Page 2 Introduction This manual describes the items required for installing, connecting and setting up the Mitsubishi Electric CNC. Read this manual thoroughly and understand the product's functions and performance before use. Supported models of this manual are as follows: Supported models...
Page 3  Details described in this manual  This book is configured as follows. Refer to the following chapters as necessary. - Installation and connection: Chapter 1 to 18 - Setup: Chapter 19 to 39  In this manual, the following abbreviations might be used. L system: Lathe system M system: Machining center system ...
Page 5 Manual List Manuals related to M800V/M80V Series are listed as follows. These manuals are written on the assumption that all optional functions are added to the targeted model. Some functions or screens may not be available depending on the machine or specifications set by MTB. (Confirm the specifications before use.) The manuals issued by MTB take precedence over these manuals.
Page 6 Manuals for MTBs (NC) Manual IB No. Purpose and Contents  Model selection M800V/M80V Series IB-1501610 Specifications Manual (Function)  Outline of various functions  Model selection M800V/M80V Series IB-1501611 Specifications Manual (Hardware)  Specifications of hardware unit  Detailed specifications of hardware unit M800VW/M80VW Series IB-1501612 Connection and Setup Manual...
Page 7 (Monitor) GOT2000 Series Connection Manual  Outline of connection types and connection method between SH-081197ENG (Mitsubishi Electric Products) GOT and Mitsubishi Electric connection devices GT Designer3 (GOT2000) Screen  Outline of screen design method using screen creation SH-081220ENG Design Manual...
Page 8 Reference Manual for MTBs Manual Purpose and Contents M800/M80 Series Smart safety BNP-C3072-022  Explanation for smart safety observation function observation Specification manual M800/M80 Series CC-Link (Master/ BNP-C3072-089  Explanation for CC-Link Local) Specification manual M800/M80 Series PROFIBUS-DP BNP-C3072-118  Explanation for PROFIBUS-DP communication function Specification manual M800/M80 Series Interactive cycle BNP-C3072-121-...
Page 9 Precautions for Safety Always read the specifications issued by the machine tool builder, this manual, related manuals and attached documents before installation, operation, programming, maintenance or inspection to ensure correct use. Understand this numerical controller, safety items and cautions before using the unit. This manual ranks the safety precautions into "DANGER", "WARNING"...
Page 10 For Safe Use Mitsubishi CNC is designed and manufactured solely for applications to machine tools to be used for industrial purposes. Do not use this product in any applications other than those specified above, especially those which are substantially influential on the public interest or which are expected to have significant influence on human lives or properties. ...
Page 11 (*1) Denial-of-service (DoS) refers to a type of cyber-attack that disrupts services by overloading the sys- tem or by exploiting a vulnerability of the system. Mitsubishi Electric assumes no responsibility for any problems caused to the NC system by any type of cyber-attacks including DoS attack, unauthorized access and computer virus.
Page 12 [Transportation and installation] CAUTION Correctly transport the products according to the mass. Use motor’s suspension bolts to transport the motor itself. Do not use it to transport the motor after instal- lation onto the machine. Do not stack the products exceeding the indicated limit. Do not hold the cables, shaft or encoder when transporting the motor.
Page 13 CAUTION Do not block the intake/outtake ports of the motor with the cooling fan. Install the controller’s display section and operation board section on the spot where cutting oil will not reach. The controller, drive unit and motor are precision devices, so do not drop or apply thumping vibration and strong impacts on them.
Page 14 [Items related to wiring] CAUTION Correctly wire this product. Failure to observe this could result in motor runaway, etc. Connect the cables to the designated connectors. Incorrect connections could damage the device. Do not install a phase advancing capacitor, surge absorber or radio noise filter on the output side of the drive unit.
Page 15 CAUTION Separate the signal wire from the drive line or power line when wiring. Carry out wiring so that there is no possibility of short circuit between wires, nor of dangerous state. Use wires and cables whose wire diameter, heat resistance level and bending capacity are compatible with the system.
Page 16 [Setup] WARNING Do not cancel the emergency stop before confirming the basic operation. Always set the stroke end and stored stroke limit. Failure to set this could result in collision with the ma- chine end. CAUTION For items described as "Restrictions" or "Usable State" in this manual, the instruction manual issued by the machine tool builder takes precedence over this manual.
Page 17 [Usage] CAUTION Use this product within the range of environmental condition described in this manual. Using this product in an environment outside the range could result in electric shock, fire, operation fail- ure, or damage to or deterioration of the product. Install an external emergency stop circuit so that the operation can be stopped and the power turns OFF immediately when unforeseen situation occurs.
Page 18 [Troubleshooting] CAUTION Use a motor with electromagnetic brakes or establish an external brake mechanism for Shut off with motor Shut off with CNC brake the purpose of holding; this serves as brake control output control PLC output countermeasures for possible hazardous situation caused by power failure or prod- uct fault.
Page 19 [General precautions] To explain the details, drawings given in the instruction manual, etc., may show the unit with the cover or safety partition removed. When operating the product, always place the cover or partitions back to their original position, and operate as indicated in the instruction manual, etc.
Page 20 (2) Requirements for "Law for Treatment of Waste and Cleaning" (a) Mitsubishi Electric recommends recycling and selling the product when no longer needed according to item (1) above. The user should make an effort to reduce waste in this manner.
Page 21 This symbol mark is according to the directive 2006/66/EC Article 20 Information for end-users and Annex II. Your MITSUBISHI ELECTRIC product is designed and manufactured with high quality materials and components which can be recycled and/or reused. This symbol means that batteries and accumulators, at their end-of-life, should be disposed of separately from your household waste.
Page 22 MELDAS, MELSEC, EZSocket, EZMotion, iQ Platform, MELSEC iQ-R, MELSOFT, GOT, CC-Link, CC-Link/LT, CC-Link IE, CC-Link IE/field, EcoMonitorLight and SLMP are either trademarks or registered trademarks of Mitsubishi Electric Corporation in Japan and/or other countries. Ethernet is a registered trademark of Xerox Corporation in the United States and/or other countries.
Page 23 本製品の取扱いについて ( 日本語 /Japanese) 本製品は工業用 ( クラス A) 電磁環境適合機器です。販売者あるいは使用者はこの点に注意し、住商業環境以外での使用をお願いいたします。 Handling of our product (English) This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. 본...
Page 24: Table Of Contents
1 System Basic Configuration ........................1 1.1 System Basic Configuration Drawing........................2 2 General Connection Diagram........................3 2.1 M800VW Series, Windows-based Display Unit ......................5 2.2 M80VW Series, Windows-based Display Unit ......................6 2.3 19-type Display Unit ..............................7 2.4 Connecting a Laser I/F Unit ............................8 3 List of Configuration............................
Page 25 4.9.1 List of Units ..............................73 4.9.2 FCU8-DX830/FCU8-DX834/FCU8-DX837 ....................74 4.10 Remote I/O Unit ..............................96 4.10.1 List of Units ..............................96 4.10.2 FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/ FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1/FCU8-DX651/FCU8-DX408/ FCU8-DX409 ..............................97 4.11 Laser I/F Unit ..............................139 4.11.1 FCU8-DX522-001 ............................139 4.12 Function Expansion Unit............................. 155 4.12.1 Encoder (Manual Pulse Generator) I/F Expansion (FCU8-EX544)............
Page 26 7.2 Connecting with Power Supply ..........................238 7.3 Connecting with Emergency Stop Signal ......................239 7.4 Connecting with Personal Computer Unit ......................242 7.5 Connecting with Operation Panel I/O Unit ......................243 7.6 Connecting with Remote I/O Unit.......................... 244 7.7 Connecting with Drive Unit............................ 245 7.7.1 Connecting with Drive Unit MDS-E/EH Series .....................
Page 27 11.9 Connecting with Analog I/O Signal (FCU8-DX202) .................... 317 11.10 Connecting with Thermistor (FCU8-DX408) ..................... 319 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409)................322 12 Connection of Laser I/F Unit ......................... 331 12.1 Laser I/F Unit Connection System Drawing......................332 12.2 Connecting with Power Supply ...........................
Page 28 18.2.24 R2-TM Terminator Connector ........................382 18.3 Cable Relating to Drive Unit..........................383 18.3.1 Cable Wire and Assembly .......................... 383 18.3.2 CNP2E-1 Cable ............................385 18.3.3 CNP3EZ-2P/CNP3EZ-3P Cable ........................ 386 18.3.4 CNV2E-8P/CNV2E-9P Cable ........................387 18.3.5 CNV2E-D Cable ............................388 18.3.6 CNV2E-HP Cable ............................
Page 29 24 Sequence Program Writing ........................453 24.1 Writing Sequence Program using the SD Card ....................454 24.2 Setting the Ethernet Communication ........................454 24.2.1 Confirming the IP Address for CNC ......................454 24.2.2 Setting the IP Address for PC Side ......................454 24.3 Connecting the Control Unit and a Personal Computer..................
Page 30 28.2.2.1 Using a Linear Axis as Basic Axis ..................... 520 28.2.2.2 Using a Rotary Axis as Basic Axis..................... 523 28.3 Cyclic Error Compensation ..........................524 28.3.1 Outline ................................ 524 28.3.2 Setting Method ............................525 28.3.3 Error Measurement ............................ 527 28.3.4 Precautions ..............................527 28.3.5 Relation with Other Functions ........................
Page 31 35.3.1 Enabling Conditions of OMR-CC ....................... 584 35.3.2 Conditions for Temporarily Canceling Compensation by OMR-CC ............584 35.3.3 Description of Operation ..........................585 35.3.3.1 Adjustment by Setting Value of Scale Model Gain (PGM) ..............585 35.3.3.2 Adjustment by OMR-CC Compensation Factor................. 585 35.3.3.3 Difference Between OMR-CC and OMR-FF ..................
Page 32 44.6.4 Selection of Stabilized Power Supply......................648 45 Appendix 5: Restrictions for Lithium Batteries................... 649 45.1 Restriction for Packing ............................650 45.1.1 Target Products............................650 45.1.2 Handling by User ............................651 45.1.3 Reference..............................651 45.2 Products Information Data Sheet (ER Battery) ....................652 45.3 Forbiddance of Transporting Lithium Battery by Passenger Aircraft Provided in the Code of Federal Regulation ..............
Page 34: System Basic Configuration
System Basic Configuration IB-1501612-C...
Page 35: System Basic Configuration Drawing
M800VW/M80VW Series Connection and Setup Manual 1 System Basic Configuration 1.1 System Basic Configuration Drawing 1.1 System Basic Configuration Drawing Display unit Personal computer unit Keyboard unit Operation panel Control unit I/O unit Remote I/O unit M800VW M80VW Manual pulse penerator Remote I/O unit Synchronous feed encoder...
Page 36: General Connection Diagram
General Connection Diagram IB-1501612-C...
Page 37 M800VW/M80VW Series Connection and Setup Manual 2 General Connection Diagram Typical general connection diagrams for respective models are described. Refer to the following chapters for parts where the connection differs depending on the unit configuration. 2.3 19-type Display Unit 2.4 Connecting a Laser I/F Unit IB-1501612-C...
Page 38: M800Vw Series, Windows-Based Display Unit
(*2) When using a keyboard unit, install the operation panel I/O unit on the back of the keyboard unit. Note (1) For details on connecting to the machine operation panel manufactured by Mitsubishi Electric, refer to the chapter "16 Connection of Machine Operation Panel".
Page 39: M80Vw Series, Windows-Based Display Unit
Because the pin assignment of ENC connector of G430 is different from that of MPG connector of the operation panel I/O unit, conversion is required. The conversion cable needs to be prepared by the MTB. (2) For details on connecting to the machine operation panel manufactured by Mitsubishi Electric, refer to the chapter "16 Connection of Machine Operation Panel".
Page 40: 19-Type Display Unit
USB memory USB2-1 MENUKEY Operation panel I/O unit FCU8-DX830/834/837 NCKB  The personal computer unit is installed on the back of the display unit. Display unit for M800VW Series Display unit for M80VW Series FCU8-DU193-75 FCU8-DU193-77 FCU8-DU194-75 FCU8-DU194-77 15-type display unit...
Page 41: Connecting A Laser I/F Unit
M800VW/M80VW Series Connection and Setup Manual 2 General Connection Diagram 2.4 Connecting a Laser I/F Unit 2.4 Connecting a Laser I/F Unit Connect the laser I/F unit to RIO1 or RIO2 of the control unit. The following figure shows an example of connecting the laser I/F unit to RIO2. Control unit Laser I/F unit FCU8-DX522-001...
Page 42: List Of Configuration
List of Configuration IB-1501612-C...
Page 43: Control Unit [M800Vw]
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.1 Control Unit [M800VW] 3.1 Control Unit [M800VW] Classification Type Components Remark Main CPU card (non-compliant) This unit is not compliant with either the Export 7SEG card NC function Trade Control Order or Foreign Exchange Order. FCU8-MU052 SDHC: 1ch For M830VW...
Page 44: Display Unit [M800Vw]
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.3 Display Unit [M800VW] 3.3 Display Unit [M800VW] Classification Type Components Remark 15-type color LCD touchscreen FCU8-DU182-34 LCD panel Personal computer unit is prepared at the same time. (XGA:1024 x 768) Backlight I/F PCB Built-in disk of the display unit is prepared at the same time.
Page 45: Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.7 Operation Panel I/O Unit 3.7 Operation Panel I/O Unit Classification Type Components Remark DI 24 V/0 V common input [64 points] FCU8-DX830 Base card DI: 64-point 24 V/0 V common type DO Source output [64 points] Add-on card DO: 64-point source type (200 mA/point)
Page 46: Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.8 Remote I/O Unit 3.8 Remote I/O Unit Classification Type Components Remark DI 24 V/0 V common input [32 points] FCU8-DX220 Base card DI: 32-point 24 V/0 V common type DO Source output [32 points] RIO 2.0 connector set DO: 32-point source type (200 mA/point)
Page 47: Function Expansion Unit
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.10 Function Expansion Unit 3.10 Function Expansion Unit [Connector: EXT1/EXT2 on the control unit] Classification Type Components Remark Encoder (manual pulse generator) I/ Encoder input 1ch FCU8-EX544 Encoder I/F PCB F expansion unit 5 V manual pulse generator input 2ch [Connector: EXT3/EXT4 on the control unit]...
Page 48: Machine Operation Panel
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.14 Machine Operation Panel 3.14 Machine Operation Panel Classification Type name Components Remark Escutcheon, key switch Main panel A MITSUBISHI standard key layout (55 FCU8-KB921 Control card (For 8.4-type/15-type display unit) keys) (Standard specification A) G054 cable, screw cap set Escutcheon, key switch...
Page 49: Cable Connector Sets
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.16 Cable Connector Sets 3.16 Cable Connector Sets Classification Type name Components Remark General I/O FCUA-CS000 Connector (10120-3000PE, 2 pcs.) (For SKIP, SIO, MPG, AIO) Shell kit (10320-52F0-008, 2 pcs.) Emergency stop connector 005057-9403 Connector (50-57-9403),...
Page 50: List Of Cables
M800VW/M80VW Series Connection and Setup Manual 3 List of Configuration 3.21 List of Cables 3.21 List of Cables [Cable relating to NC] Max. cable Type name Application Available cable length (m) length Wiring between synchronous encoder and control unit (straight, with FCUA-R050-xM connector) 30 m...
Page 51: System Type
(2) Lengths indicated with an asterisk (*) in the max. cable length column indicate the maximum cable length when connect- ing via other unit. 3.22 System Type Series Model name System type Control unit M850VW FCA850U-V FCU8-MA051-001 M800VW Series M830VW FCA830U-V FCU8-MU052-001 M80VW Series M80VW FCA80U-V FCU8-MU054-001 IB-1501612-C...
Page 52: General Specifications
General Specifications IB-1501612-C...
Page 53: Environment Conditions [M800Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] 4.1 Environment Conditions [M800VW] 4.1.1 Environment Conditions Inside the Operation Panel Personal computer Unit name Display unit unit Item FCU8-DU182-34: (15-type) Type FCU8-DU193-75: (19-type) FCU8-PC232 FCU8-DU194-75: (19-type) During op- 0 °C to 58 °C eration...
Page 54 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] Unit name Keyboard unit Operation panel I/O unit Machine operation panel FCU8-KB921/KB922/KB925 Item FCU8-KB083: (15-type/vertical Type FCU8-DX830/DX834/DX837 FCU8-KB923/KB924/KB926 arrangement) FCU8-KB931/KB941 During op- 0 °C to 58 °C eration Ambient temperature...
Page 55: Environment Conditions Inside The Control Panel
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] 4.1.2 Environment Conditions Inside the Control Panel Unit name Control unit Item Type FCU8-MU052/MA051 During op- 0 °C to 55 °C eration Ambient temperature During -20 °C to 60 °C storage Long term 10% to 75% RH (with no dew condensation) Ambient hu-...
Page 56 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] Unit name Remote I/O unit FCU8-DX213/ Item FCU8-DX220/ DX213-1/ Type FCU8-DX202 FCU8-DX408 FCU8-DX409 FCU8-DX651 DX230/DX231 DX654/ DX654-1 During op- 0 °C to 58 °C eration Ambient temperature During -20 °C to 60 °C storage...
Page 57 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] Unit name Laser I/F unit Item Type FCU8-DX522-001 During op- 0 °C to 58 °C eration Ambient temperature During -20 °C to 60 °C storage Long term 10% to 75% RH (with no dew condensation) Ambient hu- midity Short term 10% to 95% RH (with no dew condensation) (*1)
Page 58: Vdc Stabilized Power Supply Selecting Conditions
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.1 Environment Conditions [M800VW] 4.1.3 24 VDC Stabilized Power Supply Selecting Conditions Consider the following characteristics for the stabilized power supply, and select the power supply that complies with laws, regulations, or safety standards of the country where the machine will be installed. Item Specifications Remarks...
Page 59: Environment Conditions [M80Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] 4.2 Environment Conditions [M80VW] 4.2.1 Environment Conditions Inside the Operation Panel Personal computer Unit name Display unit unit Item FCU8-DU182-36: (15-type) Type FCU8-DU193-77: (19-type) FCU8-PC232 FCU8-DU194-77: (19-type) During op- 0 °C to 58 °C eration...
Page 60 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] Unit name Keyboard unit Operation panel I/O unit Machine operation panel FCU8-KB921/KB922/KB925 Item FCU8-KB083: (15-type/vertical Type FCU8-DX830/DX834/DX837 FCU8-KB923/KB924/KB926 arrangement) FCU8-KB931/KB941 During op- 0 °C to 58 °C eration Ambient temperature...
Page 61: Environment Conditions Inside The Control Panel
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] 4.2.2 Environment Conditions Inside the Control Panel Unit name Control unit Item Type FCU8-MU054 During op- 0 °C to 55 °C eration Ambient temperature During -20 °C to 60 °C storage Long term 10% to 75% RH (with no dew condensation) Ambient hu-...
Page 62 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] Unit name Remote I/O unit FCU8-DX213/ Item FCU8-DX220/ DX213-1/ Type FCU8-DX202 FCU8-DX408 FCU8-DX409 FCU8-DX651 DX230/DX231 DX654/ DX654-1 During op- 0 °C to 58 °C eration Ambient temperature During -20 °C to 60 °C storage...
Page 63 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] Unit name Laser I/F unit Item Type FCU8-DX522-001 During op- 0 °C to 58 °C eration Ambient temperature During -20 °C to 60 °C storage Long term 10% to 75% RH (with no dew condensation) Ambient hu- midity Short term 10% to 95% RH (with no dew condensation) (*1)
Page 64: Vdc Stabilized Power Supply Selecting Conditions
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.2 Environment Conditions [M80VW] 4.2.3 24 VDC Stabilized Power Supply Selecting Conditions Consider the following characteristics for the stabilized power supply, and select the power supply that complies with laws, regulations, or safety standards of the country where the machine will be installed. Item Specifications Remarks...
Page 65: Control Unit [M800Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] 4.3 Control Unit [M800VW] 4.3.1 M830VW(FCU8-MU052)/M850VW(FCU8-MA051) Outline dimensions [mm] Bottom 80 or more IB-1501612-C...
Page 66 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] Installation dimensions [mm] 90 (Unit outline) IB-1501612-C...
Page 67 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] Connector Cover opened (24) (18) (20) (10) (15) (11) (22) (12) (13) (19) (14) (21) (16) (17) (23) Front view Bottom view No. Connector name Function No. Connector name Function (1) OPTH1 High-speed optical servo communication...
Page 68 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc. Incorrect connections could cause the devices to rupture or damage, etc. Always connect the cables to the indicated connectors or terminals.
Page 69 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (5) GDI (Ethernet communication for personal computer unit connection) TXD+ TXD- RXD+ RXD-  Connect connector case with FG pattern.  Use J303 cable when directly connecting a device such as a personal computer to the unit. <Cable side connector type>...
Page 70 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (7) RIO1 (Remote I/O 2.0 communication 1st ch) (8) RIO2 (Remote I/O 2.0 communication 2nd ch) (9) RIO3 (Remote I/O 2.0 communication 3rd ch) Up to 64 remote I/O stations can be connected. 1 2 3 TXRXD TXRXD*...
Page 71 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (14) RIO8 (MODBUS/RTU communication (for connection to EcoMonitorLight)) 1 2 3 485+ 485- <Cable side connector type> Connector: 1-1318119-3 Contact: 1318107-1 Manufacturer: TE Connectivity (15) SKIP (SKIP input 8 points) COM GND COM GND SKIP IN1...
Page 72 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] [Skip signal input conditions] Use the input signal within the following condition ranges. 24 V common 0V common Input voltage at external contact ON 6 V or less 18 V or more, 25.2 V or less Input current at external contact ON 6 mA or more...
Page 73 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (16) AIO (Analog input 4 ch, Analog output 2 ch, 5 V Manual pulse generator input 2 ch) Analog input, analog output and 5 V manual pulse generator can be connected to this connector. AI 0 AI 1 AI 2...
