 D101...
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(b) When reading a bit device The following shows an example of reading the two points of the virtual devices M0 to M31. (Assuming M0="1" and M31="1" are stored.) M15 to 0 0001 M31 to 6 8000 Item Message format (format 1: GOT-A900 Series microcomputer connection (ASCII)) Number of Command...
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(2) Batch write in word units (WD) command (a) When writing to a word device The following shows as example of writing "0064 "and "0065 "to virtual devices D100 and D101. D100 0000 D100 0064 D101 0000 D101 0065 Before execution After execution Item Message format...
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(b) When writing to a bit device The following shows an example of writing "1"s to virtual devices M0 and M31. 0000 0001 M15 to 0 M15 to 0 M31 to 16 0000 M31 to 16 8000 Before execution After execution Item Message format (format 1: GOT-A900 Series microcomputer connection (ASCII))
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(3) Random read in word units (RR) command The following shows an example of reading the two points of the virtual devices D100 and M0 to M15. (Assuming D100=0064 , M0=1are stored.) D100 0064 M15 to 0 0001 Item Message format (format 1: GOT-A900 Series microcomputer connection (ASCII)) Command Address 1...
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(4) Random write in word units (RW) command The following shows an example of writing "0064 " and "1" to virtual devices D100 and M0, respectively. D100 0000 D100 0064 M15 to 0 0000 M15 to 0 0001 Before execution After execution Item Message format...
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(5) Read clock data (TR) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2009, October 1, 18:46:49, Thursday".) Time display 2009/10/01 18:46:49 Item Message format Command Request message (host...
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(6) Set clock data (TS) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2009, October 1, 18:46:49 Thursday".) Time display 2009/10/01 18:46:49 After execution Item Message format (format 1: GOT-A900 Series microcomputer connection (ASCII))
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(7) In the case of interrupt outputs The following shows an example of an interrupt output when data are written to the interrupt output devices (D13 and D14). (Assuming that "3139 " is written to D13 and "AA55 " to D14.) Example: When the number of interrupt data bytes is 2 3139 Interrupt...
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Error code list The error contents (error code) are appended to the response message during faulty communication. The following shows error code, error contents, cause, and measures. Error code Description Action • Review the contents of the message to transmit. Command error •...
3.4.4 Formats 3, 4 (GOT-F900 series microcomputer connection) Basic format of data communication Item Message format (1) w/out station No. Com- Data mand Request message (host GOT) (2) w/station No. Com- Station No. Data mand (1) During processing of read commands Data Response message during normal...
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Details of data items in message format POINT POINT POINT Data code during communication Communication of the format 3 is performed in ASCII code. (excluding interrupt output) Communication of the format 4 is performed in Binary code. (1) Control codes Symbol ASCII code Description...
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(6) Write specification Specifies how to change the data of the specified address by bit pattern. (Setting range: 0 to 3) Data notated in decimal is converted to a 1-digit ASCII code (Hex) and transmitted. ■ Message format (3) Multi-point write in bit units (3) command (w/out station No.), multi-point write in bit units (D) command (w/ station No.) (7) Number of bytes Specifies the number of bytes of the device data to be batch read/written.
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Message format (1) Batch read (0) command (w/out station No.), batch read (A) command (w/station No.) (a) When reading a word device The following shows an example of reading four bytes of virtual devices R100 to R101 from the GOT at station No.15.
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(b) When reading a bit device The following shows an example of reading four bytes of the virtual devices M0 to M31. (Assuming M0="1" and M31="1" are stored.) M15 to 0 0001 M31 to 16 8000 Item Message format (format 3: GOT-F900 Series microcomputer connection (ASCII)) Com- Number of Station No.
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(2) Batch write (1) command (w/out station No.), batch write (B) command (w/station No.) (a) When writing to a word device The following shows an example of writing "3D21 " and "3604 " to virtual devices R100 and R101 on the GOT at station No.15.
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(b) When writing to a bit device The following shows an example of writing "1"s to virtual devices M0 and M31 on the GOT at station No.15. M15 to 0 0000 M15 to 0 0001 0000 8000 M31 to 16 M31 to 16 Before execution After execution...
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(3) Multi-point write in bit units (3) command (w/out station No.), multi-point write in bit units (D) command (w/ station No.) The following shows an example of turning OFF the virtual device M31 and turning ON the virtual device M2038 on the GOT at station No.31.
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The write specification specifies how the data of the specified address is changed in the bit pattern. Write Function Description Action example specification Original data 1010 Bits set to "1" by the bit pattern are turned ON. Bit pattern 1100 specification Result 1110...
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(4) Fill command (4) (w/out station No.), fill command (E) (w/station No.) The following shows an example of writing "16"s to virtual devices R50 to R100 on the GOT at station No.27. 0000 1616 0000 1616 R100 0000 R100 1616 Before execution After execution Item...
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(5) Read clock data (6) command (w/out station No.), read clock data (G) command (w/station No.) The following shows an example of reading the clock data of GOT at station No.27. (Assuming that the clock data of GOT has been set to "2009, October 1, 18:46:49, Thursday".) Time display 2009/10/01 18:46:49 Item...