Page 74 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] [Outline of analog signal input circuit] <Input circuit> <Input conditions> Analog input voltage -10 to 10 V Max. input rating (*1) ±15 V Resolution |-10 to +10 V|/4095 = 4.88 mV Repeatability Within ±25 mV (*2) Tolerance...
Page 75 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] [Input for 5 V manual pulse generator] <Specification of input part> Two phases (A phase, B phase, a phase difference 90 degrees) (Refer to the waveform be- Number of pulse phases low.) Signal output of manual pulse generator...
Page 76 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (17) EMG (External emergency stop input) EMG IN +24 V <Cable side connector type> Connector: 50-57-9403 Contact: 0016020103 Manufacturer: MOLEX Note  Use this when installing an emergency stop switch in the electric cabinet. When this connector is not used, connect a termi- nator connector (G123 cable).
Page 77 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] (22) DCIN (24 VDC input) +24V <Cable side connector type> Connector: 2-178288-3 Contact: 1-175218-5 Manufacturer: TE Connectivity [Power supply specifications] Consider the following selection items when selecting the stabilized power supply (supplied by the machine tool manufacturer).
Page 78 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.3 Control Unit [M800VW] Cover opened Name Lamp state Details 24 VDCIN Lit (Green) 24 V power is being supplied from the external power supply. Not lit The followings may have caused an error: ...
Page 79: Control Unit [M80Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.4 Control Unit [M80VW] 4.4 Control Unit [M80VW] 4.4.1 FCU8-MU054 Outline dimensions [mm] Bottom 80 or more IB-1501612-C...
Page 80 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.4 Control Unit [M80VW] Installation dimensions [mm] 60 (Unit outline) 3-M5 Screw IB-1501612-C...
Page 81 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.4 Control Unit [M80VW] Connector Cover opened (24) (25) (18) (14) (15) (22) (20) (17) (23) Front view Bottom view No. Connector name Function No. Connector name Function MODBUS/RTU communication (for con- (1) OPTH1 High-speed optical servo communication (14) RIO4/ M (*1)
Page 82 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.4 Control Unit [M80VW] Cover opened Name Lamp state Details 24 VDCIN Lit (Green) 24 V power is being supplied from the external power supply. Not lit The followings may have caused an error: ...
Page 83: Display Unit [M800Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] 4.5 Display Unit [M800VW] 4.5.1 15-type (FCU8-DU182-34) Outline dimensions [mm] Bottom Note (1) The figure above shows the state with the personal computer unit mounted. IB-1501612-C...
Page 84 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] Panel cut dimensions [mm] (Unit outline) 193±0.3 193±0.3 199±0.3 183±0.3 screw 8-M3 8±0.2 8±0.2 193.5 (Square hole dimension) IB-1501612-C...
Page 85: 19-Type (Fcu8-Du193-75)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] 4.5.2 19-type (FCU8-DU193-75) Outline dimensions [mm] (Space required for wiring) Bottom Note (1) The figure above shows the state with the personal computer unit and the operation panel I/O unit mounted. IB-1501612-C...
Page 86 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] Panel cut dimensions 365 (Unit outline) [mm] (12) 170.5±0.3 170.5±0.3 (12) 17±0.2 17±0.2 188.5±0.3 154.5±0.3 5 holes 328 (Square hole dimension) 9 holes IB-1501612-C...
Page 87: 19-Type (Fcu8-Du194-75)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] 4.5.3 19-type (FCU8-DU194-75) Outline dimensions [mm] (Space required for wiring) Bottom Note (1) The figure above shows the state with the personal computer unit and the operation panel I/O unit mounted. IB-1501612-C...
Page 88 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] Panel cut dimensions [mm] 440 (Unit outline) 417±0.3 (12) (12) 416±0.3 393±0.3 273±0.3 245±0.3 171±0.3 143±0.3 23±0.2 1±0.2 Square hole (Square hole dimension) IB-1501612-C...
Page 89: Precautions
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.5 Display Unit [M800VW] 4.5.4 Precautions [Precautions for handling touchscreen] (1) Operate the touchscreen with fingers. The touchscreen does not react with nails. (2) The use of gloves, work gloves, etc. will have effects such as the deterioration of the operation feeling depending on the material and thickness of the gloves.
Page 90: Display Unit [M80Vw]
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] 4.6 Display Unit [M80VW] 4.6.1 15-type (FCU8-DU182-36) Outline dimensions [mm] (Space required for wiring) Bottom Note (1) The figure above shows the state with the personal computer unit mounted. IB-1501612-C...
Page 91 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] Panel cut dimensions [mm] (Unit outline) 193±0.3 193±0.3 199±0.3 183±0.3 screw 8-M3 8±0.2 8±0.2 193.5 (Square hole dimension) IB-1501612-C...
Page 92: 19-Type (Fcu8-Du193-77)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] 4.6.2 19-type (FCU8-DU193-77) Outline dimensions [mm] (Space required for wiring) Bottom Note (1) The figure above shows the state with the personal computer unit and the operation panel I/O unit mounted. IB-1501612-C...
Page 93 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] Panel cut dimensions 365 (Unit outline) [mm] (12) 170.5±0.3 170.5±0.3 (12) 17±0.2 17±0.2 188.5±0.3 154.5±0.3 5 holes 328 (Square hole dimension) 9 holes IB-1501612-C...
Page 94: 19-Type (Fcu8-Du194-77)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] 4.6.3 19-type (FCU8-DU194-77) Outline dimensions [mm] (Space required for wiring) Bottom Note (1) The figure above shows the state with the personal computer unit and the operation panel I/O unit mounted. IB-1501612-C...
Page 95 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] Panel cut dimensions [mm] 440 (Unit outline) 417±0.3 (12) (12) 416±0.3 393±0.3 273±0.3 245±0.3 171±0.3 143±0.3 23±0.2 1±0.2 Square hole (Square hole dimension) IB-1501612-C...
Page 96: Precautions
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.6 Display Unit [M80VW] 4.6.4 Precautions [Precautions for handling touchscreen] (1) Operate the touchscreen with fingers. The touchscreen does not react with nails. (2) The use of gloves, work gloves, etc. will have effects such as the deterioration of the operation feeling depending on the material and thickness of the gloves.
Page 97: Personal Computer Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit 4.7 Personal Computer Unit 4.7.1 Personal Computer Unit (FCU8-PC232) Outline dimensions 53.5 (Unit mount surface) IB-1501612-C...
Page 98 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit Connector (15) (16) (17) (10) (11) (12) (14) (13) (18) No. Connector name Function No. Connector name Function (1) LVDS1 Display unit signal I/F 1st ch (10) USB2-6 USB 2.0 I/F 6th ch (2) LVDS2 Display unit signal I/F 2nd ch...
Page 99 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit (5) USB2-1 (USB 2.0 I/F 1st ch) (6) USB2-2 (USB 2.0 I/F 2nd ch) (7) USB2-3 (USB 2.0 I/F 3rd ch) (8) USB2-4 (USB 2.0 I/F 4th ch) (9) USB2-5 (USB 2.0 I/F 5th ch) (10) USB2-6 (USB 2.0 I/F 6th ch) -Data0...
Page 100 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit (13) ON/OFF (Power supply ON/OFF interface) POFF <Cable side connector type> Connector: 51030-0430 Contact: 0016020103 Manufacturer: MOLEX IB-1501612-C...
Page 101 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit (14) DCIN (24 VDC input) +24V <Cable side connector type> Connector: 2-178288-3 Contact: 1-175218-5 Manufacturer: TE Connectivity [Power supply specifications] Consider the following selection items when selecting the stabilized power supply (supplied by the machine tool manufacturer).
Page 102 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit (15) CFAST (Internal disk connection of display unit) (16) LAN (Ethernet I/F) (17) GDI (Ethernet I/F for connection to control unit) BI_DA+ BI_DA+ BI_DA- BI_DA- BI_DB+ BI_DB+ BI_DC+ BI_DC+ BI_DC-...
Page 103 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit Status Name Function Color Normal At fault DCIN 24 VDC input observation Green Not lit DCOUT DC internal power supply output observation Green Not lit 12 VDC output observation Green Not lit 5 VDC output observation...
Page 104: Built-In Disk Of The Display Unit (Fcu8-Cf060G-1)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.7 Personal Computer Unit 4.7.2 Built-in Disk of the Display Unit (FCU8-CF060G-1) Outline dimensions 42.8  Precautions for handling [Precautions for use]  Turn the MITSUBISHI device's power OFF before inserting or removing a built-in disk of the display unit. ...
Page 105: Keyboard Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.8 Keyboard Unit 4.8 Keyboard Unit Note (1) Do not change the setting for the rotary switch mounted on the keyboard unit. If the setting is changed, the keyboard will not work. Type name The initial value of the rotary switch FCU8-KB083...
Page 106: Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit 4.9 Operation Panel I/O Unit 4.9.1 List of Units Classification Type Components Remarks DI 24 V/0 V common input [64 FCU8-DX830 Base card DI: 64-point 24 V/0 V common type points] Add-on card DO: 64-point source type (200 mA/...
Page 107: Fcu8-Dx830/Fcu8-Dx834/Fcu8-Dx837
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit 4.9.2 FCU8-DX830/FCU8-DX834/FCU8-DX837 Outline dimensions: FCU8-DX830 [mm] 99 (Space required for wiring) Outline dimensions: FCU8-DX834 [mm] 99 (Space required for wiring) IB-1501612-C...
Page 108 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit Outline dimensions: FCU8-DX837 [mm] 99 (Space required for wiring) IB-1501612-C...
Page 109 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit Installation dimensions: FCU8-DX830/FCU8-DX834/FCU8-DX837 [mm] 116 (Unit outline) 106±0.3 4-M3 screw Note  The unit thickness of the fixed part with screws is 16.6 mm. Select the fixing screws having the length suitable for the thickness. IB-1501612-C...
Page 110 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit Connector FCU8-DX830 FCU8-DX834 (10) (10) (15) (11) (14) (11) (14) FCU8-DX837 (10) (12) (11) (14) No. Connector name Function No. Connector name Function (1) CG31 Machine signal input (9) DCIN 24 VDC input (2) CG32...
Page 111 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc. Incorrect connections could cause the devices to rupture or damage, etc. Always connect the cables to the indicated connectors or terminals.
Page 112 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [Outline of digital signal input circuit] Both 24 V common and 0 V common connections are allowed in the digital signal input circuit. Follow the wiring diagram below for each type. <Input circuit>...
Page 113 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (2) CG32 (Machine signal output) Digital output 32 points (1st station) (4) CG34 (Machine signal output) Digital output 32 points (2nd station) [FCU8-DX830/FCU8-DX837] CG32 CG34 Y200 Y210 Y220 Y230...
Page 114 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [FCU8-DX834] CG32 CG34 Y200 Y210 Y220 Y230 Y201 Y211 Y221 Y231 Y202 Y212 Y222 Y232 Y203 Y213 Y223 Y233 Y204 Y214 Y224 Y234 Y205 Y215 Y225 Y235 Y206 Y216...
Page 115 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> [FCU8-DX830/FCU8-DX837] Source output CG32/CG34 DOCOM Stabilized Control power supply circuit 24VDC(+) Load Y200 Y23F...
Page 116 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit Note  When using an inductive load such as a relay, always connect a diode (voltage resistance 100 V or more, twice or more the load current) in parallel to the load. Source output Inductive load Diode...
Page 117 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (5) MPG (Manual pulse generator input) 5 V manual pulse generator and 12 V manual pulse generator can be connected to this connector. HA3A HA3B HA2A HA2B HA1A HA1B...
Page 118 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit <Specification of input part> 5 V manual pulse generator 12 V manual pulse generator Number of pulse phases Two phases (A phase, B phase, a phase difference 90 degrees) (Refer to the waveform below.) Signal output of manual pulse generator Open collector output H level 3.5 V to 5.25 V...
Page 119 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit <Input/output circuit> 5 V manual pulse generator 470Ω HA1A HA2A HA3A 470Ω Control circuit HA1B HA2B HA3B 12 V manual pulse generator 470Ω HA1A HA2A HA3A 470Ω...
Page 120 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (6) RIO3EXT (Remote I/O 2.0 communication) (7) RIO3 (Remote I/O 2.0 communication) 1 2 3 TXRXD TXRXD* <Cable side connector type> Connector: 1-1318119-3 Contact: 1318107-1 Manufacturer: TE Connectivity Refer to the following chart for the maximum number of connecting stations and I/O points to the connector RIO3.
Page 121 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (9) DCIN (24 VDC input) +24V <Cable side connector type> Connector: 2-178288-3 Contact: 1-175218-5 Manufacturer: TE Connectivity [Power supply specifications] Consider the following selection items when selecting the stabilized power supply (supplied by the machine tool manufacturer).
Page 122 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (12) SDI (Safety machine input) Note  SDI is only for FCU8-DX837. IO24VB IO0VB IO24VA IO0VA SX07B COMB+ SX07A COMA+ SX06B COMB+ SX06A COMA+ SX05B COMB+ SX05A COMA+ SX04B...
Page 123 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [Outline of digital signal input circuit] Follow the wiring diagram below. <Input circuit> 0V common External duplication contact SX0A 5kΩ Control circuit SX7A SX0B 5kΩ SX7B Control COMA+ circuit...
Page 124 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit <Input conditions> Set the input signal within the range as shown in the conditions below. 0V common Input voltage at external contact ON 18 V or more, 25.2 V or less Input current at external contact ON 3M A or more Input voltage at external contact OFF...
Page 125 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit (15) OPKB (Scan input, scan output) OPKB LC3B LC3A LC2B LC2A LC1B LC1A LC0B LC0A LD7B* LD7A* LD6B* LD6A* LD5B* LD5A* LD4B* LD4A* LD3B* LD3A* LD2B* LD2A* LD1B* LD1A*...
Page 126 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [Outline of scan input circuit] <Input circuit> OPKB KYC0* KYC1* KYC2* Control circuit KYD0* KYD1* KYD2* <Input conditions> Number of points 64 points Configuration Matrix of 8 common signals × 8 data signals Rated voltage 5 VDC Minimum applicable load...
Page 127 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit [Outline of scan output circuit] <Output circuit> OPKB LC0A LC1A LC2A Control circuit 100Ω LD0A* LD1A* LD2A* <Output conditions> Number of points 64 points Configuration Matrix of 4 common signals × 4 data signals + 4 common signals × 4 data signals Rated voltage 5 VDC Maximum output current...
Page 128 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.9 Operation Panel I/O Unit FCU8-DX830/FCU8-DX837 FCU8-DX834 (10) (10) (11) (11) Status Name Function Color Details Normal At fault (1) FUSE Fuse status Green Not lit Not lit when a fuse has been blown out. Energization status of 24 VDC input (DOCOM) (2) DOCOM Green...
Page 129: Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit 4.10 Remote I/O Unit Types of signals described on the list of units can be input/output from the remote I/O unit (FCU8-DXxxx) according to the type and No. of contacts. Remote I/O units are used by being connected to the control unit or the operation panel I/O unit. Multiple remote I/O units can be used as long as the total number of occupied stations is 64 or less.
Page 130: Fcu8-Dx220/Fcu8-Dx230/Fcu8-Dx231/Fcu8-Dx202/Fcu8-Dx213/ Fcu8-Dx213-1/Fcu8-Dx654/Fcu8-Dx654-1/Fcu8-Dx651/Fcu8-Dx408/ Fcu8-Dx409
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit 4.10.2 FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/ FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1/FCU8-DX651/FCU8-DX408/ FCU8-DX409 Outline dimensions: FCU8-DX220 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-DX230 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 131 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Outline dimensions: FCU8-DX231 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-DX202 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 132 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Outline dimensions: FCU8-DX213 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-DX213-1 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 133 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Outline dimensions: FCU8-DX654 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-DX654-1 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 134 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Outline dimensions: FCU8-DX651 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-DX408 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 135 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Outline dimensions: FCU8-DX409 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 136 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Installation dimensions: FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/ FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1/FCU8-DX408/FCU8-DX409 [mm] (Unit outline) 2-M5 Screw Installation dimensions: FCU8-DX651 [mm] 3-M5 Screw 88 ± 0.2 (Unit outline) IB-1501612-C...
Page 137 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Connector FCU8-DX220 FCU8-DX230/DX231 FCU8-DX202 FCU8-DX213/DX213-1 FCU8-DX654/DX654-1 (s1) (s2) (s1) (s1) (s1) (s1) (13) (s2) (s2) (s2) (s2) (14) (13) (13) (13) (13) (19) (14) (14) (14) (14) (15) (15) (15)
Page 138 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc. Incorrect connections could cause the devices to rupture or damage, etc. Always connect the cables to the indicated connectors or terminals.
Page 139 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal input circuit] Both 24 V common and 0 V common connections are allowed in the digital signal input circuit. Follow the wiring diagram below for each type. <Input circuit>...
Page 140 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (2) CJ32 (Machine signal output) (4) CJ34 (Machine signal output) CJ32 CJ34(FCU8-DX230) CJ34(FCU8-DX231) O Y00 O Y10 O Y20 O Y20 O Y01 O Y11 O Y21 O Y21 O Y02 O Y12...
Page 141 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> Source output 24VDC Control circuit CJ32/CJ34 Load <Output conditions> Insulation method Non-insulation Rated load voltage 24 VDC 0.2 A per point...
Page 142 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Note  When using an inductive load such as a relay, always connect a diode (voltage resistance 100 V or more, twice or more the load current) in parallel to the load. Source output 24VDC Control...
Page 143 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of analog signal output circuit] The analog signal output circuit can be used only for FCU8-DX231. <Output circuit> CJ34 Load 500Ω <Output conditions> Analog output voltage -10 to 10 V (±5%) Resolution 10 V/4095 = 2.44 mV...
Page 144 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (5) CJ35 (Machine signal input) COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ <Cable side connector type> Connector: 713-1116/037-000 Manufacturer: WAGO (The cable side connector is attached to the unit.) IB-1501612-C...
Page 145 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal input circuit] Follow the wiring diagram below. <Input circuit> 0V common CJ35 External contact Input resistance Control COMA+ circuit External contact Input resistance COMB+ CJ36 Stabilized...
Page 146 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (6) CJ36 (Machine signal output) IO24VB IO0VB IO24VA IO0VA COMB- COMA- COMB- COMA- COMB- COMA- COMB- COMA- <Cable side connector type> Connector: 713-1110/037-000 Manufacturer: WAGO (The cable side connector is attached to the unit.) IB-1501612-C...
Page 147 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> Source output CJ36 Stabilized power supply IO24VA 24VDC(+) IO24VB Voltage IO0VA conversion IO0VB Control Load...
Page 148 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Note  When using an inductive load such as a relay, always connect a diode (voltage resistance 100 V or more, twice or more the load current) in parallel to the load. Source output 24VDC Control...
Page 149 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (7) SDI (Safety machine signal input) SX07B COMB+ SX07A COMA+ SX06B COMB+ SX06A COMA+ SX05B COMB+ SX05A COMA+ SX04B COMB+ SX04A COMA+ SX03B COMB+ SX03A COMA+ SX02B COMB+ SX02A COMA+...
Page 150 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal input circuit] Follow the wiring diagram below. <Input circuit> 0V common External duplication contact SX0A Input resistance Control circuit SX3A SX0B Input resistance SX3B Control COMA+...
Page 151 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (8) SDO (Safety machine signal output) IO24VB IO0VB IO24VA IO0VA SY03B COMB- SY03A COMA- SY02B COMB- SY02A COMA- SY01B COMB- SY01A COMA- SY00B COMB- SY00A COMA- <Cable side connector type> Connector: 713-1110/037-000 Manufacturer: WAGO (The cable side connector is attached to the unit.)
Page 152 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> Source output Stabilized power supply Voltage 24VDC(+) conversion IO24VA Control circuit IO0VA Stabilized power supply 24VDC(+)
Page 153 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit Note  When using an inductive load such as a relay, always connect a diode (voltage resistance 100 V or more, twice or more the load current) in parallel to the load. Source output 24VDC Control...
Page 154 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (9) SDI1 (Safety DI input) COM+ SX04B COM+ SX04A COM+ SX03B COM+ SX03A COM+ SX02B COM+ SX02A COM+ SX01B COM+ SX01A COM+ SX00B COM+ SX00A <Cable side connector type> Connector: 175362-1 (2-pole type) Connector: 175363-1 (4-pole type) Connector: 1318095-1 (6-pole type)
Page 155 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal input circuit] Follow the wiring diagram below. <Input circuit> External duplication contact SDI1 / SDI2 SX00A 5kΩ Control circuit SX07A SX00B 5kΩ 24VDC SX07B COM+ Control...
Page 156 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (10) SDI2 (Safety DI input) COM+ SX07B COM+ SX07A COM+ SX06B COM+ SX06A COM+ SX05B COM+ SX05A <Cable side connector type> Connector: 175362-1 (2-pole type) Connector: 175363-1 (4-pole type) Connector: 1318095-1 (6-pole type) Contact: 175218-2 Manufacturer: TE Connectivity...
Page 157 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> SDO1 24VDC SYR00A Load Control circuit SYR03A SYR00A SYR03A SDO2 Control circuit SYR00B Load SYR03B...
Page 158 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit <Precautions>  Influence on the relay life by a connected load An actual relay life can be substantially shortened depending on the type of a connected load and the characteristics of its inrush current.
Page 159 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit  Measures against back EMF Provide a contact protection circuit for an extended contact life, noise prevention at contact close, and reduction of the carbides and nitric acids formed by an arc discharge. An incorrect circuit involves a high risk of contact welding.
Page 160 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (13) RIO1 (Remote I/O 2.0 communication) (14) RIO2 (Remote I/O 2.0 communication) 1 2 3 TXRXD TXRXD* <Cable side connector type> Connector: 1-1318119-3 Contact: 1318107-1 Manufacturer: TE Connectivity (15) DCIN (24 VDC input) +24 V <Cable side connector type>...
Page 161 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (17) FG (FG terminal) (18) FG (FG terminal (M4 screw)) (19) AIO1 (Analog input, analog output) Analog input and analog output can be connected to this connector. AI 0 AI 1 AI 2...
Page 162 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit [Outline of analog signal input circuit] <Input circuit> AIO1 <Input conditions> Analog input voltage -10 to 10 V Max. input rating (*1) ±15 V Resolution |-10 to +10 V|/4095 = 4.88 mV Repeatability Within ±25 mV (*2) Tolerance...
Page 163 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (20) THERMISTOR (Thermistor input) Thermistor can be connected to this connector. CH10 CH11 CH12 Thermistor CH1 Thermistor CH2 Thermistor CH3 Thermistor CH4 Thermistor CH5 Thermistor CH6 Thermistor CH1 Thermistor CH2 Thermistor CH3 Thermistor CH4...
Page 164 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (21) AI (Multi-analog input) V+/A V+/A l+/a/CJ+ l+/a/CJ+ V-/l-/B V-/l-/B b/CJ- b/CJ- V+/A V+/A l+/a/CJ+ l+/a/CJ+ V-/l-/B V-/l-/B b/CJ- b/CJ- <Cable side connector type> Connector: DFMC1,5/12-ST-3,5-LR Manufacturer: Phoenix Contact (The cable side connector is attached to the unit.) [Outline of multi-analog input circuit] There are four types of multi-analog input as below:...
Page 165 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (a) Outline of voltage input circuit <Input circuit> FCU8-DX409 Voltage source <Input conditions> Set the input signal within the range as shown in the conditions below. Input voltage range -10 V to +10 V Max.
Page 166 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (c) Outline of thermocouple input circuit <Input circuit> FCU8-DX409 Thermocouple Constant current source Cold junction compensation resistor (Pt100) Set the lead length 2cm or shorter. (As a guide) <Input conditions>...
Page 167 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (d) Outline of resistance temperature detector input circuit <Input circuit> FCU8-DX409 <3-wire type> Constant current source Resistance temperature detector <4-wire type> FCU8-DX409 Constant current source Resistance temperature detector <Input conditions>...
Page 168 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (e) Supplement: Overall precision of temperature measurement The precision shown in (c) and (d) is the one attributed to the unit. The thermocouple or resistance temperature detector input to the unit also has precision and the overall precision of temperature measurement is the addition of the precision of unit and the precision of thermocouple or resistance temperature detector.
Page 169 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit (s1) STATION No. (Station No. group setting switch) (s2) STATION No. (Station No. setting switch) (s3) STATION No. (Station No. setting switch) IB-1501612-C...
Page 170 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit LED: FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/FCU8-DX213-1/ FCU8-DX654/FCU8-DX654-1/FCU8-DX408/FCU8-DX409 FCU8-DX220/FCU8-DX230/FCU8-DX231/ FCU8-DX213/FCU8-DX213-1/ FCU8-DX202 FCU8-DX408 FCU8-DX409 FCU8-DX654/FCU8-DX654-1 Status Name Function Color Details Normal At fault RIOVER RIO communication status Green Lit when RIO2.0 communica- tion is occurring Not lit when RIO1.0 commu- nication is occurring RIO communication error...
Page 171 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.10 Remote I/O Unit LED: FCU8-DX651 Status Name Function Color Details Normal At fault Safety relay output SYR00 status Green Lit Not lit Not lit when the relay is welded. Safety relay output SYR01 status Green Lit Not lit Not lit when the relay is welded.
Page 172: Laser I/F Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit 4.11 Laser I/F Unit 4.11.1 FCU8-DX522-001 Outline dimensions [mm] (Space required for wiring) Bottom Installation dimensions [mm] (Unit outline) 2-M5 Screw IB-1501612-C...
Page 173 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit Connector (s1) No. Connector name Function CONA Laser oscillator signal input Laser oscillator signal output CONB Laser oscillator signal input Laser oscillator signal output (PWM output, relay output) CONC Analog input Analog output...
Page 174 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc. Incorrect connections could cause the devices to rupture or damage, etc. Always connect the cables to the indicated connectors or terminals.
Page 175 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of digital signal input circuit] Connection to 0 V common only is also allowed in the digital signal input circuit. Follow the wiring diagram below. <Input circuit> Laser oscillator CONA +24V...
Page 176 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of digital signal output circuit] Use within the specification ranges shown below. <Output circuit> Source output Laser oscillator CONA Control circuit DO15 <Output conditions> Insulation method Insulation Rated load voltage 24 V...
Page 177 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit Note  When using an inductive load such as a relay, always connect a diode (voltage resistance 100 V or more, twice or more the load current) in parallel to the load. Source output Inductive load Diode...
Page 178 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit (2) CONB (laser oscillator signal input, laser oscillator signal output) DI19 DI18 DI17 +24 V DI16 +24 V DO16 DO17_IN DO17_OUT DO18_IN DO18_OUT DO19_IN DO19_OUT <Cable side connector type> Discrete wire pressure welding socket: XG5M-2632-N Semi-cover for pressure welding: XG5S-1301 Discrete wire crimp socket: XG5N-261...
Page 179 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of digital signal input circuit] Connection to 0 V common only is also allowed in the digital signal input circuit. Follow the wiring diagram below. <Input circuit> Laser oscillator CONB +24V...
Page 180 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of PWM signal output circuit] Use within the specification ranges shown below. A use as digital signal output is available. Note PWM signal cannot be output from DO16 at the same time as analog output. To output PWM from analog output, use DO16 as digital signal output.
Page 181 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of relay signal output circuit] Use within the specification ranges shown below. Use a RIO unit with built-in relay for functional safety. <Output circuit> Laser oscillator CONB DO17_OUT Control...
Page 182 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit <Precautions>  Influence on the relay life by a connected load An actual relay life can be substantially shortened depending on the type of a connected load and the characteristics of its inrush current.
Page 183 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit  Measures against back EMF Provide a contact protection circuit for an extended contact life, noise prevention at contact close, and reduction of the carbides and nitric acids formed by an arc discharge. An incorrect circuit involves a high risk of contact welding.
Page 184 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit (3) CONC (Analog input, Analog output) Reserved Reserved Reserved Reserved <Cable side connector type> Discrete wire pressure welding socket: XG5M-2632-N Semi-cover for pressure welding: XG5S-1301 Discrete wire crimp socket: XG5N-261 Contact for crimp: XG5W-0231 Manufacturer: OMRON IB-1501612-C...
Page 185 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit [Outline of analog signal input circuit] <Input circuit> Laser oscillator CONC <Input conditions> Analog input voltage 0 V to 10 V Max. input rating (*1) 12.5 V Resolution +10 V/16383 = 0.6104 mV Repeatability...
Page 186 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit (4) RIO (remote I/O laser connection) 1 2 3 TXRXD TXRXD* <Cable side connector type> Connector: 1-1318119-3 Contact: 1318107-1 Manufacturer: TE Connectivity Note When the laser I/F unit is connected, the remote I/O unit cannot be connected between the control unit and the laser I/F unit. (5) IODCIN (24 VDC input) (6) DCIN (24 VDC input) +24 V...
Page 187 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.11 Laser I/F Unit Status Name Function Color Details Normal At fault READY Communication status with control unit Green Lit Not lit Not lit when a communication error has occurred. ERROR Error status Not lit Lit when an error has occurred.
Page 188: Function Expansion Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12 Function Expansion Unit 4.12.1 Encoder (Manual Pulse Generator) I/F Expansion (FCU8-EX544) Outline dimensions [mm] 107.5 80 or more IB-1501612-C...
Page 189 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) ENC Encoder input (2) MPG Input for 5 V manual pulse generator CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc.
Page 190 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit (1) ENC (Encoder input) Synchronous feed encoder can be connected to this connector. ENC1Z ENC1Z* ENC1B ENC1B* ENC1A ENC1A* +5 V +5 V +5 V +5 V ...
Page 191 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit <Specification of input part> Three phases (A phase, B phase, a phase difference 90 degrees, Z phase) (Refer to Number of pulse phases the waveform below.) Signal output of the encoder RS422 differential driver output Input voltage range 0V to 5.25 V...
Page 192 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit (2) MPG (5 V Manual pulse generator input) 5 V manual pulse generator can be connected to this connector. +5 V HA2A HA2B HA1A HA1B +5 V +5 V ...
Page 193 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit <Specification of input part> Two phases (A phase, B phase, a phase difference 90 degrees) (Refer to the wave- Number of pulse phases form below.) Signal output of manual pulse generator Voltage output, open collector output H level 3.5 V to 5.25 V Signal voltage...
Page 194: Cc-Link (Fcu8-Ex561)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.2 CC-Link (FCU8-EX561) Outline dimensions [mm] 94.6 80 or more IB-1501612-C...
Page 195 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) CCL CC-Link communication CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc.
Page 196 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Name Color Status Description Green Lit CC-Link module normal Not lit Watchdog timer error LRUN Green Lit Data link in progress Green Lit Data being sent Green Lit Data being received Switch configuration fault (LERR also lit), master duplicate, faulty parameter, or com- munication error...
Page 197: Profibus-Dp (Fcu8-Ex563)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.3 PROFIBUS-DP (FCU8-EX563) Outline dimensions [mm] 94.6 100 or more IB-1501612-C...
Page 198 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) PBD PROFIBUS-DP CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc.
Page 199 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit No. and Name Color Status Description (1) RUN (Green) Green PROFIBUS-DP module operating normally (2) RDY (Yellow) Green/yellow Flashing Waiting to boot (Module status) Yellow Boot error No power supply, broken module (3) STA (Green) Green...
Page 200: Cc-Link Ie Field (Fcu8-Ex564)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.4 CC-Link IE Field (FCU8-EX564) Outline dimensions [mm] 94.6 80 or more IB-1501612-C...
Page 201 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) LAN1 CC-Link IE Field communication (2) LAN2 CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual. Failure to observe this could cause bursting, damage, etc.
Page 202 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Name Color Status Description Not lit Normal data received and loopback not performed L ERR Abnormal data received or loopback being performed Data being sent or received SD/RD Green Not lit...
Page 203: Ethernet/Ip (Fcu8-Ex565)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.5 EtherNet/IP (FCU8-EX565) Outline dimensions [mm] 94.6 80 or more IB-1501612-C...
Page 204 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) LAN1 EtherNet/IP communication Note  On this unit, EtherNet/IP function is supported by the "LAN1" port only. Do not use LAN2 because it does not support Eth- erNet/IP function.
Page 205 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Name Green LED Red LED Description MS (Green/red) Flashing Flashing Device self-testing (Module status) Flashing Not lit Waiting for initialization Not lit Normal operation Not lit Flashing Recoverable error Not lit Unrecoverable error (hardware replacement required)
Page 206: Fl-Net (Fcu8-Ex568)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.6 FL-net (FCU8-EX568) Outline dimensions [mm] 94.6 80 or more IB-1501612-C...
Page 207 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit Connector No. Connector name Function (1) LAN1 FL-net communication Note  On this unit, FL-net function is supported by the "LAN1" port only. LAN2 does not support FL-net function. CAUTION Do not apply any voltage to the connectors other than voltage specified in this manual.
Page 208 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit (1) Ignore LED on FCU8-EX568. (This is used by MITSUBISHI.) IB-1501612-C...
Page 209: Vibration Cutting Expansion Unit (Fcu8-Ex744)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.12 Function Expansion Unit 4.12.7 Vibration Cutting Expansion Unit (FCU8-EX744) Outline dimensions [mm] 94.6 IB-1501612-C...
Page 210: Side Memory I/F Unit
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.13 Side Memory I/F Unit 4.13 Side Memory I/F Unit Note (1) Side memory I/F unit is only for 19-type display unit. 4.13.1 FCU8-EP201-2 Outline dimensions [mm] (Packing thickness) Bottom IB-1501612-C...
Page 211 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.13 Side Memory I/F Unit Installation dimensions [mm] 2-M4 screw 29±0.3 (Valid depth of screw: 5.5 or more) Hole B - B IB-1501612-C...
Page 212: Manual Pulse Generator
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.14 Manual Pulse Generator 4.14 Manual Pulse Generator 4.14.1 5 V Manual Pulse Generator (UFO-01-2Z9)  100 pulse/rev Outline dimensions [mm] Gasket 3-M4 stud Index Panel cut diameter 72 at equal pitch 0V A B Bottom M3 x 6...
Page 213: Manual Pulse Generator (Hd60C)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.14 Manual Pulse Generator 4.14.2 12 V Manual Pulse Generator (HD60C)  25 pulse/rev Outline dimensions [mm] Packing t 2.0 3-M4 stud bolt L10 Installation of screws Bottom other than M3 x 6 not possible 24 0.5 27 0.5...
Page 214: Synchronous Feed Encoder
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.15 Synchronous Feed Encoder 4.15 Synchronous Feed Encoder 4.15.1 Synchronous Feed Encoder (OSE-1024-3-15-68) Outline dimensions [mm] Caution plate 5. 4 hole 19. 5 14. 3 - 0.11 - 0.006 - 0. 012 - 0.017 - 0.
Page 215 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.15 Synchronous Feed Encoder Connector <Connector pin assignment> Function Function A phase Z phase B phase A phase reverse Case grounding Z phase reverse B phase reverse +5 V IB-1501612-C...
Page 216: Machine Operation Panel
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel 4.16 Machine Operation Panel 4.16.1 Main Panels A/B (FCU8-KB921/FCU8-KB922/FCU8-KB925, FCU8-KB923/FCU8-KB924/FCU8-KB926) Outline dimensions: FCU8-KB921 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-KB922 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-KB925 [mm]...
Page 217 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel Outline dimensions: FCU8-KB923 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-KB924 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-KB926 [mm] (Space required for wiring) Bottom IB-1501612-C...
Page 218 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel Panel cut dimensions: FCU8-KB921/FCU8-KB922/FCU8-KB925 [mm] (Unit outline) 248±0.3 screw 4-M3 246±0.3 1±0.2 (6.5) (6.5) (Square hole dimension) Panel cut dimensions: FCU8-KB923/FCU8-KB924/FCU8-KB926 [mm] (Unit outline) 278±0.3 4-M3 screw 276±0.3 1±0.2 (6.5)
Page 219 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel Connector FCU8-KB921/ (2) (3) (4) FCU8-KB922/ FCU8-KB925 FCU8-KB923/ (2) (3) (4) FCU8-KB924/ FCU8-KB926 No. Connector name Function No. Connector name Function (1) DCIN 24 VDC input (4) RIOOUT Remote I/O 2.0 communication (relay) (2) DCOUT 24 VDC output...
Page 220 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel (1) DCIN (24 VDC input) +24V <Cable side connector type> Connector: 2-178288-3 Contact: 1-175218-5 Manufacturer: TE Connectivity (2) DCOUT (24 VDC output) +24V <Cable side connector type> Connector: 2-178288-3 Contact: 1-175218-5 Manufacturer: TE Connectivity...
Page 221 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel (6) SUBP (Sub panel connection) Spare SW(ZR5423[5]) Spare SW(ZR5423[4]) Spare SW(ZR5423[3]) Memory protection (ZR5423[2]) RSW3_G(ZR5423[1]) RSW3_F(ZR5422[D]) RSW3_E(ZR5422[F]) RSW3_D(0 V) RSW3_C(ZR5423[0]) RSW3_B(ZR5422[E]) RSW3_A(ZR5422[C]) RSW2_G(ZR5422[B]) RSW2_F(ZR5422[7]) RSW2_E(ZR5422[9]) RSW2_D(0 V) RSW2_C(ZR5422[A]) RSW2_B(ZR5422[8]) RSW2_A(ZR5422[6])
Page 222: Sub Panel A (Fcu8-Kb931/Fcu8-Kb941)
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel 4.16.2 Sub Panel A (FCU8-KB931/FCU8-KB941) Outline dimensions: FCU8-KB931 [mm] (Space required for wiring) Bottom Outline dimensions: FCU8-KB941 [mm] (Space required for wiring) Bottom Panel cut dimensions: FCU8-KB931/FCU8-KB941 [mm] (Unit outline) 128±0.3...
Page 223 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel Connector Switch name Switch name (1) Rapid traverse override (4) ON switch (2) Emergency stop switch (5) OFF switch (3) Memory protection switch (6) Cutting override (1) Rapid traverse override Output signal a Output signal c Output signal e...
Page 224 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel (2) Emergency stop switch Contact 1 (B contact) Contact 2 (B contact) <Switch type> Switch: XA1E-BV4U02TR Manufacturer: IDEC Connection: Terminal <Cable side connector type> Connector: Faston terminal #110 Manufacturer: - (3) Memory protection switch Contact 2 Contact 1...
Page 225 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel (4) ON switch Switch NC NO Lamp terminal (+) Lamp terminal (-) Contact 1 (A contact) Contact 2 (B contact) Note  Connect LGCON terminal and ON terminal of G170 cable to NO terminal of ON switch. <Switch type>...
Page 226 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.16 Machine Operation Panel (6) Cutting override Output signal a Output signal c Output signal e Common terminal Output signal d Output signal b Parity check signal <Switch type> Switch: AC09-GY0/20L3B02 Manufacturer: Fuji Electric Connection: Connector <Switch side connector type>...
Page 227: Handy Terminal
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.17 Handy Terminal 4.17 Handy Terminal Unit name Handy terminal Item Type HG1T-SB12UH-MK1346-L5 During operation 0 to 40 °C Ambient temperature During storage -20 °C to 60 °C Long term: 10 to 75% RH (with no dew condensation) Ambient humidity General specifica- Short term: 10 to 95% RH (with no dew condensation) (*1)
Page 228 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.17 Handy Terminal Dimension and names of parts 46.7 (10) (11) 11.5 Name Function/Specification Name Function/Specification Monochrome display with backlight Host interface connector (1) LCD (7) HOST 192 (W) × 64 (H) dots (DDK: 17JE-23250-02(D8A6)) Emergency stop switch Contact rating/Contact: 24 VDC, 1A...
Page 229 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.17 Handy Terminal [Signal explanation] HOST terminal No. HOST connector signal name Input/Output Function/Name Frame ground Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Ground RS(RTS) RS-232C communication signal (Request To Send) CS(CTS) RS-232C communication signal (Clear To Send) SW2_C11...
Page 230 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.17 Handy Terminal [Terminal connections] Handy terminal side 24VDC(+) Insulation type DC-DC 24VDC input 24VDC(-) converter SW2_C11 SW2_C12 Enable switch SW2_C21 SW2_C22 SW1_NC11 SW1_NC12 Emergency stop switch SW1_NC21 SW1_NC22 SW6_NO1 Switchover switch SW6_C1 IB-1501612-C...
Page 231: Thermistor
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.18 Thermistor 4.18 Thermistor 4.18.1 Thermistor(PT3C-51F-M2) Outline dimensions [mm] 250±10 Made by SHIBAURA ELECTRONICS Co., Ltd. Ambient temperature -10 to + 190 °C Insulation resistance 100 MΩ or more at 500 VDC [between case and lead wire] IB-1501612-C...
Page 232: Exclusive Sd Cards
M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.19 Exclusive SD Cards 4.19 Exclusive SD Cards Item FCU8-SD001G FCU8-SD004G Capacity 1 GB 4 GB NAND Flash SLC (*1) During operation -25 °C to +85 °C Ambient temperature During storage -40 °C to +85 °C During operation 5% to 95%RH (with no dew condensation)
Page 233: Specifications And Precautions Of Usb/Sd/Lan Interface
 Precautions for insertion/removal of USB memory When inserting/removing a USB memory, turn the Mitsubishi Electric device's power OFF. Do not pull out the USB memory or turn OFF the power during access to the USB memory. Failure to observe this could cause the memory contents to be erased.
Page 234: Sd Interface (Control Unit, Side Memory I/F Unit)
 Precautions for insertion/removal of SD card When inserting/removing an SD card, turn the Mitsubishi Electric device's power OFF. Do not pull out the card or turn OFF the power during access to the SD card. Failure to observe this could cause the memory contents to be erased.
Page 235 M800VW/M80VW Series Connection and Setup Manual 4 General Specifications 4.20 Specifications and Precautions of USB/SD/LAN Interface IB-1501612-C...
Page 236: Installation
Installation IB-1501612-C...
Page 237: Heat Radiation Countermeasures
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.1 Heat Radiation Countermeasures 5.1 Heat Radiation Countermeasures Please refer to the following method for heat radiation countermeasures. Example of heat radiation countermeasures  Hypothetical conditions  Average internal temperature of operation panel: T ≤ 58 °C ...
Page 238 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.1 Heat Radiation Countermeasures The following shows an example of calculation applied to heat radiation countermeasures for the operation panel when 19- type display unit is used. Because heat will accumulate in the upper portions of the unit, install an agitating fan as required. (Agitating fan) Display unit IB-1501612-C...
Page 239 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.1 Heat Radiation Countermeasures Calculation example of panel internal heating value [Calculation of unit heating value (In the case of FCU8-DU193-75 + FCU8-PC232 + FCU8-DX837)] <Heating value (W)> Total heating value of units (W): 60 W (= display unit + personal computer unit + operation panel I/O unit) Total heating value (W) by machine input (D1) : 9.2 W (= 24 V (total heating value when the 80 points are simultaneously turned ON) ×...
Page 240: Noise Countermeasures
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.2 Noise Countermeasures 5.2 Noise Countermeasures 5.2.1 Connection of Frame Ground (FG) The frame should basically be grounded at one ground point. Because the personal computer unit and the operation panel I/O unit are located in a place away from the electric cabinet, connect the ground terminal of the personal computer to the grounding plate of the operation section and connect the grounding plate of the operation panel to the grounding plate of the electric cabinet.