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(6) Set clock data (5) command (w/out station No.), set clock data (F) command (w/station No.) The following shows an example of setting clock data of GOT at station No.27. (Assuming the clock data of GOT is to be set to "2009, October 1, 18:46:49 Thursday".) Time display 2009/10/01 18:46:49 After execution...
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(7) In the case of interrupt outputs The following shows an example of an interrupt output when data are written to the interrupt output devices (D13 and D14). (Assuming that "3139 " is written to D13 and "AA55 " to D14.) Example: When the number of interrupt data bytes is 2 3139 Interrupt...
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Error code list When faulty, the error code is stored in SD2. For details of error code stored in SD2, the error contents, cause and measures, refer to the following: 3.3.5 ■ Details and actions for errors (error codes) stored into SD2 When an error other than those to be stored in SD2 occurs, at faulty, only the NAK response is executed.
3.4.5 Formats 5(Digital Electronics Corporation's memory link method) Basic format of data communication This is the same format as the protocol of the Digital Electronics Corporation's memory link method. For details of the basic format of data communication, refer to the following manual: The connection manual of the device manufactured by Digital Electronics Corporation This section describes items whose settings differ from the protocols of the Digital Electronics Corporation's memory link method and dedicated commands for a microcomputer connection of GOT.
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POINT POINT POINT When connecting a microcomputer, etc. that uses the protocol of the Digital Electronics Corporation's memory link method with the GOT When connecting a microcomputer, etc. that uses the protocol of the Digital Electronics Corporation's memory link method with the GOT, correct the commands to be used and the device ranges to match the specifications of the GOT.
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Message Formats The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Batch read in word units (R) command The following shows an example of reading the two points of the virtual devices D100 and D101. (Assuming D100=0102 , D101=0304 are stored.)
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(3) In the case of interrupt outputs The following shows an example of an interrupt output when data are written to the interrupt output devices (D13). (Assuming that "31 " is written to D13.) Example: When the number of interrupt data bytes is 1 Interrupt Interrupt output Output...
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Error code list In the case of format 5 (Digital Electronics Corporation's memory link method), the details (error code) of the error are appended to the response message during faulty communication. The following shows error code, error contents, cause, and measures. Error code Description Action...
3.4.6 Formats 6, 7 (4E frame) Basic format of data communication This is the same message format as when communication is performed using the MC protocol (4E frame) of the Q/ QnA Series serial communication module. For details of the basic format of data communication, refer to the following manual: MELSEC-Q/L MELSEC Communication Protocol Reference Manual This section describes items whose settings differ from the MC protocol of the Q/QnA Series serial communication module, and the dedicated commands for a GOT microcomputer connection.
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The following table shows the contents of the data items. Contents Data item name Format 6 Format 7 Request type Indicates it is a command message. (Microcomputer Command message: ASCII "5400" (Fixed value) Command message: 54 (Upper digit) (Fixed value) side) Indicates it is a response message.
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(From previous page) Contents Data item name Format 6 Format 7 Specifies the head No. of the device data to be read/written. For details of the device range that can be accessed, refer to the following. 3.3 Device Data Area Head device Transmit the data notated in decimal converted to a 6-digit Transmit the data converted to a 6-digit binary code from the lower...
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Message format The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Read clock data (1901) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2009, October 1, 18:46:49, Thursday".) Time display 2009/10/01 18:46:49 Item...
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(From previous page) Item Message format (format 6:4E frame (ASCII)) Network Response type Serial No. Fixed value PLC No. Following – – – – – – Request destination Request destination Response data length End code module I/O No. module station No. –...
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(From previous page) Item Message format (format 6:4E frame (ASCII)) Network PLC No. Response type Serial No. Fixed value Following – – – – – – Request destination Request destination Response data length End code module I/O No. module station No. –...
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(2) Set clock data (0901) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2009, October 1, 18:46:49 Thursday".) Time display 2009/10/01 18:46:49 After execution Item Message format (format 6:4E frame (ASCII))
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(From previous page) Item Message format (format 6:4E frame (ASCII)) Network PLC No. Response type Serial No. Fixed value Following – – – – – – Request destination Request destination Response message Response data length End code module I/O No. module station No.
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(From previous page) Item Message format (format 6:4E frame (ASCII)) Network Response type Serial No. Fixed value PLC No. Following – – – – – – Request destination Request destination Response data length End code module I/O No. module station No. –...
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Error code list The following shows error code, error contents, cause, and measures. Error code Description Action • Check the specified head device and number of points, and correct it. Device point error 0002 The specification of device range to read/write has error. 3.3 Device Data Area) Request (command)/Response (response) type code error •...
3.4.7 Formats 8, 9 (QnA compatible 3E frame) Basic format of data communication This is the same message format as when communication is performed using the MC protocol (QnA compatible 3E frame) of the Q/QnA Series serial communication module. For details of the basic format of data communication, refer to the following manual: MELSEC-Q/L MELSEC Communication Protocol Reference Manual This section describes items whose settings differ from the MC protocol of the Q/QnA Series serial communication...