Page 241: Shield Clamping Of Cables
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.2 Noise Countermeasures 5.2.2 Shield Clamping of Cables The shield of the shield cable connected to the control unit and drive unit must be connected to the grounding plate to stabilize operation while preventing malfunctioning due to noise. The shield can be connected to the grounding plate with lead wires or clamp fittings.
Page 242: Connecting Spark Killers
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.2 Noise Countermeasures 5.2.3 Connecting Spark Killers The noise which is generated during the operation of the coil or contact needs to be eliminated. Connect the spark killers (CR composite element) in the parallel with the coil and the contact for the countermeasure. The Spark killer is effective in eliminating the noise generated by electromagnetic induction.
Page 243: Lightning Surge Protection Countermeasure
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.2 Noise Countermeasures 5.2.4 Lightning Surge Protection Countermeasure Generally, the lightning surge intrudes into the control power supply of device from the power supply line, and the surge may damage the control power supply and the internal circuit. For protection from the lightning surge, MITSUBISHI CNC unit has the surge absorber for the control power supply of the CNC control section and the CNC drive section.
Page 244: Unit Installation
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3 Unit Installation 5.3.1 Control Unit Mount the control unit with the prescribed number of fixing screws. Note (1) Refer to "4.3 Control Unit [M800VW]" for the installation dimensions and "4.4 Control Unit [M80VW]" for screw hole posi- tions.
Page 245 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation FCU8-MU054 Fixing screw: M5 (3 pieces) IB-1501612-C...
Page 246: Display Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.2 Display Unit Mount the display unit with the prescribed number of fixing screws. Note (1) Refer to "General Specifications: Display Unit" for the panel cut dimension drawing and the screw hole position. FCU8-DU182 (15-type display unit) [Front mounting] Fixing screw: Cheese head screw M3 (8 pieces)
Page 247 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation FCU8-DU193 (19-type display unit) Fixing screw: Use M4 × 10 with spring washer and plain washer (10 screws). IB-1501612-C...
Page 248 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation FCU8-DU194 (19-type display unit) Fixing screw: Use M4 × 10 with spring washer and plain washer (10 screws). IB-1501612-C...
Page 249: Keyboard Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.3 Keyboard Unit Mount the keyboard unit with the prescribed number of fixing screws. Note (1) Refer to "4.8 Keyboard Unit" for the panel cut dimension drawing and screw hole positions. FCU8-KB083 [Front mounting] Fixing screw: Cheese head screw M3 (6 pieces)
Page 250: Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.4 Operation Panel I/O Unit Mount the operation panel I/O unit with the prescribed number of fixing screws. Note (1) Refer to "4.9 Operation Panel I/O Unit" for the installation dimensions and screw hole positions. FCU8-DX830/FCU8-DX834/FCU8-DX837 Fixing screw: M3 (4 pieces) [Installation on the back side of the keyboard]...
Page 251: Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.5 Remote I/O Unit Mount the remote I/O unit with the prescribed number of fixing screws. Note (1) Refer to "4.10 Remote I/O Unit" for the installation dimensions and screw hole positions. FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/FCU8-DX213-1/ FCU8-DX654/FCU8-DX654-1/FCU8-DX408/FCU8-DX409 Fixing screw: M5 (2 pieces)
Page 252 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation FCU8-DX651 Fixing screw: M5 (3 pieces) IB-1501612-C...
Page 253 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation  Installation to DIN rail (1) Set down the rail hook. (2) Hook the upper latch of the unit on the DIN rail. (3) Push the unit into the rail. (4) Lock it.
Page 254: Laser I/F Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.6 Laser I/F Unit Mount the laser I/F with the prescribed number of fixing screws. Note (1) Refer to "4.11 Laser I/F Unit" for the installation dimensions and screw hole positions. FCU8-DX522-001 Fixing screw: M5 (2 pieces) IB-1501612-C...
Page 255 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation  Installation to DIN rail (1) Set down the rail hook. (2) Hook the upper latch of the unit on the DIN rail. (3) Push the unit into the rail. (4) Lock it.
Page 256: Function Expansion Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.7 Function Expansion Unit Connect the function expansion unit to the function expansion slot of the control unit. Connect to the appropriate function expansion slot corresponding to the function expansion unit used. Function expansion unit Function expansion slot FCU8-EX544...
Page 257: Side Memory I/F Unit
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.8 Side Memory I/F Unit Mount the side memory I/F unit with two fixing screws. Note (1) Refer to "4.13 Side Memory I/F Unit" for the installation dimensions and screw hole positions. (2) Side memory I/F unit is only for 19-type display unit.
Page 258: Machine Operation Panel
M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation 5.3.9 Machine Operation Panel Mount the machine operation panel (main panel and sub panel) with the prescribed number of fixing screws. Note (1) Refer to "4.16 Machine Operation Panel" for the panel cut dimension drawing and screw hole positions. FCU8-KB921/KB922/KB923/KB924/KB925/KB926 [Front mounting] Fixing screw: Cheese head screw M3 (4 pieces)
Page 259 M800VW/M80VW Series Connection and Setup Manual 5 Installation 5.3 Unit Installation FCU8-KB931/FCU8-KB941 [Front mounting] Fixing screw: Cheese head screw M3 (4 pieces) (Fixing screws are provided with the unit.) [Rear mounting] Fixture: M3 nut (4 pieces) (4 screw caps (a) provided with the unit.) IB-1501612-C...
Page 260: Precautions For Connecting
Precautions for Connecting IB-1501612-C...
Page 261: Precautions For Wiring
M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.1 Precautions for Wiring 6.1 Precautions for Wiring 6.1.1 Precautions when Connecting/Disconnecting Cables If the cable is connected/disconnected without turning the power OFF, the normal unit or peripheral devices could be damaged, and risks could be imposed.
Page 262 M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.1 Precautions for Wiring (b) For flat cable type connectors with latches, open the latches in the directions of the arrows and pull the connector off. Open Pull (c) For flat cable type connector without latches, hold the connector with a thumb and forefinger and pull the connector off. Hold with thumb and forefinger.
Page 263 M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.1 Precautions for Wiring (e) For optical cable connectors, hold down the lock button and pull off the connector. Press Pull (f) For Ethernet connectors, hold down the locking tab and pull out the connector. (1) Press Pull (g) For the USB connector, pull off while holding down the locked latch.
Page 264: Precautions For Using Optical Communication Cable
M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.1 Precautions for Wiring 6.1.2 Precautions for Using Optical Communication Cable An optical communication cable is used for communication between the control unit and the drive unit. Special precautions, differing from the conventional cable, are required when laying and handling the optical communication cable.
Page 265: Precautions For Connecting 24 V Power Supply
M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.1 Precautions for Wiring Precautions for laying optical communication cable (1) Do not apply a force exceeding the cable's tolerable tension. Binding the cables too tight with tie-wraps could result in an increased loss or a disconnection.
Page 266: Turning The Power On/Off
M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.2 Turning the Power ON/OFF 6.2 Turning the Power ON/OFF [Power ON] L1 L2 L3 Personal computer unit Display unit G170 No-fuse breaker (NFB) J070/J071 DCIN 24VDC (b)’ KEYUSB J291 Operation panel USB+S5+ON/OFF I/O unit...
Page 267 M800VW/M80VW Series Connection and Setup Manual 6 Precautions for Connecting 6.2 Turning the Power ON/OFF [Power OFF] L1 L2 L3 Personal computer unit Display unit G170 No-fuse breaker (NFB) J070/J071 DCIN 24VDC (e)’ KEYUSB J291 Operation panel USB+S5+ON/OFF I/O unit 24VDC stabilized power supply (2) KEYUSB...
Page 268: Connection Of Control Unit
Connection of Control Unit IB-1501612-C...
Page 269: Control Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.1 Control Unit Connection System Drawing The method for connecting to each unit and device from the control unit is explained in this chapter. 7.1 Control Unit Connection System Drawing 7.1.1 M800VW Control unit J070/J071...
Page 270: M80Vw
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.1 Control Unit Connection System Drawing 7.1.2 M80VW Control unit J070/J071 cable (*) 24VDC Stabilized DCIN power supply G123 terminal Emergency stop (*1) Personal computer unit Display unit J303 cable (*) Operation panel I/O unit RIO3...
Page 271: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.2 Connecting with Power Supply 7.2 Connecting with Power Supply Connect a general-purpose 24 VDC stabilized power supply to the control unit. J070/J071 DCIN +24V DCIN Bottom of control unit Note (1) Rush current may occur to lead welding on the contacts, when a magnetic switch such as relay directly controls 24 VDC 's ON/OFF during 24 V power supply to the control unit.
Page 272: Connecting With Emergency Stop Signal
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.3 Connecting with Emergency Stop Signal 7.3 Connecting with Emergency Stop Signal Connect the emergency stop switch to EMG connector of the control unit. Emergency stop switch J120 Control unit Emergency stop switch Control unit...
Page 273 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.3 Connecting with Emergency Stop Signal ISO13849-1 (PLd, Cat.3) and IEC62061 (SIL CL2) can be realized by using the safety remote I/O unit (directly wiring the external emergency stop redundantly). Refer to "Smart safety observation" (BNP-C3072-022) for details. Power supply unit (MDS-E/EH-CV) external emergency stop: Example Control unit Stabilized...
Page 274 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.3 Connecting with Emergency Stop Signal Drive unit (MDS-EJ/EJH) external emergency stop: Example Control unit Stabilized power supply +24V 0V(LG Emergency MDS-EJ/EJH stop switch Control unit J120 +24V EMGIN MDS-EJ/EJH Emergency stop input circuit Note...
Page 275: Connecting With Personal Computer Unit
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.4 Connecting with Personal Computer Unit 7.4 Connecting with Personal Computer Unit Connect the personal computer unit to GDI connector of the control unit. Control unit Personal computer unit J303 [Related items] Cable drawing: "18.2.19 J303 Cable"...
Page 276: Connecting With Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.5 Connecting with Operation Panel I/O Unit 7.5 Connecting with Operation Panel I/O Unit Connect the operation panel I/O unit to RIO3 connector of the control unit. Control unit Operation panel I/O unit RIO3...
Page 277: Connecting With Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.6 Connecting with Remote I/O Unit 7.6 Connecting with Remote I/O Unit Connect the remote I/O unit to RIO1 or RIO2 connector of the control unit. Control unit Remote I/O unit RIO3 Remote I/O 3ch J210...
Page 278: Connecting With Drive Unit
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit 7.7 Connecting with Drive Unit Connect the optical communication cables from the NC to the each drive unit so that they run in a straight line from the NC to the drive unit that is a final axis.
Page 279: Connecting With Drive Unit Mds-E/Eh Series
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit 7.7.1 Connecting with Drive Unit MDS-E/EH Series 7.7.1.1 Connection of Optical Communication Cables CAUTION (1) Connect the NC and drive units with the optical communication cable. The distance between the NC and final drive unit must be within 30 m and the specified bending radius (for wiring inside panel: 25 mm, and for wiring outside panel: 50 mm) or more.
Page 280 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit When Using Two or More Power Supply Units within a Single NC Communication Bus System Two or more power supply units may be required within a single NC communication bus system if the spindle drive unit capacity is large.
Page 281 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit When using the additional axis drive unit by supplying power (L+, L-) from MDS-EM/EMH unit The power (L+, L-) can be supplied to the additional axis drive unit by using the power supply part which is built into MDS-EM/ EMH.
Page 282: Drive Unit Arrangement
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit 7.7.1.2 Drive Unit Arrangement Arrange the drive units in the following procedure. (1) Install a power supply unit. (2) Arrange drive units in order of the nominal current from largest from the right. (3) In the arrangement, the clearance between the units is 1 mm.
Page 283: Connecting With Drive Unit Mds-Em/Emh Series
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit 7.7.2 Connecting with Drive Unit MDS-EM/EMH Series CAUTION Connect the NC and drive units with the optical communication cable. The distance between the NC and final drive unit must be within 30 m and the specified bending radius (for wiring inside panel: 25 mm, and for wiring outside panel: 50 mm) or more.
Page 284 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit When using together with the MDS-E/EH unit The power (L+, L-) can be supplied to the additional axis drive unit by using the power supply part which is built into MDS-EM/ EMH.
Page 285: Connecting With Drive Unit Mds-Ej/Ejh Series
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.7 Connecting with Drive Unit 7.7.3 Connecting with Drive Unit MDS-EJ/EJH Series CAUTION Connect the NC and drive units with the optical communication cable. The distance between the NC and final drive unit must be within 30 m and the specified bending radius (for wiring inside panel: 25 mm, and for wiring outside panel: 50 mm) or more.
Page 286: Connecting With Rs-232C Device
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.8 Connecting with RS-232C Device 7.8 Connecting with RS-232C Device Connect the RS-232C device to SIO connector of the control unit. Control unit J031 RS-232C device Cable name J030 cable J031 cable [Related items] Cable drawing: "18.2.10 J030/J031 Cable"...
Page 287: Connecting With Skip Signal (Sensor)
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.9 Connecting with Skip Signal (Sensor) 7.9 Connecting with Skip Signal (Sensor) Connect the skip signals to SKIP connector of the control unit. Skip signals are used for processing high-speed signals. Always shield the cable. Control unit SKIP J100...
Page 288 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.9 Connecting with Skip Signal (Sensor)  24 V connections at COM terminal Control unit SKIP J100 2.35kΩ Stabilized power supply 24VDC(+) 1,5,11,15 24V connection at COM terminal Note (1) NC recognizes input signals of 2 ms or more as the valid skip signals.
Page 289: Connecting With Manual Pulse Generator
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.10 Connecting with Manual Pulse Generator 7.10 Connecting with Manual Pulse Generator Connect the 5 V power supply type manual pulse generator (2ch) to AIO connector of the control unit. 5V manual pulse generator (Rear view) NO.1...
Page 290: Handle Numbers
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.10 Connecting with Manual Pulse Generator 7.10.1 Handle Numbers There are two types of the handle numbers assignment: automatic assignment and arbitrary assignment. Automatic assignment Set all the parameters from "#1395 H1_pno" (1st handle selection) to "#1397 H3_pno" (3rd handle selection) to "0000". An example is shown below.
Page 291: Connecting Device Via Function Expansion Unit
7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11 Connecting Device via Function Expansion Unit Mount the function expansion unit onto the dedicated slot of the control unit. M800VW Series EXT1, EXT2 M80VW Series EXT1 7.11.1 Connecting Device via Encoder (Manual Pulse Generator) I/F Expansion Unit...
Page 292: Connecting I/O Device
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2 Connecting I/O Device Mount the communication function expansion unit onto the following dedicated slot of the control unit. M800VW Series EXT3, EXT4 M80VW Series EXT3 Note (1) The combinations which both the slot EXT3 and EXT4 can be used at the same time on M800W are as follows.
Page 293: Connecting I/O Device Via Cc-Link
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2.1 Connecting I/O Device via CC-Link Use the dedicated communication cable for CC-Link network connection. Connect the communication cable to the communication connector of the CC-Link expansion unit. The connector for the communication cable on the CC-Link expansion unit side is provided with the CC-Link expansion unit.
Page 294 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit CC-Link cable connecting procedure (1) Remove the sheath of the CC-Link cable about 4cm. Shield mesh CC-Link cable (2) Isolate the shield mesh and the wires coverd with shield tape. Remove the shield tape from wires.
Page 295 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit (5) Insert the CC-Link cable into the connector of CC-Link unit. Control unit CC-Link expansion unit Connector of CC-link unit CC-link cable Note ...
Page 296: Connecting I/O Device Via Profibus-Dp
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2.2 Connecting I/O Device via PROFIBUS-DP The expansion unit FCU8-EX563 functions as a master station of PROFIBUS-DP. Use the PROFIBUS dedicated communication cable for connection to PROFIBUS-DP. Make sure to attach the terminator to the final station unit of the network.
Page 297 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit Countermeasures for PROFIBUS cable noise When the PROFIBUS-DP unit is being used, expose the cable by removing a part of the cable sheath and use the shield clamp for the exogenous noise countermeasure.
Page 298: Connecting I/O Device Via Cc-Link Ie Field
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2.3 Connecting I/O Device via CC-Link IE Field The expansion unit FCU8-EX564 functions as a master station or slave (local) station of CC-Link IE Field. Connect the CC- Link IE Field-compatible equipment with an ethernet cable (category 5e or above and twisted pair shield cable).
Page 299: Connecting I/O Device Via Ethernet/Ip
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2.4 Connecting I/O Device via EtherNet/IP The expansion unit FCU8-EX565 functions as a scanner or an adapter of EtherNet/IP. Connect the EtherNet/IP-compatible equipment with an ethernet cable (category 5e or above and twisted pair shield cable).
Page 300: Connecting I/O Device Via Fl-Net
M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit 7.11.2.5 Connecting I/O Device via FL-net The expansion unit FCU8-EX568 functions as a node of FL-net. Connect the FL-net-compatible equipment with an ethernet cable (category 5e or above and twisted pair shield cable).
Page 301 M800VW/M80VW Series Connection and Setup Manual 7 Connection of Control Unit 7.11 Connecting Device via Function Expansion Unit IB-1501612-C...
Page 302: Connection Of Personal Computer Unit
Connection of Personal Computer Unit IB-1501612-C...
Page 303: Personal Computer Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 8 Connection of Personal Computer Unit 8.1 Personal Computer Unit Connection System Drawing 8.1 Personal Computer Unit Connection System Drawing Personal computer unit J070/J071 cable (*) 24VDC Stabilized DCIN power supply ON/OFF switch G170 cable ON/OFF Control unit...
Page 304: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 8 Connection of Personal Computer Unit 8.2 Connecting with Power Supply 8.2 Connecting with Power Supply Connect 24 VDC power supply (general-purpose stabilized power supply) to the personal computer unit. Personal computer unit DCIN ON/OFF G170 LGON...
Page 305: Connecting With Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 8 Connection of Personal Computer Unit 8.4 Connecting with Operation Panel I/O Unit 8.4 Connecting with Operation Panel I/O Unit Connect the operation panel I/O unit to KEYUSB connector of the personal computer unit. Operation panel Personal computer unit I/O unit...
Page 306: Connection Of Keyboard Unit
Connection of Keyboard Unit IB-1501612-C...
Page 307: Keyboard Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 9 Connection of Keyboard Unit 9.1 Keyboard Unit Connection System Drawing The method for connecting to each unit and device from the keyboard unit is briefly explained in this chapter. 9.1 Keyboard Unit Connection System Drawing Operation panel I/O unit Keyboard unit G402...
Page 308: Connection Of Operation Panel I/O Unit
Connection of Operation Panel I/O Unit IB-1501612-C...
Page 309: Operation Panel I/O Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.1 Operation Panel I/O Unit Connection System Drawing 10.1 Operation Panel I/O Unit Connection System Drawing Operation panel I/O unit Connector of the add-on card J070/J071 cable (*) 24VDC Stabilized DCIN power supply...
Page 310: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.2 Connecting with Power Supply 10.2 Connecting with Power Supply Connect 24 VDC power supply (general-purpose stabilized power supply) to the operation panel I/O unit. 24VDC stabilized power supply DCIN J070/J071...
Page 311: Connecting With Emergency Stop Signal
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.3 Connecting with Emergency Stop Signal 10.3 Connecting with Emergency Stop Signal Connect the emergency stop switch to EMG connector of the operation panel I/O unit. Emergency stop switch J120 Operation panel I/O unit...
Page 312: Connecting With Frame Ground
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.4 Connecting with Frame Ground 10.4 Connecting with Frame Ground M4 screw Round terminal Frame ground IB-1501612-C...
Page 313: Connecting With Control Unit
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.5 Connecting with Control Unit 10.5 Connecting with Control Unit Connect the control unit to RIO3 connector of the operation panel I/O unit. Control unit Operation panel I/O unit RIO3 RIO3EXT...
Page 314: Connecting With Personal Computer Unit
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.6 Connecting with Personal Computer Unit 10.6 Connecting with Personal Computer Unit Connect the personal computer unit to KEYUSB connector of the operation panel I/O unit. Operation panel Personal computer unit I/O unit KEYUSB...
Page 315: Connecting With Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.8 Connecting with Remote I/O Unit 10.8 Connecting with Remote I/O Unit Connect the remote I/O unit to RIO3EXT connector of the operation panel I/O unit. Control unit Operation panel I/O unit Remote I/O unit RIO3...
Page 316: Connecting With Manual Pulse Generator (Mpg)
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.9 Connecting with Manual Pulse Generator (MPG) 10.9 Connecting with Manual Pulse Generator (MPG) Connect the manual pulse generator to MPG connector of the operation panel I/O unit. Both 5 V power supply type (UFO-01-2Z9) and 12 V power supply type (HD60C) manual pulse generator can be used.
Page 317 M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.9 Connecting with Manual Pulse Generator (MPG) Connecting with 12 V manual pulse generator (maximum cable length: 50 m) Connect the 12 V manual pulse generator to the connector MPG. NO.1 When connecting one 12V manual pulse...
Page 318: Handle Numbers
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.9 Connecting with Manual Pulse Generator (MPG) 10.9.1 Handle Numbers There are two types of the handle numbers assignment: automatic assignment and arbitrary assignment. Automatic assignment Set all the parameters from "#1395 H1_pno" (1st handle selection) to "#1397 H3_pno" (3rd handle selection) to "0000". An example is shown below.
Page 319: Connecting With Machine Operation Panel
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10 Connecting with Machine Operation Panel Connect the machine operation panel to CG31/CG32/CG33/CG34 connector of the operation panel I/O unit. FCU8-DX830 Machine operation panel (example) Operation panel I/O unit J351...
Page 320 M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel FCU8-DX837 Machine operation panel (example) Operation panel I/O unit J351 CG31 CG33 J351 CG32 CG34 <Applicable cable> Solid wire : 0.08 - 1.5 mm Twisted wire : 0.08 - 1.5 mm Bar terminal with insulation collar...