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The following table shows the contents of the data items. Contents Data item name Format 8 Format 9 Subheader Indicates it is a command message. (Microcomputer Command message: ASCII "5000" (Fixed value) Command message: 50 (Upper digit) (Fixed value) side) Indicates it is a response message.
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(From previous page) Contents Data item name Format 8 Format 9 Specifies the number of device data to be read/written. (Setting range: 1 to 40 <When using random read/write command> When setting multiple bit accesses, word accesses or double word accesses, limit the total number of access points to within 64 points. <When using multiple block batch read/write commands>...
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Message format The following shows the message format of the dedicated commands for a microcomputer connection of GOT. (1) Read clock data (1901) command The following shows an example of reading the clock data of GOT. (Assuming that the clock data of GOT has been set to "2009, October 1, 18:46:49, Thursday".) Time display 2009/10/01 18:46:49 Item...
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(From previous page) Item Message format (format 8:QnA compatible 3E frame (ASCII)) Request Network Request destination destination PLC No. Subheader Response data length module I/O No. module station No. Following – – – – – – Character B section Second Day-of- Year data Month data...
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(From previous page) Item Message format (format 8:QnA compatible 3E frame (ASCII)) Request Network Request destination destination PLC No. Response data length Subheader module I/O No. module station No. Following – – – – – – Request Network Request destination destination End code PLC No.
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(2) Set clock data (0901) command The following shows an example of setting the clock data of GOT. (Assuming the clock data of GOT is to be set to "2009, October 1, 18:46:49 Thursday".) Time display 2009/10/01 18:46:49 After execution Item Message format (format 8:QnA compatible 3E frame (ASCII))
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(From previous page) Item Message format (format 8:QnA compatible 3E frame (ASCII)) Request Network Request destination PLC No. destination Subheader module I/O No. module station No. Following – – – – Response data length End code Response message during normal communication –...
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(From previous page) Item Message format (format 8:QnA compatible 3E frame (ASCII)) Request Network Request destination destination PLC No. Response data length Subheader module I/O No. module station No. Following – – – – – – Request Request destination Network destination End code PLC No.
3.5 GOT Side Settings 3.5.1 Setting communication 3.5.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Set the channel of the equipment to be connected to the GOT. Item Description Range Set the network No. of the GOT NET No.
For details on the Utility, refer to the following 1024 to 5010. manual. 5014 to Set the GOT port No. for the 65534 GOT2000 Series User's Manual (Utility) transparent function. (Except for Transparent Port No. (Default: 5014) 5011, 5012, (2) Precedence in communication settings...
3.6 System Configuration Examples The following shows a system configuration example in the case of the microcomputer connection (Ethernet). System configuration The system configuration example illustrated below is explained in this section. IBM-PC/AT-compatible PC ® ® (Microsoft Visual C++ Ver.6.0) ...
3.7 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
3.8 Precautions GOT clock control The settings of "time adjusting" or "time broadcast" made on the GOT will be disabled on the PLC. Use the dedicated commands to set or read out the clock data of microcomputer. UDP/IP connection When the commands are sent from multiple controllers simultaneously, the GOT may not receive all the commands.
Thus, the GOT can be connected with each MODBUS slave. ® For applicable MODBUS /RTU equipment, refer to the following Technical News. List of Valid Devices Applicable for GOT2000 Series with MODBUS Connection (GOT-A-0037) 4 - 2 4. MODBUS(R)/RTU CONNECTION 4.1 Connectable Model List...
/RTU equipment side is prioritized. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. ® When it is less than 31 units, the number of the maximum connectable units on the MODBUS /RTU equipment side will apply.
4.3 Connection Diagram The following diagram shows the connection between the GOT and the PLC. 4.3.1 RS-232 cable Connection diagram (1) RS-232 connection diagram 1) GOT side MODBUS equipment side RD(RXD) SD(TXD) ER(DTR) DR(DSR) RS(RTS) CS(CTS) ® Some MODBUS /RTU equipment require the control line (CS, RS, etc.) to be controlled.
4.3.2 RS-422/485 cable The following shows the connection diagrams and connector specifications of the RS-422/485 cable used for connecting the GOT to a PLC. (1) RS-422/485 cable 1) (2 pair wiring) *1*2*4 *1*2*4 ® ® CON side(20 pin) MODBUS /RTU equipment side MODBUS /RTU equipment side SDA1(TXD1+) *5...
(2) RS-422/485 cable 1) (1 pair wiring) ® *1*2*4 ® *1*2*4 CON side(20 pin) MODBUS /RTU equipment side MODBUS /RTU equipment side SDA1(TXD1+) *5 SDB1(TXD1-) *5 RDA1(RXD1+) RDB1(RXD1-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) ® The actual terminal layout on the MODBUS /RTU equipment may differ from the example shown above.
(4) RS-422/485 connection diagram 3) ® *1*2*4 ® *1*2*4 MODBUS /RTU equipment side MODBUS /RTU equipment side GOT side (terminal block) (1st) (2nd) SDA1 SDB1 RDA1 RDB1 SDA2 SDB2 RDA2 RDB2 ® The actual terminal layout on the MODBUS /RTU equipment may differ from the example shown above. SDA/B(+/-) and RDA/ ®...
4.4 GOT Side Settings 4.4.1 Setting communication 4.4.2 Communication detail settings interface (Communication Make the settings according to the usage environment. settings) Set the channel of the equipment to be connected to the GOT. Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps,...
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[Communication Settings] of project data. For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) (2) Precedence in communication settings When settings are made by GT Designer3 or the Utility, the latest setting is effective.
4.5 MODBUS(R)/RTU Equipment Side Setting Function Code POINT POINT POINT The GOT supports the following function codes. ® MODBUS /RTU equipment Number of device ® For details of the MODBUS /RTU equipment, refer to that is accessible ® the manual of MODBUS /RTU equipment to be used.
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Address MODBUS communication control function on the GS device GT Designer3 converts the device numbers into decimal format according to the address map of the (1) Function overview ® MODBUS /RTU equipment to be used. This function is to prevent the communication response The table below shows the representations on the delay that occurs because the devices on the ®...
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(a) When sharing communication settings between multiple channel numbers The table below shows the settings for the GS device. GS device Description Set value Bit0: Using Function Code "0F" Not using Function Code "0F" GS570 Command selection Bit1: Using Function Code "10" Not using Function Code "10"...
4.5.2 Station number setting ® In the MODBUS network, a maximum of 31 MODBUS RTU equipment can be connected to one GOT. Assign a non-overlapped station number ranging from 1 to ® 247 arbitrarily to each MODBUS /RTU equipment. ® In the system configuration, the MODBUS /RTU equipment with the station number set with the host...
Thus, the GOT can be connected with each MODBUS /TCP slave. ® For applicable MODBUS /TCP equipment, refer to the following Technical News. List of Valid Devices Applicable for GOT2000 Series with MODBUS Connection (GOT-A-0037) 5 - 2 5. MODBUS(R)/TCP CONNECTION 5.1 Connectable Model List...
5.2 System Configuration 5.2.1 Connecting to MODBUS(R)/TCP equipment MODBUS ® /TCP equipment Connection cable Connection cable Connection cable Connection cable Commun External Number of connectable Maximum Maximum Controller ication Option device equipment segment segment Cable model Cable model Type device model length length...
5.3 GOT Side Settings 5.3.1 Setting communication 5.3.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Set the channel of the equipment to be connected to the GOT. Item Description Range Set the network No. of the GOT. GOT Net No.
Utility's [Communication setting] after writing [Communication Settings] of project data. For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) Item Description Range Set the IP address of the GOT. 0.0.0.0 to...
POINT POINT Changing the host with GOT module The host can be changed by the GOT module Utility. For details of settings, refer to the following. GOT2000 Series User's Manual (Utility) Item Description Range The host is displayed.(The host is ―...
5.4 MODBUS(R)/TCP Equipment Setting ® ® For details of the MODBUS /TCP equipment, refer to the manual of MODBUS /RTU equipment to be used. 5.5 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3.
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Device No. Device name Setting range representation Coils (0) 000001 065536 Decimal 100001 165536 Discretes input (1) 300001 365536 Input registers (3) Holding registers (4) 400001 465536 Decimal File No.: 0 to104 Extension file register (6) 600000 609999 Only reading is possible. POINT POINT POINT...
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MODBUS communication control function on the GS device (1) Function overview This function is to prevent the communication response delay that occurs because the devices on the MODBUS network differ from each other in network specification. This function is effective for the MODBUS network conditions as described below: When only a part of function codes is supported (Example: "0F"...
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(a) When sharing communication settings between multiple channel numbers The table below shows the settings for the GS device. GS device Description Set value Bit0: 0 Using Function Code "0F" Not using Function Code "0F" GS570 Command selection Bit1: 0 Using Function Code "10"...
5.6 Example of Connection 5.6.1 Connecting to SCHNEIDER PLC (Modicon Premium series and Modicon Quantum series) System Configuration Communication driver MODBUS/TCP SCHNEIDER Ethernet module Connection cable Connection cable Connection cable Connection cable Communi Number of Ethernet External controller cation connectable Max.
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(1) Parameter settings Set the parameter settings with programming software for SCHNEIDER PLC. (a) For Modicon Premium series Set for PL7 Pro programming software. Item Set value Processors Connected CPU module Memory cards Memory card to be used Module Connected Ethernet module IP Address IP address for Ethernet module Setting for device points...
5.6.2 Connecting to YOKOGAWA PLC (STARDOM) System Configuration Communication driver MODBUS/TCP YOKOGAWA Connection cable Connection cable Connection cable Connection cable Number of Communic External controller connectable Max. Max. ation Type device Option device Cable model Cable model equipment Model distance distance Twisted pair cable...