Page 321: Wiring For 24 V Common Input
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.1 Wiring for 24 V Common Input Machine input 24 V common Machine side Operation panel I/O unit Machine side Operation panel I/O unit CG31 CG33 X200...
Page 322: Wiring For 0V Common Input
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.2 Wiring for 0V Common Input Machine input 0V common Machine side Operation panel I/O unit Machine side Operation panel I/O unit CG31 CG33 X200...
Page 323: Wiring For Source Type Output
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.3 Wiring for Source Type Output FCU8-DX830/FCU8-DX837 Machine side Operation panel I/O unit Machine side Operation panel I/O unit CG32 CG34 Y200 Y220 Y201...
Page 324 M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel FCU8-DX834 Machine side FCU8-DX834 Machine side FCU8-DX834 CG32 CG34 Y200 Y220 Y201 Y221 Y202 Y222 Y203 Y223 Y204 Y224 Y205 Y225 Y206 Y226 Y207...
Page 325: Connecting With Safety Machine Control Signal (Fcu8-Dx837)
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.4 Connecting with Safety Machine Control Signal (FCU8-DX837) Safety DI input Machine side Operation panel I/O unit SX00A SX00B COMA+ COMB+ SX01A SX01B COMA+...
Page 326: Connection With The Scan Input Signal (Fcu8-Dx834)
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.5 Connection with the Scan Input Signal (FCU8-DX834) Machine side FCU8-DX834 OPKB KYC0* X247 X246 X245 X244 X243 X242 X241 X240 KYC1* X24F X24E...
Page 327: Connection With The Scan Output Signal (Fcu8-Dx834)
M800VW/M80VW Series Connection and Setup Manual 10 Connection of Operation Panel I/O Unit 10.10 Connecting with Machine Operation Panel 10.10.6 Connection with the Scan Output Signal (FCU8-DX834) Machine side FCU8-DX834 OPKB LC0A Y247 Y246 Y245 Y244 Y243 Y242 Y241 Y240 LC1A Y24F Y24E...
Page 328: Connection Of Remote I/O Unit
Connection of Remote I/O Unit IB-1501612-C...
Page 329: Remote I/O Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.1 Remote I/O Unit Connection System Drawing This chapter describes the connection of the remote I/O unit and machine control signals. 11.1 Remote I/O Unit Connection System Drawing Remote I/O unit J070/J071 cable (*)
Page 330: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.2 Connecting with Power Supply 11.2 Connecting with Power Supply Connect 24 VDC power supply (general-purpose stabilized power supply) to the remote I/O unit. FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8- DX654-1/FCU8-DX408/FCU8-DX409 Stabilized power supply 24VDC(+) DCIN J070/071...
Page 331 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.2 Connecting with Power Supply FCU8-DX651 Stabilized power supply 24VDC(+) J070/071 cable DCIN DCOUT G071 cable DCIN [Related items] Cable drawings: "18.2.11 J070/J071 Cable", "18.2.2 G071 Cable" Connector pin assignment: "4.10 Remote I/O Unit" (DCIN connector) IB-1501612-C...
Page 332: Connecting With Frame Ground
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.3 Connecting with Frame Ground 11.3 Connecting with Frame Ground FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX202/FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8- DX654-1/FCU8-DX408/FCU8-DX409 Frame ground 250 Series flat terminal [Flat terminal type] Flat terminal: 175021-1/175023-1 Protection cover: 174817-2 Manufacturer: TE Connectivity FCU8-DX651 Round terminal screw...
Page 333: Connecting With Control Unit
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.4 Connecting with Control Unit 11.4 Connecting with Control Unit Control unit Remote I/O unit RIO3 Remote I/O 3ch J210 RIO1 Max.64 stations Max. input: 2048 points Max. output: 2048 points RIO2 Remote I/O 1ch J210...
Page 334: Connecting With Operation Panel I/O Unit
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.5 Connecting with Operation Panel I/O Unit 11.5 Connecting with Operation Panel I/O Unit Control unit Operation panel I/O unit Remote I/O unit RIO3 RIO3EXT J210 J210 Remote I/O 3ch RIO3 Max.49 stations Max.
Page 335: Connecting With Machine Control Signal (Fcu8-Dx220/Fcu8-Dx230/Fcu8-Dx231/Fcu8-Dx651)
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) FCU8-DX220 J351 CJ31 J351 CJ32 [Related items] Cable drawing: "Cable: J351 Cable" Connector pin assignment: "4.10 Remote I/O Unit" (CJ31/CJ32 connector) FCU8-DX230/FCU8-DX231 J351 CJ31...
Page 336 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) Machine input 0V common Machine side FCU8-DX220/230/231/651 Machine side FCU8-DX230/231 CJ31 CJ33 DICOM DICOM +24V +24V +24V +24V Stabilized Stabilized power supply power supply 24VDC(+) 24VDC(+)
Page 337 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) Machine input 24 V common Machine side FCU8-DX220/230/231/651 Machine side FCU8-DX230/231 CJ31 CJ33 DICOM DICOM +24V +24V +24V +24V Stabilized Stabilized power supply power supply DICOM...
Page 338 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) Machine output: FCU8-DX220/FCU8-DX230/FCU8-DX651 Machine side Machine side FCU8-DX220/230/651 FCU8-DX230 CJ32 CJ34 +24V +24V +24V +24V Stabilized Stabilized DCIN DCIN power supply power supply 24VDC(+) 24VDC(+)
Page 339 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.6 Connecting with Machine Control Signal (FCU8-DX220/FCU8-DX230/FCU8-DX231/FCU8-DX651) Machine output: FCU8-DX231 Machine side Machine side FCU8-DX231 FCU8-DX231 CJ32 CJ34 +24V +24V +24V +24V Stabilized Stabilized DCIN DCIN power supply power supply 24VDC(+) 24VDC(+)
Page 340: Connecting With Machine Control Signal
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1 FCU8-DX213 / 213-1 : CJ35 <Applicable cable> FCU8-DX654 / 654-1 : Solid wire : 0.08 - 1.5 mm Twisted wire : 0.08 - 1.5 mm...
Page 341 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Mounting the wire (1) Insert a slotted screwdriver (blade width: 2.5 mm). (2) Insert the wire and then pull the screwdriver out. Mounting the connector (1) Push the connector to the lock lever position.
Page 342 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Machine input (wiring example 1): FCU8-DX213/FCU8-DX213-1 Machine side FCU8-DX213/213-1 CJ35 COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+...
Page 343 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Machine input (wiring example 2): FCU8-DX213/FCU8-DX213-1 Machine side FCU8-DX213/213-1 CJ35 COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+ COMA+ COMB+...
Page 344 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Machine output: FCU8-DX213/FCU8-DX213-1 Machine side FCU8-DX213/213-1 CJ36 COMA- COMB- COMA- COMB- COMA- COMB- COMA- COMB- Stabilized power supply 24VDC(+) IO24VA IO0VA IO24VB IO0VB Stabilized...
Page 345 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Safety machine input (wiring example 1): FCU8-DX654/FCU8-DX654-1 Machine side FCU8-DX654/654-1 SX00A SX00B COMA+ COMB+ SX01A SX01B COMA+ COMB+ SX02A SX02B COMA+ COMB+ SX03A SX03B...
Page 346 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Safety machine input (wiring example 2): FCU8-DX654/FCU8-DX654-1 Machine side FCU8-DX654/654-1 SX00A SX00B COMA+ COMB+ SX01A SX01B COMA+ COMB+ SX02A SX02B COMA+ COMB+ SX03A SX03B...
Page 347 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.7 Connecting with Machine Control Signal (FCU8-DX213/FCU8-DX213-1/FCU8-DX654/FCU8-DX654-1) Safety machine output: FCU8-DX654/FCU8-DX654-1 Machine side FCU8-DX654/654-1 SY00A COMA- SY00B COMB- SY01A COMA- SY01B COMB- SY02A COMA- SY02B COMB- SY03A COMA- SY03B COMB- Stabilized...
Page 348: Connecting With Safety Machine Control Signal (Fcu8-Dx651)
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.8 Connecting with Safety Machine Control Signal (FCU8-DX651) 11.8 Connecting with Safety Machine Control Signal (FCU8-DX651) CAUTION (1) Connect the cable to the designated connector. Incorrect connections could damage the device. (2) Do not connect or disconnect the cables between units while the power is ON.
Page 349 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.8 Connecting with Safety Machine Control Signal (FCU8-DX651) Safety relay output Machine side FCU8-DX651 SDO1 DC24V SYR00A SY00A SYR00A SX08A SY00B SDO2 SYR00B SX08B SYR00B Relay Feedback SDO1 DC24V SYR01A SY01A...
Page 350: Connecting With Analog I/O Signal (Fcu8-Dx202)
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.9 Connecting with Analog I/O Signal (FCU8-DX202) 11.9 Connecting with Analog I/O Signal (FCU8-DX202) For the analog input/output signals, connect J221 cable to the AIO1 connector of FCU8-DX202. The analog input/output signals are available to connect up to four points for the input, and up to one point for the output.
Page 351 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.9 Connecting with Analog I/O Signal (FCU8-DX202) Input/output circuit FCU8-DX202 Machine side AIO1 Shield Shell Stabilized DCIN power supply 24VDC(+) +24V CAUTION (1) Connect the cable to the designated connector. Incorrect connections could damage the device. (2) Do not connect or disconnect the cables between units while the power is ON.
Page 352: Connecting With Thermistor (Fcu8-Dx408)
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.10 Connecting with Thermistor (FCU8-DX408) 11.10 Connecting with Thermistor (FCU8-DX408) Connect the thermistor with THERMISTOR connector. The maximum cable length is 25 m. The recommended shield cable is "HK-SB/20276XL, black, LF 1P X 22AWG" made by Taiyo Cabletec. Thermistor Cable with shield THERMISTOR...
Page 353 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.10 Connecting with Thermistor (FCU8-DX408) Thermistor cable connecting procedure The thermistor cable has the following configuration: THERMISTOR connec- Thermistor Cable with shield (1) Solder the thermistor to the shield cable and cover the joint surface with the protection tube. Tube for protection (2) Twist the shield of the cable or pull out the drain wire.
Page 354 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.10 Connecting with Thermistor (FCU8-DX408) Connecting with thermistor: FCU8-DX408 FCU8-DX408 THERMISTOR Thermistor Thermistor CH1 Thermistor CH1 Shield Thermistor Thermistor CH2 Thermistor CH2 CH12 Thermistor Thermistor CH12 Thermistor CH12 DCIN Stabilized power supply 24VDC(+)
Page 355: Connecting With Multi-Analog Input Signal (Fcu8-Dx409)
M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) There are four types of multi-analog input signals as below:  Voltage input signal ...
Page 356 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) AI: DFMC1, 5/12-ST-3, 5-LR (Phoenix Contact) <Applicable cable> Solid wire : 0.2-1.5 mm Twisted wire : 0.2-1.5 mm Bar terminal with insulation collar : 0.25-0.75mm Bar terminal without insulation collar : 0.25-1.5mm...
Page 357 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) [Mounting the wire] (1) Push in the wire opening lever (orange) using a slotted screwdriver (blade width: 2.5 mm). (2) Insert the wire and then pull the screwdriver out of the wire opening lever. [Mounting the connector] (1) Push the connector to the lock and release (LR) lever position.
Page 358 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) Connecting with the voltage input signal Machine side FCU8-DX409 Shield Shield Shield Shield DCIN Stabilized power supply 24VDC(+) +24V  Use the twisted cable with shield to reduce the influence of noise. ...
Page 359 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) Connecting with the current input signal Machine side FCU8-DX409 Shield Shield Shield Shield DCIN Stabilized power supply 24VDC(+) +24V  Use the twisted cable with shield to reduce the influence of noise. ...
Page 360 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) Connecting with the thermocouple input signal FCU8-DX409 Cold junction compensation Thermocouple resistor (Pt100) Shield Cold junction compensation resistor (Pt100) 2cm or shorter Set the lead length 2cm or shorter including the length to insert to AI connector.
Page 361 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) Connecting with the resistance temperature detector input signal There are 3-wire type and 4-wire type for the connecting method of resistance temperature detector. <3-wire type>...
Page 362 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) <4-wire type> FCU8-DX409 Resistance temperature detector Shield Resistance temperature detector Shield Resistance temperature detector Shield Resistance temperature detector Shield DCIN Stabilized power supply 24VDC(+) +24V ...
Page 363 M800VW/M80VW Series Connection and Setup Manual 11 Connection of Remote I/O Unit 11.11 Connecting with Multi-analog Input Signal (FCU8-DX409) IB-1501612-C...
Page 364: Connection Of Laser I/F Unit
Connection of Laser I/F Unit IB-1501612-C...
Page 365: Laser I/F Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.1 Laser I/F Unit Connection System Drawing This chapter describes the connection of the laser I/F unit and machine control signals. 12.1 Laser I/F Unit Connection System Drawing Laser I/F unit 24VDC Stabilized J070/J071...
Page 366: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.2 Connecting with Power Supply 12.2 Connecting with Power Supply IODCIN Stabilized power supply 1 24VDC(+) Stabilized power supply 2 24VDC(+) DCIN [Related items] Cable drawing: "18.2.11 J070/J071 Cable" Connector pin assignment: "4.11 Laser I/F Unit"...
Page 367: Connecting With Frame Ground
M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.3 Connecting with Frame Ground 12.3 Connecting with Frame Ground 250 series flat terminal Frame ground [Flat terminal type] Flat terminal: 175021-1/175023-1 Protection cover: 174817-2 Manufacturer: TE Connectivity IB-1501612-C...
Page 368: Connecting With Control Unit
M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.4 Connecting with Control Unit 12.4 Connecting with Control Unit RIO1 or RIO2 Remote I/O 1ch J210 cable Occupies 1 ch Note (1) Connect the J210 cable to the RIO1 or RIO2 connector of the control unit. Check the connector position with the actual machine.
Page 369: Connecting With Laser Oscillator
M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.5 Connecting with Laser Oscillator 12.5 Connecting with Laser Oscillator FCU8-DX522-001 Laser oscillator [Related items] Connector pin assignment: "4.11 Laser I/F Unit" (CONA, CONB, CONC connector) CAUTION (1) Connect the cable to the designated connector. Incorrect connections could damage the device. (2) Do not connect or disconnect the cables between units while the power is ON.
Page 370 M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.5 Connecting with Laser Oscillator [Example connection of CONA] Laser Laser oscillator oscillator FCU8-DX522-001 FCU8-DX522-001 CONA CONA Output signal Intput signal DI15 DO15 DI14 DO14 DI13 DO13 DI12 DO12 DI11 DO11...
Page 371 M800VW/M80VW Series Connection and Setup Manual 12 Connection of Laser I/F Unit 12.5 Connecting with Laser Oscillator [Example connection of CONB] Laser oscillator FCU8-DX522-001 CONB DI19 DI18 Output signal DI17 +24V DI16 +24V Emission ON DO16 DO17_IN DO17_OUT DO18_IN Non-voltage contact DO18_OUT input signal DO19_IN...
Page 372: Connection Of Side Memory I/F Unit
Connection of Side Memory I/F Unit IB-1501612-C...
Page 373: Side Memory I/F Unit Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 13 Connection of Side Memory I/F Unit 13.1 Side Memory I/F Unit Connection System Drawing The method for connecting to each unit and device from the side memory I/F unit is explained in this chapter. Note (1) Side memory I/F unit is only for 19-type display unit.
Page 374: Connection Of Manual Pulse Generator
Connection of Manual Pulse Generator IB-1501612-C...
Page 375: Manual Pulse Generator Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 14 Connection of Manual Pulse Generator 14.1 Manual Pulse Generator Connection System Drawing The method for connecting to each unit and device from the manual pulse generator is briefly explained in this chapter. 14.1 Manual Pulse Generator Connection System Drawing Connecting to control unit (5V) Control unit 5V manual pulse generator...
Page 376: Connecting With Control Unit
M800VW/M80VW Series Connection and Setup Manual 14 Connection of Manual Pulse Generator 14.2 Connecting with Control Unit 14.2 Connecting with Control Unit 5V manual pulse generator (Rear view) NO.1 When connecting one 5V 5V 0V A B manual pulse generator J026 NO.1 NO.2...
Page 377: Connecting With Encoder (Manual Pulse Generator) I/F Expansion Unit
M800VW/M80VW Series Connection and Setup Manual 14 Connection of Manual Pulse Generator 14.4 Connecting with Encoder (Manual Pulse Generator) I/F Expansion Unit 12 V manual pulse generator (maximum cable length: 50 m) NO.1 When connecting one 12V manual pulse 12V manual pulse 12V 0V generator generator...
Page 378: Connection Of Synchronous Feed Encoder
Connection of Synchronous Feed Encoder IB-1501612-C...
Page 379: Synchronous Feed Encoder Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 15 Connection of Synchronous Feed Encoder 15.1 Synchronous Feed Encoder Connection System Drawing The method for connecting to each unit and device from the synchronous feed encoder is explained in this chapter. 15.1 Synchronous Feed Encoder Connection System Drawing Encoder (manual pulse generator) I/F expansion unit...
Page 380: Connection Of Machine Operation Panel
Connection of Machine Operation Panel IB-1501612-C...
Page 381: Machine Operation Panel Connection System Drawing
16 Connection of Machine Operation Panel 16.1 Machine Operation Panel Connection System Drawing This chapter briefly explains how to connect the machine operation panel manufactured by Mitsubishi Electric to each unit and device. 16.1 Machine Operation Panel Connection System Drawing...
Page 382: Connecting With Power Supply
M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.2 Connecting with Power Supply 16.2 Connecting with Power Supply Connect 24 VDC power supply (general-purpose stabilized power supply) to the main panel of the machine operation panel. FCU8-KB921/KB922/KB923/KB924/KB925/KB926 Stabilized power supply DCIN...
Page 383: Connecting With Frame Ground
M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.3 Connecting with Frame Ground 16.3 Connecting with Frame Ground FCU8-KB921/KB922/KB923/KB924/KB925/KB926 Round terminal Frame ground screw 16.4 Connecting with Operation Panel I/O Unit Control unit Operation panel I/O unit RIO3 J210 RIO3EXT...
Page 384: Connecting Emergency Stop Switch
M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.5 Connecting Emergency Stop Switch 16.5 Connecting Emergency Stop Switch Operation panel I/O unit Machine operation panel (sub panel) Emergency stop switch J121 [Related items] Cable drawing: "18.2.14 J121 Cable" Connector pin assignment: "4.16.2 Sub Panel A (FCU8-KB931/FCU8-KB941)"...
Page 385 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.6 Connecting with Sub Panel Wiring of rotary switch (SUBP) Main panel A/B (FCU8-KB92x) Sub panel A (FCU8-KB931/KB941) [SUBP] Rotary Switch (For cutting feedrate override) 21 position Real gray code Rotary Switch (For rapid traverse override)
Page 386 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.6 Connecting with Sub Panel Wiring of other switches (SUBP) Main panel A/B (FCU8-KB92x) Sub panel A (FCU8-KB931/KB941) [SUBP] Memory protection switch 2 notch Key shape 2c Manual return type Switch input spare (3 points) [EXT]...
Page 387: Software Interface
M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.7 Software Interface 16.7 Software Interface Station Nos. of the machine operation panel RIOs are fixed. Device Nos. such as switch and LED on the machine operation panel are fixed as follows: Channel No.
Page 388 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.7 Software Interface [Device No. of key switches] Key switch Device Key switch Device ZR5$24[0] ZR5$26[0] ZR5$24[1] ZR5$26[1] ZR5$24[2] ZR5$26[2] ZR5$24[3] ZR5$26[3] ZR5$24[4] ZR5$26[4] ZR5$24[5] ZR5$26[5] ZR5$24[6] ZR5$26[6] ZR5$24[7] ZR5$26[7] ZR5$24[8]...
Page 389 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.7 Software Interface [Device No. of LEDs] Device Device ZR6$24[0] ZR6$26[0] ZR6$24[1] ZR6$26[1] ZR6$24[2] ZR6$26[2] ZR6$24[3] ZR6$26[3] ZR6$24[4] ZR6$26[4] ZR6$24[5] ZR6$26[5] ZR6$24[6] ZR6$26[6] ZR6$24[7] ZR6$26[7] ZR6$24[8] ZR6$26[8] ZR6$24[9] ZR6$26[9] ZR6$24[A] ZR6$26[A]...
Page 390 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.7 Software Interface Sub panel Sub panel is equipped with cutting override, rapid traverse override, memory protection switch and emergency stop switch. Direct wiring is available for the emergency stop switch, and device numbers for the other switches are assigned as listed below: [Cutting override (6-bit)] Device...
Page 391 M800VW/M80VW Series Connection and Setup Manual 16 Connection of Machine Operation Panel 16.7 Software Interface IB-1501612-C...
Page 392: Connection Of Handy Terminal
Connection of Handy Terminal IB-1501612-C...
Page 393: Handy Terminal Connection System Drawing
M800VW/M80VW Series Connection and Setup Manual 17 Connection of Handy Terminal 17.1 Handy Terminal Connection System Drawing This chapter briefly explains how to connect the handy terminal to each unit and device. 17.1 Handy Terminal Connection System Drawing [M800VW] Handy terminal Control unit G430 cable...
Page 394: Cables
Cables IB-1501612-C...
Page 395: Symbols For Writing Cable Drawings
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.1 Symbols for Writing Cable Drawings 18.1 Symbols for Writing Cable Drawings  : indicates twisted pair.  : indicates the shield outer sheath.  : indicates shield clamping to the grounding plate. ...