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(1) Modbus Communication Portfolio License To set the communication settings for STARDOM, an installation of Modbus Communication Portfolio License is required. For details of the communication settings, refer to the following manual. STARDOM FCN/FCJ Guide (2) Defining Logic POU Define Logic POU using Logic Designer (peripheral software), and download the project to STARDOM. (a) Start Logic Designer and create a new project using a template.
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(e) Set devices to be monitored by a GOT. • Right-click the [ComEServerModbus*] file in the [ComEServerModbus*] folder in the logic POU under the project tree and select [Insert] - [Cord worksheet]. • Set the variable devices to be monitored. Instantiate Logic POU.Define an already defined instance to Task0.
5.7 Precautions The following actions may improve the communication When connecting to multiple GOTs performance. • Using a switching hub (1) Setting PLC No. • More high speed by 100BASE-TX (100Mbps) ® When connecting two or more GOTs in the MODBUS •...
CONNECTION TO SOUND OUTPUT UNIT 6.1 Connectable Model List For applicable speakers, refer to the following Technical News. List of valid devices applicable for GOT2000 series (GOT-A-0064) 6.2 System Configuration 6.2.1 Connecting to sound output unit Communication driver Extended function OS...
Select [Common] [Controller Setting] from the manual. menu. GOT2000 Series User's Manual (Utility) The Controller Setting window is displayed. Select the (2) Precedence in communication settings channel to be used from the list menu. When settings are made by GT Designer3 or the Utility, the latest setting is effective.
6.4 Precautions Sound output function setting on GT Designer3 Before connecting the sound output unit, make the sound output file setting. For details, refer to the following manual. GT Designer3 (GOT2000) Help 6 - 4 6. CONNECTION TO SOUND OUTPUT UNIT 6.4 Precautions...
CONNECTION TO EXTERNAL I/O DEVICE 7.1 Connectable Model List The following table shows the connectable models. Series Clock Connectable GOT Refer to External I/O device 7.2.1 Varies with the connected type. 7 - 2 7. CONNECTION TO EXTERNAL I/O DEVICE 7.1 Connectable Model List...
7.2 System Configuration 7.2.1 Connecting to the external I/O device When inputting and outputting Extended function OS General input device (Push button,etc.) External I/O /Operation panel Operation panel Connector/terminal block convertor Connection cable 1) module Connection cable 2) General output device Connection cable 1) (Lamp, relay) DC power supply...
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When only inputting Extended function OS External I/O /Operation panel Operation panel Connection cable DC power supply External device Connection cable Name Connection diagram number Connection diagram number Option device Model GT15-DIO Connection diagram 8) Connection diagram 7) Operation panel GT15-DIOR Connection diagram 10) Connection diagram 9)
7.3 Connection Diagram 7.3.1 Connection cable between external I/O unit and For GT15-DIOR connector/terminal block Connection diagram 2) converter module External I/O unit side Terminal block converter side XD00 XD00 XD01 XD01 The connection cable between the external I/O unit and the XD02 XD02 connector/terminal block converter module must be...
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Name Model name Manufacturer PCR-E50FS+ (GT15-DIO) Connector PCS-E50FS+ Honda Tsushin Kogyo (GT15-DIOR) Co., Ltd. Connector PCS-E50LA cover Connector Mitsubishi Electric A6CON1 (with a cover) Corporation Connector FCN-361J040-AU FUJITSU Connector COMPONENT LIMITED FCN-360C040-B cover UL 2464 AWG28 or Cable equivalent ...
7.3.2 Connection diagram between connector/terminal block converter module and user-created original operation panel The connection cable among the original operation panel, the connector/terminal block converter module and the general output device must be prepared by the user referring to the followings. ...
7.3.3 Connection cable between Connection diagram 8) external I/O unit and operation For 16-point input panel XD00 XD01 XD02 XD03 The connection cable between the external I/O unit and the XD04 operation panel must be prepared by the user referring to XD05 the followings.
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Connection diagram 10) For GT15-DIOR For 16-point input Connection diagram 9) XD00 External I/O unit side Original operation panel XD01 XD02 XD00 XD00 XD03 XD01 XD01 XD04 XD02 XD02 XD05 XD06 XD03 XD03 XD07 XD04 XD04 XD08 XD05 XD05 XD09 XD06 XD06...
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Connector specifications 24VDC power supply Any connector 1) 2) 4) selected by the user Name Model name Manufacturer PCR-E50FS+ (GT15-DIO) Connector PCS-E50FS+ Honda Tsushin Kogyo (GT15-DIOR) Co., Ltd. Connector PCS-E50LA cover UL 2464 AWG28 or ─── Cable equivalent Cable for connecting an UL 1007 AWG24 or ───...
For details on the Utility, refer to the following The settings of connecting equipment can be set and manual. confirmed in [I/F Communication Setting]. For details, GOT2000 Series User's Manual (Utility) refer to the following. (2) Precedence in communication settings 1.1.2 I/F communication setting When settings are made by GT Designer3 or the Utility, the latest setting is effective.