Page 396: Cable Relating To Nc
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2 Cable Relating to NC 18.2.1 FCUA-R050/R054 Cable Max. cable length: 30 m Application: Synchronous encoder - control unit FCUA-R050 FCUA-R054 ENC1 ENC1A (ENC2A) ENC1A*(ENC2A*) ENC1B (ENC2B) ENC1B*(ENC2B*) ENC1Z (ENC2Z) ENC1Z*(ENC2Z*)
Page 397: G071 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.2 G071 Cable Max. cable length: 1 m Application: 24 VDC relay cable for machine operation panel DCOUT DCIN R: Red W: White G: Green [DCOUT] Wire material: UL1264 AWG16 [DCIN] Connector: 2-178288-3 (Red, White, Green)
Page 398: G170 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.4 G170 Cable Max. cable length: 15 m Application: ON/OFF switch cable (ON/OFF switch - personal computer unit) ON/OFF LGON LGOFF ON/OFF LGON LGOFF [ON/OFF] Wire material: UL1007 AWG22 Faston terminal #110 x 4 Connector: 50-57-9404 (Red, White)
Page 399: G430 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.5 G430 Cable Max. cable length: 10 m Application: For connection to handy terminal HOST Control unit Handy terminal Cotrol panel terminal block HOST HA1A HA1B RD(RXD) SD(TXD) SD(TXD) RD(RXD)
Page 400: G460 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.6 G460 Cable Max. cable length: 0.5 m Application: Cable for machine operation panel (cable between main panel and sub panel) RSW1 SUBP RSW2 SW-NO SW-NO SW-C SW-C [RSW1][RSW2] 1: Purple...
Page 401: J020/J021/J022 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.7 J020/J021/J022 Cable Max. cable length: 50 m Application: Manual pulse generator cable (12 V) HA1A HA1B +12V 12V1 HA2A HA2B +12V 12V2 HA3A HA3B +12V 12V3 [MPG] Wire material: UL2464 U-TKVVBS AWG24 ×...
Page 402: J023/J024/J025 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.8 J023/J024/J025 Cable Max. cable length: 20 m Application: Manual pulse generator cable (5V) HA1A HA1B HA2A HA2B HA3A HA3B [MPG] Wire material: UL2464 U-TKVVBS AWG22 × 6P [1ch][2ch][3ch] Connector: 10120-3000PE Manufacturer: Tachii Electric Wire...
Page 403: J026/J027 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.9 J026/J027 Cable Max. cable length: 20 m (the maximum length of the cable when connected to the control unit via other units) Application: Manual pulse generator cable (5 V) HA1A HA1B HA2A...
Page 404: J030/J031 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.10 J030/J031 Cable Max. cable length: 15 m (the maximum length of the cable when connected to the control unit via other units) Application: RS232C I/F cable SIO1 SIO2 SIO1...
Page 405: J070/J071 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.11 J070/J071 Cable Max. cable length: 15 m (J070)/20 m (J071) Application: 24 VDC power cable DCIN DCIN +24V +24V [DCIN] [J070 cable] Crimp terminal: R1.25-4 × 3 Connector: 2-178288-3 Wire material: 2464C BIOS-CL3-16 02C ×...
Page 406: J100 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.12 J100 Cable Max. cable length: 20 m Application: Skip SKIP SKIP SKIP0 SKIP1 SKIP2 SKIP3 SKIP4 SKIP5 SKIP6 SKIP7 [SKIP] Wire material: UL2464 U-TKVVBS AWG24 × 6P Crimp terminal: R1.25-3.5 ×...
Page 407: J120 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.13 J120 Cable Max. cable length: 30 m Application: Emergency stop cable EMG IN R1.25-3 [EMG] Wire material: 2464C BIOS-CL3-22 01P Crimp terminal: R1.25-3 × 2 Connector: 50-57-9403 Manufacturer: Bando Electric Wire Manufacturer: JST (former model number: 51030-0330)
Page 408: J210 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.15 J210 Cable Max. cable length: 50 m Application: Remote I/O 2.0 communication cable TXRXD TXRXD TXRXD* TXRXD* Drain wire Drain wire (With shield / drain wire) AWG22×2P [RIO] Wire material: HK-SB/20276XL Black LF 2P ×...
Page 409: J220 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.16 J220 Cable Max. cable length: 30 m Application: Analog output cable AI0G AI1G AI2G AI3G AO0G AO1G [AIO] Wire material: UL2464 U-TKVVBS AWG24 × 6P Crimp terminal: R1.25-3.5 × 12 Connector: 10120-3000PE Manufacturer: Tachii Electric Wire Manufacturer: JST...
Page 410: J221 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.17 J221 Cable Max. cable length: 30 m Application: Analog input/output cable (for remote I/O unit) AI0G AI1G AI2G AI3G AI0G AI1G AI2G AI3G [AIO] Wire material: UL2464 U-TKVVBS AWG24 × 6P Crimp terminal: R1.25-3.5 x 10 Connector: 10120-3000PE Manufacturer: Tachii Electric Wire...
Page 411: J291 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.18 J291 Cable Max. cable length: 1 m Application: Connection cable between personal computer unit and operation panel I/O unit KEYUSB KEYUSB J291 L*.**M KEYUSB KEYUSB VBUS VBUS S5STATE S5STATE...
Page 412: J303 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.19 J303 Cable Max. cable length: 50 m Application: LAN straight cable White White orange orange Orange Orange White White green green Green Green Blue Blue White White blue blue...
Page 413: J350 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.20 J350 Cable Max. cable length: 50 m Application: DI/DO CJ31,CJ32,CJ33,CJ34, CG31,CG32,CG33,CG34 [CJ31, CJ32, CJ33, CJ34, CG31, CG32, CG33, CG34] Wire material: UL2651 AWG28x40 (FLEX-S(40)-7/0.127 7030 2651P) Connector: XG4M-4030/7940-6500SC Manufacturer: Oki Electric Cable Strain relief: XG4T-4004/3448-7940...
Page 414: J460 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.22 J460 Cable Max. cable length: 50 m Application: DI/DO CJ37,CJ39 [CJ37, CJ39] Wire material: UL2651 AWG28x50 (FLEX-S(50)-7/0.127 7030 2651P) Connector: XG4M-5030/7950-6500SC Manufacturer: Oki Electric Cable Strain relief: XG4T-5004/3448-7950 Manufacturer: OMRON/3M Note (1) This cable is used to connect the operation panel I/O unit.
Page 415: R2-Tm Terminator Connector
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.2 Cable Relating to NC 18.2.24 R2-TM Terminator Connector Application: Terminator for remote I/O interface R2-TM R2-TM TXRX TXRX* [R2-TM] Connector: 1-1318119-3 Contact: 1318108-1 Manufacturer: TE Connectivity Resistor: 110 Ω 1/4 W Note (1) The parts used shall be Mitsubishi recommended parts.
Page 416: Cable Relating To Drive Unit
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3 Cable Relating to Drive Unit 18.3.1 Cable Wire and Assembly Cable wire The specifications of the wire used for each cable, and the machining methods are shown in this section. Mitsubishi uses the cables shown in the tables below.
Page 417 M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit Cable assembly Assemble the cable with the cable shield wire securely connected to the ground plate of the connector. Core wire Connect with a ground plate of connector. Shield Sheath (external conductor)
Page 418: Cnp2E-1 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.2 CNP2E-1 Cable Max. cable length: 30 m Application: Motor side PLG cable Spindle side accuracy encoder TS5690 cable [Cable connection diagram (for 15 m or less)] Spindle drive unit side connector (3M) Spindle motor side connector...
Page 419: Cnp3Ez-2P/Cnp3Ez-3P Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.3 CNP3EZ-2P/CNP3EZ-3P Cable Max. cable length: 30 m Application: Spindle side encoder cable OSE-1024 cable CNP3EZ-2P (Straight) CNP3EZ-3P (Angle) [Cable connection diagram (for 15 m or less)] Spindle drive unit side connector Spindle motor side connector (3M)
Page 420: Cnv2E-8P/Cnv2E-9P Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.4 CNV2E-8P/CNV2E-9P Cable Max. cable length: 30 m Application: For HF/HF-H,HF-KP (tool spindle) motor side encoder cable (for A48/A51/A74N(/A74)/ HF-KP (servo) motor side encoder relay cable (drive unit side) (CNV2E-8P) CNV2E-8P (Straight) CNV2E-9P (Angle) [Cable connection diagram (for 15 m or less)]...
Page 421: Cnv2E-D Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.5 CNV2E-D Cable Max. cable length: 30 m Application: MDS-B-SD unit cable [Cable connection diagram] Drive unit side connector (3M) Receptacle: 36210-0100PL MDS-B-SD unit side connector Shell kit: 36310-3200-008 (3M) (MOLEX)
Page 422: Dg30 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.7 DG30 Cable Max. cable length: 10 m Application: Battery cable (For drive unit - battery box, For drive unit - drive unit) Drive unit side connector Drive unit side connector (J.S.T) (J.S.T)
Page 423: J395 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.9 J395 Cable Max. cable length: 10 m Application: Optical communication cable for wiring between drive units (outside panel) for wiring between NC-drive units Use when wiring outside of the panel with a cable of 10 m or less. [OPT] Wire material: PFDU-CL1002-22E60VT Connector: LGP-Z0007PK...
Page 424: J396 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.10 J396 Cable Max. cable length: 10 m Application: Optical communication cable for wiring between drive units (inside panel) Use when wiring inside of the panel with a cable of 10 m or less. [OPT] Wire material: PFDU-CD1002-18E22T Connector: LGP-Z0007PK...
Page 425: Mr-Bks1Cbl-A1-H/Mr-Bks1Cbl-A2-H Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.11 MR-BKS1CBL-A1-H/MR-BKS1CBL-A2-H Cable Max. cable length: 10 m Application: <200 V Series> Brake cable for HG96 MR-BKS1CBL-A1-H (load side angle) MR-BKS1CBL-A2-H (reverse load side angle) [Cable connection diagram] Servo motor brake connector (Japan Aviation Electronics) Connector: JN4FT02SJ1-R...
Page 426: Mr-D05Udl3M-B Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.13 MR-D05UDL3M-B Cable Max. cable length: 3 m Application: STO cable Drive unit side (TE Connectivity) Connector set: MR-D05UDL3M-B Yellow (Dot mark: Red) STO1 STO1 input Gray (Dot mark: Black) STO2 input STO2...
Page 427: Sh21 Cable
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.3 Cable Relating to Drive Unit 18.3.15 SH21 Cable Max. cable length: 30 m Application: Power supply communication cable Backup unit communication cable CN4, CN9 SVTXD SVTXD SVTXD* SVTXD* SVALM SVALM SVALM* SVALM* SVRXD SVRXD...
Page 428: List Of Cable Connector Sets
M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.4 List of Cable Connector Sets 18.4 List of Cable Connector Sets Type Application Package contents FCUA-CS000 General I/O units Connector (3M) Shell kit (3M) (For SKIP, SIO, MPG, AIO) 10120-3000PE x 2. 10320-52F0-008 x 2 005057-9403 Emergency stop connector...
Page 429 M800VW/M80VW Series Connection and Setup Manual 18 Cables 18.4 List of Cable Connector Sets Type Application Package contents 37104-2165-000FL THERMISTOR connector Connector (3M) (For thermistor input unit) 37104-2165-000FL x 10 4 3 2 1 IB-1501612-C...
Page 430: Setup Outline
Setup Outline IB-1501612-C...
Page 431: Hardware Configuration
M800VW/M80VW Series Connection and Setup Manual 19 Setup Outline 19.1 Hardware Configuration 19.1 Hardware Configuration The following shows the hardware names used in this manual. [Example of 15-type] (a) Cancel key (b) Menu changeover key (c) Front-side SD card I/F (d) USB I/F (e) [INPUT] key IB-1501612-C...
Page 432 M800VW/M80VW Series Connection and Setup Manual 19 Setup Outline 19.1 Hardware Configuration [Example of 19-type] <Display unit> < Memory card I/F> IB-1501612-C...
Page 433 M800VW/M80VW Series Connection and Setup Manual 19 Setup Outline 19.1 Hardware Configuration <Control unit> (a) 7-segment LED (b) Rotary switch IB-1501612-C...
Page 434: Flow Of Initial Setup
M800VW/M80VW Series Connection and Setup Manual 19 Setup Outline 19.2 Flow of Initial Setup 19.2 Flow of Initial Setup The following flow chart shows the procedures of the initial setup. Note (1) When setting up with backup files, refer to "40 Data Backup and Restoration". WARNING Do not cancel the emergency stop before confirming the basic operation.
Page 435 M800VW/M80VW Series Connection and Setup Manual 19 Setup Outline 19.2 Flow of Initial Setup For other settings, refer to the following chapters:  33 Deceleration Check  34 Synchronous Control and Multiple-axis Synchronization Control  35 OMR Control  36 Variable Torsion Compensation ...
Page 436: Setting The Hardware
Setting the Hardware IB-1501612-C...
Page 437: Setting Drive Unit Mds-E/Eh Series
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.1 Setting Drive Unit MDS-E/EH Series 20.1 Setting Drive Unit MDS-E/EH Series 20.1.1 Setting the Rotary Switch Set the axis number with the rotary switch.  Drive unit 2-axis 3-axis 1-axis 2-axis 1-axis...
Page 438: Setting The Dip Switch
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.1 Setting Drive Unit MDS-E/EH Series  Power supply unit Power supply unit (MDS-E/EH-CV) [MDS-E/EH-CV setting] Rotary switch setting Setting item Normal setting 1 to 3 Setting prohibited External emergency stop setting 5 to F Setting prohibited 20.1.2 Setting the DIP Switch...
Page 439: Setting Drive Unit Mds-Em/Emh Series
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.2 Setting Drive Unit MDS-EM/EMH Series 20.2 Setting Drive Unit MDS-EM/EMH Series 20.2.1 Setting the Rotary Switch Set the axis number with the rotary switch.  Drive unit Multi axis unit (MDS-EM/EMH-SPV3) [MDS-EM/EMH-SPV3 setting] Servo...
Page 440: Setting Drive Unit Mds-Ej/Ejh Series
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.3 Setting Drive Unit MDS-EJ/EJH Series 20.3 Setting Drive Unit MDS-EJ/EJH Series 20.3.1 Setting the Rotary Switch Set the axis number with the rotary switch.  Drive unit 1-axis 1-axis 1-axis 2-axis servo/ servo drive unit...
Page 441: Setting The Dip Switch
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.3 Setting Drive Unit MDS-EJ/EJH Series [MDS-EJ-V2/SP2 setting] AXIS NO. Rotary switch setting L-axis M-axis 1st axis 2nd axis 2nd axis 3rd axis 3rd axis 4th axis 4th axis 5th axis 5th axis 6th axis 6th axis...
Page 442: Setting Up Without Connecting To The Motor/Drive Units At The Setup Of Drive Unit
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.4 Setting Up without Connecting to the Motor/Drive Units at the Setup of Drive Unit 20.4 Setting Up without Connecting to the Motor/Drive Units at the Setup of Drive Unit When connecting the motor or drive unit after setting up the system, set the axis data beforehand to enable the operation without the motor or drive unit.
Page 443: Connecting The Batteries
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.5 Connecting the Batteries 20.5 Connecting the Batteries 20.5.1 Control Unit Battery CAUTION The battery is not connected when the machine is delivered. Be sure to connect the battery before starting up. Lithium batteries in the control unit battery holder retain parameters, machining programs and other data which require backing up at power OFF.
Page 444: Servo Drive Unit Battery
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.5 Connecting the Batteries 20.5.2 Servo Drive Unit Battery Note (1) The battery connection is not necessary unless the drive unit employs absolute position detection. (Spindle drive unit does not require the battery, because the unit does not employ absolute position detection.) There are batteries as shown below.
Page 445 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.5 Connecting the Batteries [MDS-EM] Connect the battery connector to the connector BTI of the drive unit. MR-BAT6V1SET Battery connector connection part magnified figure Connect the battery box with BTI. [MDS-EJ/EJH-Vx] Connect the battery connector to the connector BAT of the drive unit.
Page 446 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.5 Connecting the Batteries  Replacing the built-in battery MR-BAT6V1SET that reached the end of the life can be reused by replacing the MR-BAT6V1 battery. Cover Open the cover while pushing the locking part. Locking part Replace the built-in battery with a new battery for MR-BAT6V1.
Page 447: Connecting And Setting The Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6 Connecting and Setting the Remote I/O Unit 20.6.1 Outline of the Remote I/O Unit The specification varies for each remote I/O unit. Each unit has one or two rotary switch(es) that determines the unit No.
Page 448 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit Unit type Machine control signals that can be handled Total Number of occupied stations Digital input signal (DI) 32 points FCU8-DX220 Digital output signal (DO) 32 points Digital input signal (DI) 64 points...
Page 449: Connection And Station No. Setting On Remote I/O Unit
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.2 Connection and Station No. Setting on Remote I/O Unit When connecting directly to the control unit Control unit Remote I/O unit RIO3 Remote I/O 3ch J210...
Page 450 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit Note (1) Connect the J210 cable to the RIO1, RIO2, or RIO3 connector of the control unit. Check the connector position with the actual machine. (2) A remote I/O unit has two slide switches (station No.
Page 451 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit When connecting to the operation panel I/O unit Control unit Operation panel I/O unit Remote I/O unit RIO3 RIO3EXT J210 J210 Remote I/O 3ch RIO3 Max.49 stations Max.
Page 452: Station No. Setting When Using Multiple Remote I/O Units
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.3 Station No. Setting when Using Multiple Remote I/O Units Multiple remote I/O units can be used, as long as the total number of occupied stations is 64 or less. (When the operation panel I/O unit is connected to the remote I/O unit, the total number must be the sum of occupied stations for both units.) Unit type...
Page 453 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit  Setting example 2 Remote I/O unit Control unit FCU8-DX23□, FCU8-DX654, FCU8-DX654-1 Group1 1：OFF 2：OFF Group2 1：OFF 2：ON Group3 1：ON 2：OFF Group4 1：ON 2：ON ...
Page 454 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit  Setting example 4 Multi-analog input unit Control unit FCU8-DX409 Group1 1 : OFF 2 : OFF IB-1501612-C...
Page 455 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit When connecting to the operation panel I/O unit Operation panel I/O unit occupies 15 stations among station No. 1 to 64. RIO3 can occupy up to 49 stations, as shown below. Operation panel I/O unit type Max.
Page 456: Plc Device Assignment Of Digital Signal (Di/Do)
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.4 PLC Device Assignment of Digital Signal (DI/DO) The input/output signals (analog signal, DI/DO, etc.) are assigned to the PLC devices, and the digital signals (DI/DO) can be assigned to the arbitrary PLC devices by the parameters.
Page 457: Fixed Device Assignment
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.4.1 Fixed Device Assignment  By setting the parameter "#53001 RIO dev assign" to "0", the PLC device assignment method, which is to be used for input/ output of each remote I/O unit station, will be the fixed device assignment.
Page 458: Arbitrary Device Assignment
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.4.2 Arbitrary Device Assignment Parameter setting for device arbitrary assignment  By setting the parameter "#53001 RIO dev assign" to "1", the assignment method for PLC devices to be used for input/out- put of each remote I/O unit station becomes arbitrary device assignment.
Page 459 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit  Up to 24 stations can be specified for high-speed input/output specification each for input and output. If 25 or more stations are specified, the alarm "Y05 Initial parameter error"...
Page 460 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit  In the following cases, the alarm "Y05 Initial parameter error" will be issued when the power is turned ON. The number of the RIO assignment parameter with illegal setting state will be displayed.
Page 461 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit Operating parameter setting screen [Rules for setting RIO assignment parameters]  For arbitrary device assignment, assign PLC devices to all stations which are connected to the remote units with DI/DO function.
Page 462: Analog Input/Output Interface
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.5 Analog Input/Output Interface  Up to 8 channels for analog input channel and up to 4 channels for analog output channel are available. The following units have the analog input/output function: - Built-in AI/AO of the main body - AI card to be inserted to the expansion slot of the main body...
Page 463 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit With built-in AI/AO and expansion slot AI card Remote I/O unit with AI/AO RIO1 AI/AO (c) Remote I/O unit with AI/AO RIO2 AI/AO (d) Operation panel I/O unit Expansion card with AI/AO...
Page 464 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit Without built-in AI/AO Remote I/O unit with AI/AO RIO1 AI/AO (a) Remote I/O unit with AI/AO RIO2 AI/AO (b) Operation panel I/O unit Expansion card with AI/AO AI/AO (c) RIO3...
Page 465: Thermistor Input Interface
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.6 Connecting and Setting the Remote I/O Unit 20.6.6 Thermistor Input Interface  By connecting the remote I/O unit with thermistor, up to 12 points of thermistor input are available. For details on units with the thermistor input function, refer to "4.10 Remote I/O Unit".
Page 466: Initializing The Nc Internal Data (Sram)
M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.7 Initializing the NC Internal Data (SRAM) 20.7 Initializing the NC Internal Data (SRAM) The initialization does not affect the settings of the option parameters. Note  The DIP switches next to the rotary switch are for our adjustment. Do not change them after the shipment. Normally, switches No.
Page 467 M800VW/M80VW Series Connection and Setup Manual 20 Setting the Hardware 20.7 Initializing the NC Internal Data (SRAM) Note (1) After initializing and turning the NC power ON, the IP address is initialized as follows. <Base specification parameter> #1934 Local IP address: 192.168.100.1 Failure to communicate with the screen may be caused by inconsistency between the parameter value and the "C:\WINDOWS\melcfg.ini"...
Page 468: Setting Up With Hmi Integrated Installer
Setting Up with HMI Integrated Installer IB-1501612-C...
Page 469: Outline Of Hmi Integrated Installer
M800VW/M80VW Series Connection and Setup Manual 21 Setting Up with HMI Integrated Installer 21.1 Outline of HMI Integrated Installer Install and upgrade "Custom release applications" with HMI integrated installer. If you do not need the installation, go to the next section. 21.1 Outline of HMI Integrated Installer "HMI integrated installer"...
Page 470: Operation Methods
M800VW/M80VW Series Connection and Setup Manual 21 Setting Up with HMI Integrated Installer 21.3 Operation Methods 21.3 Operation Methods The following shows how to install the applications. (1) Prepare the memory card which contains the installation environment for "custom release applications". Insert the mem- ory card into the memory card interface on front of the display unit.