7.5 Precautions External I/O function setting on GT Designer3 Before using the operation panel, make the operation panel setting. For details, refer to the following manual. GT Designer3 (GOT2000) Help 7 - 15 7. CONNECTION TO EXTERNAL I/O DEVICE 7.5 Precautions...
BAR CODE READER CONNECTION 8.1 Connectable Model List For connectable bar code readers and system equipment, refer to the following Technical News. List of valid devices applicable for GOT2000 series (GOT-A-0064) 8.2 System Configuration 8.2.1 Connecting to bar code reader...
8.3 GOT Side Settings 8.3.1 Setting communication Bar code reader setting interface Controller setting Set the channel of the equipment to be connected to the GOT. Click! Select [Common] [Peripheral Setting] [Bar Code] from the menu. Set the interface to which the bar code reader is connected.
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[Communication Settings] of project data. For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) (2) Precedence in communication settings When settings are made by GT Designer3 or the Utility, the latest setting is effective.
8.4 System Configuration Examples A system configuration example for bar code reader connection is shown below. Bar code reader setting System configuration The bar code reader shall be configured as shown below. Read data "123456789" Item Set value Read bytes ) (09 Transmission Speed...
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Setting of [Bar Code] of GT Designer3 Confirmation on PLC side Connect GX Developer to the QCPU (Q-mode) and check if the data, which has been read with the bar code reader, are written in D0 to D5. For the GX Developer operation method, refer to the following manual.
8.5 Precautions Bar code function setting on GT Designer3 Before connecting the bar code reader, make the bar code function and system data settings. For details, refer to the following manual. GT Designer3 (GOT2000) Help Controller setting When using the barcode reader, which requires the power supply from the GOT, set Channel No.
PC REMOTE CONNECTION 9.1 Connectable Model List The RGB display is used for the remote personal computer operation connection. The following GOT models support the remote personal computer operation connection. Connection type GOT model Serial connection Ethernet connection 9 - 2 9.
9.2 Serial Connection 9.2.1 System Configuration Communication driver Extended function OS Extended function OS PC remote operation Connection type Video/RGB input (serial) dependent Connection cable 1) Connection cable 2) Varies according to the connection type. Connection cable 1) Number of Personal computer connectable Max.
9.2.2 Connection Diagram Analog RGB cable When using a 3m or longer RS-232 cable for connecting a (1) Connection diagram GOT to a personal computer, the cable must be prepared Analog RGB connection diagram 1) by the user. 75 drohmcoaxial The following shows each cable connection diagram.
Make the settings according to the usage For details on the Utility, refer to the following environment. manual. GOT2000 Series User's Manual (Utility) Click the [OK] button when settings are completed. (3) Precedence in communication settings When settings are made by GT Designer3 or the Utility, the latest setting is effective.
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Settings for the remote personal computer Settings for the video/RGB equipment operation Click! Click! Select [Common] [Peripheral Setting] Select [Common] [Peripheral Setting] [Video/ Remote Operation] from the menu. RGB Input] from the menu. Set the interface to which the personal computer is Set the interface to which the video/RGB equipment is connected for the [Connecting I/F] of [PC Remote connected.
9.2.5 Installing and setting up computer remote operation driver. Install and set up the remote personal computer operation driver to the personal computer. For installing and setting up the remote personal computer operation driver, refer to the following manual. GT Designer3 (GOT2000) Help 9.2.6 Precautions ...
9.3 Ethernet Connection 9.3.1 System Configuration Communication driver Communication driver Extended function OS PC remote operation Connection type Ethernet system (Ethernet) dependent Connection cable Varies according to the connection type. Maximum Number of *1*2 segment Personal computer connectable Connection cable Option device Model equipment...
9.3.2 GOT Side Settings Settings for the PC remote operation Setting communication interface (Communication settings) Set the channel of the equipment to be connected to the GOT. Click! Select [Common] [Peripheral Setting] Remote Operation] from the menu. Click! Set [Connecting I/F] of [PC Remote Operation] to [Disconnect].
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VNC(R) SERVER CONNECTION 10.1 Connectable Model List ......10 - 2 10.2 System Configuration ......10 - 2 10.3 GOT Side Settings .
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10. VNC(R) SERVER CONNECTION 10.1 Connectable Model List ® ® The VNC server can be connected to the following VNC client. Software Ultra VNC 10.2 System Configuration Extended function OS Communication driver Communication driver Connection type VNC Server Ethernet system dependent (VNC server) (VNC client)
HINT HINT HINT System configuration between the GOT and PLC For the system configuration between the GOT and PLC, refer to each chapter. Mitsubishi Products Non-Mitsubishi Products 1, Non-Mitsubishi Products 2 Microcomputer, MODBUS Products, Peripherals 10.3 GOT Side Settings 10.3.1 VNC(R) server function setting 10.3.2 Setting communication interface (Communication settings)
POINT POINT POINT Ethernet-based driver ® For using the VNC server, any of the following Ethernet communication drivers must be set on the GOT. • Ethernet (MELSEC), Q17nNC, CRnD-700, Gateway • Ethernet (FX), Gateway • Ethernet (OMRON), Gateway • Ethernet (KEYENCE), Gateway •...
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VIDEO/RGB CONNECTION 11.1 Connectable Model List ......11 - 2 11.2 System Configuration ......11 - 3 11.3 Connection Diagram .
The following GOT models support the Video/RGB connection. GOT model For the type of the video camera that can be connected, refer to the following Technical News. List of valid devices applicable for GOT2000 series (GOT-A-0064) 11 - 2 11. VIDEO/RGB CONNECTION...
11.2 System Configuration 11.2.1 Displaying video image on GOT Extended function OS Video/RGB equipment including video cameras, vision sensors, and personal computers Video/RGB input Connection cable Connection cable Number of Cable model Signal type Video/RGB equipment connectable Connection diagram Option device Model equipment number...
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POINT POINT POINT (1) Power supply of video camera Depending on the video camera type, noises from the power supply cable of the camera may cause a malfunction on the PLC or the GOT.In this case, apply the following line filter to the power line of the camera. Recommended line filter: TDK ZHC2203-11 (or equivalent) (2) Power supply of vision sensor If a video camera is used via a vision sensor, a power supply module may be required depending on the vision...
11.2.2 Displaying GOT screen on external monitor Extended function OS External monitor Video/RGB input Connection cable External monitor Connection cable Number of Signal Distance connectable type Model name Model name Option device Model equipment For connectable external monitor types, refer to the GT15-C50VG(5m) following Technical News.
11.3 Connection Diagram The coaxial cable/analog RGB cable to connect the GOT to the Video/RGB equipment must be prepared by the user. The following shows each cable connection diagram and HINT HINT HINT relevant connectors. When the coaxial cable is long 11.3.1 Coaxial cable When the coaxial cable is long, video signals are...
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Precautions when preparing a cable (1) Cable length The cable length differs depending on the specification of the vision sensor/PC to be used. Create a cable under the specifications of the vision sensor/PC. (2) GOT side connector Use the following as the video/RGB input unit, RGB input unit, and RGB output unit connectors.
For details on the Utility, refer to the following Make the settings according to the usage manual. environment. GOT2000 Series User's Manual (Utility) (2) Precedence in communication settings When settings are made by GT Designer3 or the Click the [OK] button when settings are completed.
11.4.3 Setting the video/RGB function Settings for the video/RGB equipment Set the video/RGB function. For the video/RGB function setting, refer to the following manual. GT Designer3 (GOT2000) Help Click! Select [Common] [Peripheral Setting] [Video/ RGB Input] from the menu. Set the interface to which the video/RGB equipment is connected.
For the system configuration between the GOT and PLC, refer to each chapter. GOT2000 Series Connection Manual (Mitsubishi Product) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 1) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 2) For GT Works3 Version1...
For the system configuration between the GOT and PLC, refer to each chapter. GOT2000 Series Connection Manual (Mitsubishi Product) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 1) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 2) For GT Works3 Version1...
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12.3 GOT Side Settings 12.3.1 Setting communication interface Printer setting Controller setting Set the channel of the equipment to be connected to the GOT. Click! Select [Common] [Peripheral Setting] [Printer] from the menu. Select the printer type. Set the interface to which the printer is connected. When Serial is selected in Printer type, clicking the detail setting button displays the Communication Detail Settings dialog box for the communication...
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[Communication Settings] of project data. For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) (2) Precedence in communication settings When settings are made by GT Designer3 or the Utility, the latest setting is effective.
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12.4 Precautions Connection/disconnection of USB cable during print operation When the USB cable is disconnected during print operation, the printer hangs up depending on the model of PictBridge compatible printer. In this case, turn on the main power of the printer and then restart it. ...
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MULTIMEDIA CONNECTION 13.1 Connectable Model List ......13 - 2 13.2 System Configuration ......13 - 2 13.3 Connection Diagram .
13. MULTIMEDIA CONNECTION 13.1 Connectable Model List For the type of CF card that can be inserted or connectable video camera types, refer to the following Technical News. List of valid devices applicable for GOT2000 series (GOT-D-0064) POINT POINT POINT Before making the multimedia connection Update the software version of the multimedia unit to the latest version.
For the CF card to be inserted into the multimedia unit, refer to the following. • Type of CF card that can be inserted List of valid devices applicable for GOT2000 series (GOT-D-0064) • Precautions for using the CF card 13.4 GOT Side Settings...
13.3 Connection Diagram The coaxial cable used for connecting the GOT to a video camera should be prepared by the user. The following shows each cable connection diagram. HINT HINT HINT 13.3.1 Coaxial cable When the coaxial cable is long When the coaxial cable is long, video signals are attenuated by the cable.
13.4 GOT Side Settings 13.4.1 Setting communication interface Multimedia setting Controller setting Set the channel of the equipment to be connected to the GOT. Click! Click! Select [Common] [Controller Setting] from the menu. Select [Common] [Peripheral Setting] [Multimedia] from the menu. The Controller Setting window is displayed.