Page 471 M800VW/M80VW Series Connection and Setup Manual 21 Setting Up with HMI Integrated Installer 21.3 Operation Methods IB-1501612-C...
Page 472: Setting Up With M80/800S Setup Installer
Setting Up with M80/800S SETUP INSTALLER IB-1501612-C...
Page 473 An SD card is used for the installation. Mitsubishi Electric will not provide performance guarantee and maintenance for commercially available SD card. When any of them is to be used, careful performance check must be required by the machine tool builder.
Page 474: Activate M80/800S Setup Installer
M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.1 Activate M80/800S SETUP INSTALLER 22.1 Activate M80/800S SETUP INSTALLER (1) Write the data for M80/800S SETUP INSTALLER into an SD card. The data configuration is as illustrated below. Installer (Execution ﬁle) installer.o...
Page 475 M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.1 Activate M80/800S SETUP INSTALLER [Custom data setting files] config.ini : Setting file for registering custom screen and G code guidance folder customdef.ini : Setting file for registering custom screens to menu and function buttons on standard screen custom- : Setting file for registering the object data name and load sequence load.txt...
Page 476 M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.1 Activate M80/800S SETUP INSTALLER (2) Insert an SD card of the M80/800S SETUP INSTALLER into the front-side SD interface. Display unit SD card (3) Turn ON the power while pressing Return key.
Page 477: Install Custom Screen
M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.2 Install Custom Screen 22.2 Install Custom Screen Carry out the procedures of this section to register custom screens. When you use standard screens only, there is no need to carry out the procedure. (1) Press the [Custom Data] menu.
Page 478: Install Start-Up Screen
M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.3 Install Start-up Screen 22.3 Install Start-up Screen Carry out the procedures of this section to register custom start-up screen. When you use standard start-up screen, there is no need to carry out the procedures. (1) Press the [Custom Startup] menu.
Page 479: Install User Cycle
M800VW/M80VW Series Connection and Setup Manual 22 Setting Up with M80/800S SETUP INSTALLER 22.4 Install User Cycle 22.4 Install User Cycle Carry out the procedures of this section to register user cycle. When you do not use user cycle, there is no need to carry out the procedure. (1) Press the [Custom Cycle] menu.
Page 480: Setting The Parameters And Date/Time
Setting the Parameters and Date/Time IB-1501612-C...
Page 481: Selecting The Nc System Type And Displayed Language
M800VW/M80VW Series Connection and Setup Manual 23 Setting the Parameters and Date/Time 23.1 Selecting the NC System Type and Displayed Language WARNING Confirm the emergency stop state before carrying out the steps in this chapter. Refer to the section of "Alarm/Parameter Manual" for the details of the parameters. You can also refer to the parameter guidance display.
Page 482: Setting The Parameters For The System Specifications
M800VW/M80VW Series Connection and Setup Manual 23 Setting the Parameters and Date/Time 23.2 Setting the Parameters for the System Specifications 23.2 Setting the Parameters for the System Specifications (1) On the Mainte screen, select [Mainte] and then [Psswd input]. Enter the machine parameter password in the setting area and press the [INPUT] key.
Page 483: Setting The Parameters For The Machine Specifications
M800VW/M80VW Series Connection and Setup Manual 23 Setting the Parameters and Date/Time 23.3 Setting the Parameters for the Machine Specifications 23.3 Setting the Parameters for the Machine Specifications (1) On the Mainte screen, select [Mainte] and then [Psswd input]. Enter the machine parameter password in the setting area and press the [INPUT] key.
Page 484 M800VW/M80VW Series Connection and Setup Manual 23 Setting the Parameters and Date/Time 23.3 Setting the Parameters for the Machine Specifications [Configuration example for seven part systems (Number of axes per part system: 8, 1, 1, 1, 1, 1, 3)] (Assumed to use the device of each part system in the ladder as follows:) $1 Axis 1 [Axis 1] ->...
Page 485: Setting Date And Time
M800VW/M80VW Series Connection and Setup Manual 23 Setting the Parameters and Date/Time 23.4 Setting Date and Time 23.4 Setting Date and Time (1) Select [Time] on the Monitr screen. (2) Select [Time setting] on the integrated time screen. The time setting mode is entered. The cursor appears at the "#1 Date" position in the Run-out time display. (3) Set the date and time to "#1 Date"...
Page 486: Sequence Program Writing
Sequence Program Writing IB-1501612-C...
Page 487: Writing Sequence Program Using The Sd Card
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.1 Writing Sequence Program using the SD Card Sequence program writing is executed by connecting a personal computer, in which GX Developer or GX Works2 has been installed, to the control unit. For details of GX Works2,.refer to the "PLC Development Manual”...
Page 488 M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.2 Setting the Ethernet Communication (3) "Local Area Connection Status" is displayed. Click [Properties]. (4) Click "Internet Protocol Version 4 (TCP/IPv4)" on the [Networking] tab, and then click [Properties]. IB-1501612-C...
Page 489: Connecting The Control Unit And A Personal Computer
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.3 Connecting the Control Unit and a Personal Computer (5) Take a note of the displayed IP address and subnet mask. (6) Set the following addresses. (Example) IP address: 192.168.200.2 Subnet mask: 255.255.255.0 Note ...
Page 490: Setting The Communication With Gx Works2
24.4 Setting the Communication with GX Works2 To create the machine sequence and user safety sequence of the CNC, use the Mitsubishi Electric FA engineering software GX Works2, which is the PLC development tool for the Mitsubishi PLC MELSEC Series.
Page 491 M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.4 Setting the Communication with GX Works2 [For the user safety sequence] Setting item Setting content Remark PC side I/F Ethernet board Network No. (*1) Station No. (*1) Protocol (*1) Sequencer side I/F CPU unit CPU mode...
Page 492: Setting The Parameters On Gx Works2
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.5 Setting the Parameters on GX Works2 24.5 Setting the Parameters on GX Works2 Note (1) There are two methods of ladder programming; independent program method and multi-program method, which makes differences in parameter settings.
Page 493: Setting Device Points
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.5 Setting the Parameters on GX Works2 24.5.2 Setting Device Points After creating a sequence program management area (project), the number of device points to be used in the project must be set first.
Page 494: Setting The Number Of Common Pointer Points
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.5 Setting the Parameters on GX Works2 24.5.3 Setting the Number of Common Pointer Points In the following cases, set the pointer No. common to sequence programs.  When creating the sequence programs with the multi-program method ...
Page 495: Setting The Program Execution Order
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.5 Setting the Parameters on GX Works2 24.5.4 Setting the Program Execution Order In the following cases, set the execution method and execution order to sequence programs.  When creating the sequence programs with the multi-program method ...
Page 496: Writing A Sequence Program With Gx Works2
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.6 Writing a Sequence Program with GX Works2 24.6 Writing a Sequence Program with GX Works2 Note (1) This operation writes data to the temporary storage in the CNC (RAM in CNC). The temporary storage area (RAM inside CNC) does not hold data after the power is turned OFF.
Page 497 M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.6 Writing a Sequence Program with GX Works2  If an attempt is made to remove the check from parameter and write sequence programs while a PLC is running, the message shown below is displayed.
Page 498 M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.6 Writing a Sequence Program with GX Works2  Operating procedure for simple projects (with labels) The operating procedure when "use label" is set is described below. (1) Start the operation screen by the following operation on GX Works2. [Online] ->...
Page 499: Writing A Sequence Program To Rom With Gx Works2
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.7 Writing a Sequence Program to ROM with GX Works2 24.7 Writing a Sequence Program to ROM with GX Works2 Note (1) Write operation to the ROM is not necessary for the user safety sequence. [Operation procedure] (1) Start the operation screen by the following operation on GX Works2.
Page 500: Setting The Plc Parameters
M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.8 Setting the PLC Parameters 24.8 Setting the PLC Parameters Select [Param] - [Bit select] on the Mainte screen and set the bit selection parameters from #6449 to #6452. See the following table for details of the parameters. Symbol name Setting and...
Page 501 M800VW/M80VW Series Connection and Setup Manual 24 Sequence Program Writing 24.8 Setting the PLC Parameters IB-1501612-C...
Page 502: Confirming The Basic Operation
Confirming the Basic Operation IB-1501612-C...
Page 503: Checking Inputs/Outputs And Alarms
M800VW/M80VW Series Connection and Setup Manual 25 Confirming the Basic Operation 25.1 Checking Inputs/Outputs and Alarms 25.1 Checking Inputs/Outputs and Alarms  Checking the input signals (1) Select [I/F dia] on the [Diagn] screen. (2) Confirm that signals turn ON/OFF properly on the IF Diagnosis screen. ...
Page 504: Confirming Manual Operation
M800VW/M80VW Series Connection and Setup Manual 25 Confirming the Basic Operation 25.2 Confirming Manual Operation 25.2 Confirming Manual Operation 25.2.1 Using the Manual Pulse Generator (1) Select the handle mode. (2) Set the handle feed magnification to a minimum value. (3) Cancel the emergency stop.
Page 505: Servo Simplified Adjustment
M800VW/M80VW Series Connection and Setup Manual 25 Confirming the Basic Operation 25.3 Servo Simplified Adjustment 25.3 Servo Simplified Adjustment 25.3.1 First Measure Against Vibration Setting the filter can reduce the vibration. (1) Select [Drv mon] and then [Servo unit] on the [Diagn] screen. See the displayed value in "AFLT frequency". Note ...
Page 506: Nc Analyzer2
M800VW/M80VW Series Connection and Setup Manual 25 Confirming the Basic Operation 25.3 Servo Simplified Adjustment 25.3.2 NC Analyzer2 Servo parameters can be automatically adjusted by measuring and analyzing the machine characteristics. Measurement and analysis are conducted by driving the motor using machining programs for adjustment or vibration signals. Various data can also be sampled.
Page 507 M800VW/M80VW Series Connection and Setup Manual 25 Confirming the Basic Operation 25.3 Servo Simplified Adjustment IB-1501612-C...
Page 508: Setting The Position Detection System
Setting the Position Detection System IB-1501612-C...
Page 509: Adjusting The Absolute Position Detection System
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System There are two kinds of position detection system: one is "relative position detection", which establishes the reference position (zero point) at every CNC power-ON; the other is "absolute position detection", which allows to start the operation without establishing the reference position (zero point) again after the CNC power-ON.
Page 510: Marked Point Alignment Method I
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.1 Marked Point Alignment Method I Preparations #2049 type (absolute position detection method): 2 Set the parameters on the absolute position parameter (marked point alignment method I) screen.
Page 511 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System The axis stops when it reached the first grid point. State: [Complete] Machine position: Current machine position (10) Set the "Zero-P". Setting "Zero-P"...
Page 512: Marked Point Alignment Method Ii
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.2 Marked Point Alignment Method II Preparations #2049 type (absolute position detection method): 4 Set the parameters on the absolute position parameter (marked point alignment method II) screen.
Page 513 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System The input value will be registered in the "Zero-P" area. Move the cursor to "Zero P" with the [ ↑ ] and [ ↓ ] keys.
Page 514: Machine End Stopper Method: Automatic Initialization
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.3 Machine End Stopper Method: Automatic Initialization Preparations #2049 type (absolute position detection method): 1 (stop- Set the parameters on the absolute position parameter per method) screen.
Page 515 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System [When "#2059 zerbas" is set to "0"] The input value will be registered in the "Zero-P" area. Set the "Zero-P". (*2) Move the cursor to "Zero P"...
Page 516 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System (*1) Low current limit value may prevent the basic movement of the axis. Do not set such a low value. Set an appropriate value taking into account the acceleration torque and the friction torque. When the current limit value is set too low, the servo error 3E (magnetic pole position detection error) may occur.
Page 517 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System Note (1) To change just the basic machine coordinate zero point, set "#0 Absolute posn set" and "#2 Zero-P", and then turn the power OFF and ON.
Page 518: Machine End Stopper Method: Manual Initialization
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.4 Machine End Stopper Method: Manual Initialization Preparations #2049 type (absolute position detection method): 1 (stop- Set the parameters on the absolute position parameter per method) screen.
Page 519 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System [When "#2059 zerbas" is set to "0"] The input value will be registered in the "Zero-P" area. Set the "Zero-P". (*2) Move the cursor to "Zero P"...
Page 520 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System (*1) Low current limit value may prevent the basic movement of the axis. Do not set such a low value. Set an appropriate value taking into account the acceleration torque and the friction torque. When the current limit value is set too low, the servo error 3E (magnetic pole position detection error) may occur.
Page 521: Dog-Type
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.5 Dog-type Preparations #2049 type (absolute position detection method): 3 (dog- Set the parameters on the absolute position parameter type) screen. The parameters such as approach speed and grid mask amount also need to be adjusted.
Page 522: Setting The Grid Interval And The Reference Encoder For Grid Interval
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.6 Setting the Grid Interval and the Reference Encoder for Grid Interval Set the parameters "#2041 grspcref" (reference encoder for grid interval) and "#2029 grspc" (grid interval) according to the machine configuration.
Page 523: Precautions Common For The Dogless-Type Absolute Position Encoder
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.1 Adjusting the Absolute Position Detection System 26.1.8 Precautions Common for the Dogless-type Absolute Position Encoder (1) Example of setting "#2 Zero-P" parameter For the "#2 Zero-P" parameter, set the coordinate value of the absolute position origin point (machine reference position or electrical basic position) looking from the basic machine coordinate zero point.
Page 524: Adjustment Of Reference Position Return In Relative Position Detection System
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System 26.2.1 Dog-type Reference Position Return Operation In the dog-type reference position return, the axis moves as follows: (1) Starts moving at G28 rapid traverse rate.
Page 525: Dog-Type Reference Position Return Adjustment Procedures
M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System 26.2.2 Dog-type Reference Position Return Adjustment Procedures Adjust the dog-type reference position return with the following steps. (1) Select [Param] from the maintenance screen, and then use the page up/down keys to select [Zp-rtn param].
Page 526 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System (6) Set the decided grid mask amount for "#2028 grmask" of the [zero point parameter] screen. (7) Turn the power OFF and ON, and then execute the reference position return. (8) Confirm the grid space and grid amount values on DRIVE MONITOR screen.
Page 527 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System [Grid point] The position encoder has a Z-phase that generates one pulse per rotation. The 0-point position of this Z-phase is the grid point.
Page 528 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System [Reference position return direction (#2030 dir (-))] This indicates the direction of the (axis) movement after the dog-type reference position return is executed and the limit switch kicks the dog and decelerates to a stop.
Page 529 M800VW/M80VW Series Connection and Setup Manual 26 Setting the Position Detection System 26.2 Adjustment of Reference Position Return in Relative Position Detection System IB-1501612-C...
Page 530: Setting The Tool Entry Prohibited Range
Setting the Tool Entry Prohibited Range IB-1501612-C...
Page 531: Stroke End
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.1 Stroke End Following functions are available for setting a tool entry prohibited range to detect over travels (OT). (1) Stroke end The axis movement is restricted by the signal that detects the stroke ends. (2) Stored stroke limit Prohibited ranges are set with parameters.
Page 532: Stored Stroke Limit
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2 Stored Stroke Limit 27.2.1 Outline Three tool entry prohibited ranges can be set with stored stroke limit I, stored stroke limit II (or IIB), and stored stroke limit IB. Part of the prohibited range on the outside of stored stroke limit I can turn into a moveable range with stored stroke limit IC.
Page 533 M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit [Valid Conditions of Stored Stroke Limit] When using the relative position detection system, the stored stroke limit is invalid until the reference position return is completed after the power is turned ON.
Page 534: Stored Stroke Limit I
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.2 Stored Stroke Limit I A stroke limit function used by the machine tool builder. Boundaries are set by the parameters ("#2013 OT - (Soft limit I -)" and "#2014 OT + (Soft limit I +)").
Page 535: Stored Stroke Limit Ii
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.3 Stored Stroke Limit II Boundaries are set by the axis parameters "#8204 OT-CHECK-N" and "#8205 OT-CHECK-P" or with program commands. Either the inside or the outside of the set boundary is the prohibited range. Whether to prohibit the inside or outside of the range is determined by "#8210 OT-INSIDE".
Page 536 M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit [Stored stroke limit IIB (When inside range is prohibited)] A range except for that of the stored stroke limit I becomes the movement prohibited range. : Moveable range : Prohibited range (A): Set value for (-) side...
Page 537: Stored Stroke Limit Ib
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.4 Stored Stroke Limit IB Boundaries are set for each axis with the axis parameters "#2061 OT_1B-" and "#2062 OT_1B+". The inside of the set boundary is the prohibited range.
Page 538: Stored Stroke Limit Ic
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.5 Stored Stroke Limit IC Boundaries are set for each axis with the axis parameters "#2061 OT_1B-" and "#2062 OT_1B+". The inside of the set boundary is the machine movement valid range.
Page 539: Movable Range During Inclined Axis Control
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.6 Movable Range during Inclined Axis Control By setting "#2063 OT_1Btype (Soft limit IB type)" to "3", the inclined axis control axis can be checked with the program coordinates using the range set for stored stroke limit IB/IC ("#2061"...
Page 540: Stored Stroke Limit For Rotation Axis
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.7 Stored Stroke Limit for Rotation Axis Stored stroke limits I and II are used as the stored stroke limit for the rotation axis. The area between the maximum and minimum values of the prohibited range's parameters, which does not contain the 0 point of the basic machine coordinate system, is the entry prohibited range.
Page 541: Behavior In Prohibited Area
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.9 Behavior in Prohibited Area 27.2.9.1 Stored Stroke Limits I, IC, and II When the tool has entered the prohibited area of stored stroke limit I, IC, or II, an operation error (M01 0007) occurs. When the operation error occurs, only the axis that is within the prohibited range is prevented from moving away from the permitted area.
Page 542 M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit Note (1) The function of disabling movement in the prohibited area works while the tool is within the prohibited area of stored stroke limit IB or IIB. The function does not disable any movement within the permitted area (including the boundary). (2) All the axes for which the function disables movement are indicated in the alarm guidance.
Page 543: Precautions
M800VW/M80VW Series Connection and Setup Manual 27 Setting the Tool Entry Prohibited Range 27.2 Stored Stroke Limit 27.2.10 Precautions (1) If the maximum value and minimum value of the stored stroke limit's prohibited range are set to the same value, the fol- lowing will occur.
Page 544: Setting The Machine Error Compensation
Setting the Machine Error Compensation IB-1501612-C...
Page 545: Memory-Type Pitch Error Compensation/Memory-Type Relative Position Error Compensation
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation 28.1.1 Outline Memory-type pitch error compensation According to the specified parameters, this method compensates an axis feed error caused by a ball screw pitch error, etc. You can set the compensation amount for each division point obtained by equally dividing the machine coordinates based on the reference position.
Page 546 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation Memory-type relative position error compensation This function compensates the relative position error between two orthogonal axes caused by deflection of the moving according to the specified parameters.
Page 547: Setting Compensation Data
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation 28.1.2 Setting Compensation Data There are two methods for setting the compensation data: absolute amount method and incremental amount method. "#4000 Pinc"...
Page 548 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation Incremental amount method Here, the compensation amount at division point "n" is calculated for the axis moved by the "interval between division points" as specified by #4007.
Page 549: Setting Method
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation 28.1.3 Setting Method 28.1.3.1 Using a Linear Axis as Basic Axis When "mdvno" or "pdvno" exists at both ends of "rdvno" Compensation ( - 3) ( - 2)
Page 550 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation When the range compensated is only the negative range Compensation ( - 1) ( - 3) amount in incremental Error amount method #4125...
Page 551: Using A Rotary Axis As Basic Axis
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.1 Memory-type Pitch Error Compensation/Memory-type Relative Position Error Compensation 28.1.3.2 Using a Rotary Axis as Basic Axis Compensation ( - 2) ( - 3) amount in incremental #4123 #4124 #4125 #4126...
Page 552: Bidirectional Pitch Error Compensation
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.2 Bidirectional Pitch Error Compensation 28.2 Bidirectional Pitch Error Compensation 28.2.1 Outline Compensation amounts can be set respectively for the movement in positive and negative directions, and compensation can be made for each direction.
Page 553: Setting Method
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.2 Bidirectional Pitch Error Compensation 28.2.2 Setting Method 28.2.2.1 Using a Linear Axis as Basic Axis This section describes how to set bidirectional pitch error data by taking the linear axis having a pitch error such as illustrated below as an example.
Page 554 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.2 Bidirectional Pitch Error Compensation Setting parameters (1) Set the setting method for compensation amount to "#4000 Pinc". #4000 setting value Setting method This method sets the difference between the commanded position and the actual machine position of (Absolute amount method) each division point as the compensation amount.
Page 555 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.2 Bidirectional Pitch Error Compensation Setting pitch error compensation data (1) Move the axis to positive or negative direction, then measure and record actual machine position of each division point. Calculate compensation amount for each division point based on the actual machine position.
Page 556: Using A Rotary Axis As Basic Axis
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.2 Bidirectional Pitch Error Compensation 28.2.2.2 Using a Rotary Axis as Basic Axis This section describes how to set bidirectional pitch error data by taking a rotary axis having a pitch error such as illustrated below as an example.
Page 557: Cyclic Error Compensation
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.3 Cyclic Error Compensation 28.3 Cyclic Error Compensation 28.3.1 Outline When the machine operation induces certain cyclic errors, this function compensates a series of cyclic errors by setting the compensation amount for a single cycle.
Page 558: Setting Method
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.3 Cyclic Error Compensation 28.3.2 Setting Method This function divides one error cycle into multiple steps and compensates at each step. Positions between steps are also compensated by the linear approximation of the values at each step. For example, as shown in the figure below, when similar errors occur at each tooth of a gear with 256 teeth, one tooth is regarded as one cycle, and the compensation amount at each step within a cycle is specified.