Network settings with the utility The network setting can be changed on the Utility's [Communication setting] after writing [Communication Settings] of project data. For details on the Utility, refer to the following manual. GOT2000 Series User's Manual (Utility) (1) Video Setting Item Description Range Video Input Set the video input signal.
13.4.3 Installing and setting multimedia interaction tool onto personal computer Install the multimedia interaction tool onto the personal computer and set it. For how to install and set multimedia interaction tool, refer to the following manual. GT Designer3 (GOT2000) Help POINT POINT POINT...
13.5 Precautions When the multimedia function is used The multimedia function and the video/RGB function are written exclusively. Select either of them to use. CF card on the multimedia unit For the CF card that can be inserted into the multimedia unit, formatting in FAT32 is recommended.
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RFID CONNECTION 14.1 Connectable Model List ......14 - 2 14.2 System Configuration ......14 - 2 14.3 GOT Side Settings .
For connectable RFID controllers and system equipment, refer to the following Technical bulletin. List of valid devices applicable for GOT2000 series (GOT-D-0064) Visit the Mitsubishi Electric FA Equipment Information Service website (MELFANSweb) to refer to the Technical News. http://wwwf2.mitsubishielectric.co.jp/english/index.html 14.2 System Configuration 14.2.1 Connecting to RFID...
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HINT HINT HINT System configuration between the GOT and PLC For the system configuration between the GOT and PLC, refer to each chapter. Mitsubishi Products Non-Mitsubishi Products 1, Non-Mitsubishi Products 2 Microcomputer, MODBUS Products, Peripherals 14 - 3 14. RFID CONNECTION 14.2 System Configuration...
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14.3 GOT Side Settings 14.3.1 Setting communication interface RFID setting Controller setting Set the channel of the equipment to be connected to the GOT. Click! Click! Select [Common] [Peripheral Setting] [RFID] from the menu. Set the interface to which the RFID controller is Select [Common] [Controller Setting] from the connected.
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14.3.2 Communication detail settings POINT POINT POINT (1) Communication interface setting by the Utility The communication interface setting can be changed on the Utility's [Communication setting] after writing [Communication Settings] of project data. For details on the Utility, refer to the following manuals.
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14.4 Precautions RFID function setting on GT Designer3 Before connecting the RFID controller, set the RFID function and system data. For details, refer to the following manual. GT Designer3 (GOT2000) Help Controller setting (1) When using the external authentication When using the external authentication on the RFID controller, set Channel No.
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WIRELESS LAN CONNECTION 15.1 System Configuration ......15 - 2 15.2 GOT Side Settings ....... 15 - 3 15.3 Precautions .
For the system configuration between the GOT and PLC, refer to each chapter. GOT2000 Series Connection Manual (Mitsubishi Product) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 1) For GT Works3 Version1 GOT2000 Series Connection Manual (Non Mitsubishi Product 2) For GT Works3 Version1...
For details on the Utility, refer to the following wireless LAN or Standard Ethernet + wireless LAN manual. • Mode : wireless LAN GOT2000 Series User's Manual (Utility) • I/F : Extended I/F(wireless LAN) (2) Precedence in communication settings • Driver : wireless LAN...
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15.2.3 GOT wireless LAN I/F setting Item Description Range Set the IP address of the GOT. 0.0.0.0 to IP Address (Default: 192.168.4.20) 255.255.255.255 Select the set GOT in the [GOT Setting List] dialog. Select from GOT Setting List GT Designer3 (GOT2000) Help Set the subnet mask for the sub network.
15.3 Precautions When connecting to multiple GOTs Do not use the IP address "192.168.3.18" when using multiple GOTs. A communication error may occur on the GOT with the IP address. When setting IP address Do not use "0" and "255" at the end of an IP address. (Numbers of *.*.*.0 and *.*.*.255 are used by the system) The GOT may not monitor the controller correctly with...
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This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual.
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If requested by the customer, Mitsubishi Electric Corporation or its representative firm may carry out the primary failure diagnosis at the customer’s expence. The primary failure diagnosis will, however, be free of charge should the cause of failure be attributable to Mitsubishi Electric Corporation.
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GOT is a registered trademark of Mitsubishi Electric Corporation. Microsoft, Windows, Windows NT, Windows Server, Windows Vista, and Windows 7 are registered trademarks or trademarks of Microsoft Corporation in the United States and other countries. Adobe and Adobe Reader are registered trademarks of Adobe Systems Incorporated.
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GOT2000 Series Connection Manual (Microcomputer, MODBUS Products, Peripherals) For GT Works3 Version1 GOT2000-CON4-SW1-E MODEL MODEL CODE When exported from Japan, this manual does not require application to the Ministry of Economy, SH(NA)-081200ENG-C(1401)MEE Trade and Industry for service transaction permission. HEAD OFFICE : TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN NAGOYA WORKS : 1-14 , YADA-MINAMI 5-CHOME , HIGASHI-KU, NAGOYA , JAPAN Specifications subject to change without notice.