Page 559 M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.3 Cyclic Error Compensation Parameter Setting Example This section takes the example shown in the figure on the previous page (When the gear has 256 teeth and one cycle is divided into 8 steps) to describe the parameter setting procedure.
Page 560: Error Measurement
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.3 Cyclic Error Compensation 28.3.3 Error Measurement This function performs compensation based on the position deviation related to the machine zero. When measuring errors, disable all types of compensation (such as pitch error compensation and backlash compensation), and also the functions accompanied by the offset of the coordinate system such as workpiece coordinate system offset.
Page 561: Relation With Other Functions
M800VW/M80VW Series Connection and Setup Manual 28 Setting the Machine Error Compensation 28.3 Cyclic Error Compensation 28.3.5 Relation with Other Functions [Memory-type pitch error compensation] This function can be used simultaneously with the memory-type pitch error compensation. As shown in the figure below, when the error profile consists of both cyclic errors and non-cyclic errors, a higher accuracy of compensation can be achieved by combining the memory-type pitch error compensation and this function.
Page 562: Setting The Position Switches
Setting the Position Switches IB-1501612-C...
Page 563: Outline
M800VW/M80VW Series Connection and Setup Manual 29 Setting the Position Switches 29.1 Outline 29.1 Outline Position switches (PSW) are used as alternatives for the dog switches provided on the machine axis. Virtual dog switches can be used by specifying axis names and conditions of virtual dog positions. This function outputs a signal to the PLC interface when the machine reaches the specified area.
Page 564: Setting And Operation Examples Of Dog1 And Dog2
M800VW/M80VW Series Connection and Setup Manual 29 Setting the Position Switches 29.2 Setting and Operation Examples of dog1 and dog2 29.2 Setting and Operation Examples of dog1 and dog2 Settings of dog1 and dog2 Positions of dog1 and dog2 Description A signal is output when the Basic machine coordinate dog1...
Page 565: Canceling The Position Switch
M800VW/M80VW Series Connection and Setup Manual 29 Setting the Position Switches 29.3 Canceling the Position Switch 29.3 Canceling the Position Switch Enter a position switch number to be canceled (#75*1) in "# ( )" and a slash in "DATA ( )" on the setting field, then press the [INPUT] key.
Page 566: Setting The Backlash Compensation
Setting the Backlash Compensation IB-1501612-C...
Page 567: Backlash Compensation
M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.1 Backlash Compensation 30.1 Backlash Compensation Travel amount of a machine table may become less than the commanded amount due to the error (backlash) caused by reversal of the direction of the axis. The backlash compensation is a function which automatically adds compensation amount to the travel amount when the direction of the axis is reversed.
Page 568: Backlash Compensation Ii
M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II 30.2 Backlash Compensation II This function reduces quadrant error caused by the backlash when the traversing direction is reversed in machines where semi-closed loop control is implemented. Acceleration rate at axis direction reversal varies depending on the change of circular radius and commanded speed at machining.
Page 569: Enabling Conditions For Backlash Compensation Ii
M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II 30.2.1 Enabling Conditions for Backlash Compensation II Backlash compensation II is enabled when all the following conditions are satisfied.  Backlash compensation II option is ON. ...
Page 570: Setting Compensation Amount Of Backlash Compensation Ii
M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II 30.2.2.2 Setting Compensation Amount of Backlash Compensation II For the backlash compensation II compensation amount, set the size of projection which is generated at axis direction reversal.
Page 571: Precautions For Setting Parameters
M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II 30.2.2.3 Precautions for Setting Parameters For the backlash compensation II acceleration rates, set values greater than "0" in ascending order for acceleration rates 1 to Parameters are enabled when the backlash compensation II acceleration rates are set in ascending order.
Page 572 M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II When the acceleration rate 1 is set to "0" Backlash compensation II is disabled. Quadrant projection compensation is not performed on the axis, and the compensation amount is handled as "0". Compensation amount Compensation amount 1...
Page 573 M800VW/M80VW Series Connection and Setup Manual 30 Setting the Backlash Compensation 30.2 Backlash Compensation II When the same values are set to consecutive acceleration rates Ascending order in acceleration rate setting refers to the case where subsequent values become greater than the previous ones.
Page 574: Confirming The Spindle Operation
Confirming the Spindle Operation IB-1501612-C...
Page 575: In Manual Operation (With Manual Numerical Command)
M800VW/M80VW Series Connection and Setup Manual 31 Confirming the Spindle Operation 31.1 In Manual Operation (with Manual Numerical Command) Confirm that the spindle operates properly in manual/MDI operation. Confirm the spindle rotation speed as well. CAUTION (1) Do not adjust the spindle when possible risks associated with adjustment procedures are not thoroughly taken into consideration.
Page 576: In Mdi Operation
M800VW/M80VW Series Connection and Setup Manual 31 Confirming the Spindle Operation 31.2 In MDI Operation 31.2 In MDI Operation (1) Select MDI mode. (2) Select [MDI] on the Setup screen. Enter a program to issue an S command. Program example (to rotate the spindle at 100 r/min for 5 seconds) S100M03;...
Page 577 M800VW/M80VW Series Connection and Setup Manual 31 Confirming the Spindle Operation 31.3 Confirming the Rotation Speed IB-1501612-C...
Page 578: Setting The Handy Terminal
Setting the Handy Terminal IB-1501612-C...
Page 579: Inputting The Data From A Personal Computer
M800VW/M80VW Series Connection and Setup Manual 32 Setting the Handy Terminal 32.1 Inputting the Data from a Personal Computer It is necessary to customize the display part composition, the key input, the communication condition with NC, etc. to connect the handy terminal (HG1T-SB12UH-MK1346-Lx). Create the customized data with "NC Designer HT"...
Page 580 M800VW/M80VW Series Connection and Setup Manual 32 Setting the Handy Terminal 32.1 Inputting the Data from a Personal Computer (4) Select [Online] - [Download] from the menu of "NC Designer HT". (5) The following dialog box is displayed. Select "Yes". (6) If a password has been set to the downloaded customized data, the "Input password"...
Page 581: Inputting The Data From Nc
M800VW/M80VW Series Connection and Setup Manual 32 Setting the Handy Terminal 32.2 Inputting the Data from NC 32.2 Inputting the Data from NC Create a download data (handy.cod) from a project data (*.p1t) created with "NC Designer HT", then download it to the handy terminal.
Page 582 M800VW/M80VW Series Connection and Setup Manual 32 Setting the Handy Terminal 32.2 Inputting the Data from NC (*1) Operating status is displayed by the LED on the control unit. Lo ... Loading En ... Complete without error n1 - n7 ... Complete with error When the download is completed with error, possible causes are as listed below.
Page 583 M800VW/M80VW Series Connection and Setup Manual 32 Setting the Handy Terminal 32.2 Inputting the Data from NC IB-1501612-C...
Page 584: Deceleration Check
Deceleration Check IB-1501612-C...
Page 585: Function
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.1 Function 33.1 Function The next block is executed after the axis is decelerated and stopped at the joint between the axis movement blocks. This is to reduce the machine shock and to prevent the corner roundness, at the time when the sudden change of the control axis feedrate occurs.
Page 586 M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.1 Function  Selecting the deceleration check method There are three methods for the deceleration check: command deceleration check method, smoothing check method and in- position check method. The deceleration check method can be set independently for each execution block with the rapid traverse command (G00) or the cutting feed command (G01/G02/G03).
Page 587: Deceleration Check Method
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.2 Deceleration Check Method 33.2 Deceleration Check Method  Command deceleration check method After interpolation for one block has been completed, the completion of the command system deceleration is confirmed before execution of the next block.
Page 588 M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.2 Deceleration Check Method  Smoothing check method After the command deceleration check has been completed, the completion of all axes smoothing zero in the part system is confirmed before execution of the next block. [(Example) For exponential acceleration/deceleration] Command Execution block...
Page 589: Deceleration Check For Opposite Direction Movement Reversal
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.3 Deceleration Check for Opposite Direction Movement Reversal 33.3 Deceleration Check for Opposite Direction Movement Reversal Deceleration check cannot be designated for G01 -> G00 or G01 -> G01, but it can be designated in the following manner only when the movement reverses to the opposite direction in successive blocks.
Page 590 M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.3 Deceleration Check for Opposite Direction Movement Reversal Same direction Opposite direction #1502 = 1 Command deceleration Enlarged figure (a) Commanded speed (b) Resultant speed (c) Command deceleration is completed.  Designating deceleration check for G01 -> G01 opposite direction movement reversal If the axis movement reverses to the opposite direction in a G01 to G01 successive block, the deceleration check for the movement in the opposite direction can be changed with the base specification parameter G01 ->...
Page 591: Parameters
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.4 Parameters 33.4 Parameters  Designating deceleration check [Base specification parameters] Item Description Setting range The definitions are changed based on the "#1306 InpsTyp Deceleration check specification type" setting. When Deceleration check Select the deceleration check method for G0.
Page 592 M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.4 Parameters  Designating in-position check width [Servo parameters] Item Description Setting range In-position detection width Set the in-position detection width. 0 to 32767 Set the positioning accuracy required for the machine. (μm) 2224 SV024 INP...
Page 593: Relation With Other Functions
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.5 Relation with Other Functions 33.5 Relation with Other Functions  Tool compensation When the tool compensation is performed, the deceleration check will be operated on the block after compensation.  Control axis synchronization (G125), control axis superimposition (G126), arbitrary axis exchange (G140), arbitrary axis superimposition (G156) When control axis synchronization (G125), control axis superimposition (G126), arbitrary axis exchange (G140) or arbitrary axis superimposition (G156) is performed in the other part system, the succeeding block start timing may be...
Page 594: Precautions
M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.6 Precautions 33.6 Precautions (1) When in-position check is valid, set the servo in-position width of the servo parameter. (2) This function is invalid for the axes in the automatic machine lock. (3) When the MSTB is commanded to the next block of the cutting commanded block, the MSTB code is output before the completion of the cutting command deceleration.
Page 595 M800VW/M80VW Series Connection and Setup Manual 33 Deceleration Check 33.6 Precautions IB-1501612-C...
Page 596: Synchronous Control And Multiple-Axis Synchronization Control
Synchronous Control and Multiple-axis Synchronization Control IB-1501612-C...
Page 597: Synchronous Control
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control 34.1 Synchronous Control This chapter describes position alignment that is required at the setup of the machine. Refer to "Synchronous Control Specifications Manual" (BNP-C3072-074) for details on parameter settings, operations, etc. 34.1.1 Outline The synchronous control is a control method that both master and slave axes are controlled with the same movement command by designated the movement command for the master axis also to the slave axis.
Page 598 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control There are 3 types of synchronous control as follows:  Position command synchronous control This is used when the machine's rigidity is low. The position commands from the NC are matched and the axes are driven in parallel. This conforms the position command of the master axis to that of the slave axis using the synchronous control function of NC and drive those axes in parallel.
Page 599 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control  Speed command synchronous control This is used when reducing the scale of the full-closed system or when the machine's rigidity, etc. cause the mutual interference to the axes positions.
Page 600: Synchronous Control Mode
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control 34.1.1.1 Synchronous control mode The following two operation methods are available in the synchronous control mode.  Synchronous operation This is a method that both master and slave axes are moved simultaneously with the movement command for the master axis.
Page 601: Reference Position Establishment In Synchronous Operation
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control 34.1.2 Reference Position Establishment in Synchronous Operation Carry out the position alignment of the master and slave axes during machine's setup. The positions between the synchronous axes tend to deviate at power ON, thus this deviation needs to be adjusted.
Page 602 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control (1) From the PLC, turn ON the master and slave axis bits of the "synchronous control operation method" signal to select syn- chronous operation in "synchronous control mode". (2) Carry out zero point return manually.
Page 603 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control  Position alignment without using reference position adjustment value [When synchronization at zero point establishment (#1493 ref_syn) is "0" (asynchronous)] (1) Select the correction mode, and feed the master and slave axes using the manual handle to correct the error between the two axes.
Page 604: Zero Point Establishment In Dogless-Type Absolute Position Detection System
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control 34.1.2.2 Zero Point Establishment in Dogless-type Absolute Position Detection System Zero point establishment in dogless-type absolute position detection system can be performed by combining "#1493 ref_syn" and "#1496 push_typ"...
Page 605 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control Position alignment at machine setup In machine setup, carry out the position alignment of the synchronous axes in the following procedure. (1) Select the correction mode, and feed the master and slave axes using the manual handle to correct the error between the two axes.
Page 606 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control  When synchronization is set to "1" and stopper method is set to "0" Parameter Setting value Synchronization at zero point establishment (#1493 ref_syn) Stopper method in zero point establishing operation (#1496 push_typ) The zero points of both master and slave axes are determined by establishing the master axis' zero point.
Page 607 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control The following is an operation example when synchronization at zero point establishment (#1493 ref_syn) is set to "1" in zero point establishing operation: Master axis Basic machine Machine zero coordinate zero point...
Page 608 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control  When synchronization is set to "1" and stopper method is set to "1" Parameter Setting value Synchronization at zero point establishment (#1493 ref_syn) Stopper method in zero point establishing operation (#1496 push_typ) The zero points of both master and slave axes are determined by establishing the master axis' zero point.
Page 609 M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control Position alignment after power ON Normally, positions of the master and slave axes deviate at power ON, thus the position alignment for this deviation is required.
Page 610: Simple Synchronous Control
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.1 Synchronous Control 34.1.3 Simple Synchronous Control Simple synchronous control is an extension of the synchronous control function. This function enables an axis to be synchronized with the axis previously defined as master axis for the synchronous control, and another axis to be synchronized with the slave axis.
Page 611: Multiple-Axis Synchronization Control
M800VW/M80VW Series Connection and Setup Manual 34 Synchronous Control and Multiple-axis Synchronization Control 34.2 Multiple-axis Synchronization Control 34.2 Multiple-axis Synchronization Control Refer to "Multiple-Axis Synchronization Control Specifications Manual" (BNP-C3072-339) for details on parameter settings, operations, etc. 34.2.1 Outline Multiple-axis synchronization control is the function that enables multiple slave axes to be synchronized with commands to the master axis.
Page 612: Omr Control
OMR Control IB-1501612-C...
Page 613: Omr Ii
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.1 OMR II 35.1 OMR II OMR II is a function that estimates the machine or motor model (moment of inertia, clone friction, viscosity coefficient, etc.) that can cause a path error (error in actual tool path in respect to the path commanded with the program). High-accuracy machining is achieved by carrying out feed forward control based on that model.
Page 614: Adjustment Procedure
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.1 OMR II 35.1.1 Adjustment Procedure (1) Set "#2114 Blf fwdg" (Compensation FF gain) to "0". (2) Set values for "#2112 Blf motor inertia" (Motor inertia) and "#2115 Blf motor stl trq" (Motor stall torque) according to the motor specifications.
Page 615: Omr-Ff
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.2 OMR-FF 35.2 OMR-FF OMR-FF is a function that estimates the causes (moment of inertia, clone friction, viscosity coefficient, etc.) of the path error (error in actual tool path in respect to the path commanded with the program) by making a model of the control target. Feed forward control is carried out based on that model.
Page 616: Omr-Ff Enabling Procedure (Servo)
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.2 OMR-FF 35.2.1 OMR-FF Enabling Procedure (Servo) (1) Disable the OMR-FF function.  Set "#2139 omrff_off" to "1".  Set "#2313 SV113/bit0" to "0". (2) Use software such as NC Analyzer2 to adjust the feedback system (position loop gain, etc.) and inertia (# 2237 SV037 JL).
Page 617: Omr-Cc
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.3 OMR-CC 35.3 OMR-CC OMR-CC is a function that improves the passing speed in curved parts such as arcs and free curved surfaces without increasing the path error (difference between the program path and the tool path) caused by the delay of the servo system. By enabling this function, the machining time can be shortened while maintaining the machining accuracy.
Page 618: Description Of Operation
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.3 OMR-CC 35.3.3 Description of Operation 35.3.3.1 Adjustment by Setting Value of Scale Model Gain (PGM) OMR-CC can perform more accurate machining by increasing the setting value of "#2306 SV106 PGM". When the tool path bulges outside the program path where the curvature of the program path decreases (*1), set a larger parameter setting value.
Page 619: High-Speed Synchronous Tapping (Omr-Dd)
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.4 High-speed Synchronous Tapping (OMR-DD) 35.4 High-speed Synchronous Tapping (OMR-DD) The servo axis directly detects and compensates of the spindle's delay in tracking by using the communication between drive unit over the high-speed optical servo network. By minimizing the synchronization error, the accuracy of the synchronous tapping is increased.
Page 620: Enabling Conditions Of The Function
M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.4 High-speed Synchronous Tapping (OMR-DD) 35.4.1 Enabling Conditions of the Function The following conditions are required to enable this function.  "#1281 ext17/bit5" (High-speed synchronous tapping valid) is set to "1". ...
Page 621 M800VW/M80VW Series Connection and Setup Manual 35 OMR Control 35.4 High-speed Synchronous Tapping (OMR-DD) IB-1501612-C...
Page 622: Variable Torsion Compensation
Variable Torsion Compensation IB-1501612-C...
Page 623: Outline
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.1 Outline 36.1 Outline When the direction of the machine movement is reversed, a response delay (*1) causes protrusion on the path. (*1) The response delay occurs due to dead band, such as friction, torsion, and backlash. The lost motion compensation and OMR-II provide certain compensation using the set compensation parameters regardless of the acceleration rate at the direction reversal to suppress the protrusion.
Page 624: Enabling Conditions
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.2 Enabling Conditions 36.2 Enabling Conditions This function is enabled when all the following conditions are met.  The optional specifications of variable torsion compensation are valid.  "#14301 valVDC" (Variable full-closed torsion compensation ON) is "1". ...
Page 625: Setting The Acceleration Rate
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.3 Parameter Setting Procedure 36.3.1 Setting the Acceleration Rate Set the acceleration rate to which the variable torsion compensation is to be applied. Set the acceleration rate at reversal of direction of the axis on which compensation is to be performed. Set the acceleration rates by the 1st parameter to 8th parameter.
Page 626: Setting The Torsion Compensation Amount
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.3 Parameter Setting Procedure 36.3.2 Setting the Torsion Compensation Amount Set the variable torsion compensation amounts in the (+) and (-) directions. Perform the setting for each acceleration rate. For the torsion compensation amount (+), set the protrusion size when the axis moves to the (+) direction and reverses to the (-) direction.
Page 627: Setting The Time Constant
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.3 Parameter Setting Procedure 36.3.3 Setting the Time Constant Set the time constant of the variable torsion compensation. Perform the setting for each acceleration rate. When an appropriate value is set to the time constant, the quadrant protrusion is reduced. Circular command When the quadrant protrusions are generated as follows, change the setting of the time constant.
Page 628: Relation With Other Functions
M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.4 Relation with Other Functions 36.4 Relation with Other Functions  Relation with lost motion When the variable torsion compensation is valid, the lost motion compensation is invalid.  Relation with OMR-II It can be used with the variable torsion compensation.
Page 629 M800VW/M80VW Series Connection and Setup Manual 36 Variable Torsion Compensation 36.4 Relation with Other Functions IB-1501612-C...
Page 630: Adjust S-Analog Screen
Adjust S-analog Screen IB-1501612-C...
Page 631 M800VW/M80VW Series Connection and Setup Manual 37 Adjust S-analog Screen The spindle analog output adjustment is carried out on this screen. (1) (2) (3) (4) Display items Display item Details Parameter No. This is a number to be used when inputting/outputting the parameters. For manual adjustments, this uses the [ ↑...
Page 632: Adjustment Preparations
M800VW/M80VW Series Connection and Setup Manual 37 Adjust S-analog Screen 37.1 Adjustment Preparations 37.1 Adjustment Preparations The PLC must be stopped when performing spindle analog output adjustments by one of the following methods below: Operation methods (when stopping the PLC with the rotary switch) Set the rotary switch CS2 in the upper part of the unit The PLC is stopped.
Page 633: Performing Manual Adjustments
M800VW/M80VW Series Connection and Setup Manual 37 Adjust S-analog Screen 37.3 Performing Manual Adjustments 37.3 Performing Manual Adjustments Adjusting the ch0 0 V offset The current setting value is displayed under "Current adjust Use the [ ↑ ] [ ↓ ] keys to move the cursor to data".
Page 634 M800VW/M80VW Series Connection and Setup Manual 37 Adjust S-analog Screen 37.3 Performing Manual Adjustments Adjusting the ch0 - gain The current setting value is displayed under "Current adjust Use the [ ↑ ] [ ↓ ] keys to move the cursor to data".
Page 635 M800VW/M80VW Series Connection and Setup Manual 37 Adjust S-analog Screen 37.3 Performing Manual Adjustments IB-1501612-C...
Page 636: Device Open Parameter Screen
Device Open Parameter Screen IB-1501612-C...
Page 637 M800VW/M80VW Series Connection and Setup Manual 38 Device Open Parameter Screen This function can set or change the user back up area of the PLC device from the NC screen. Divide the device area in accordance with the specifications of the machine tool builder and switch the display format or data type for each divided area (hereinafter called a group information).
Page 638 M800VW/M80VW Series Connection and Setup Manual 38 Device Open Parameter Screen Display items Display item Details Setting range (1) Parameter No. Displays the parameter Nos.(maximum of 100). (2) Device allocation Set the head device which designates the divided area. R8300 to R9799 It is possible to designate the device allocation which overlaps with other R18300 to R19799 groups.
Page 639 M800VW/M80VW Series Connection and Setup Manual 38 Device Open Parameter Screen Display item Details Setting range (5) Display format Designate the display format of the data, the restriction of display, and the state of input protection. (a) Cancel input protection 1: Not check Input protection check for the data protection key 2 will not be executed in the group detail screen.
Page 640 M800VW/M80VW Series Connection and Setup Manual 38 Device Open Parameter Screen Menu for the device allocation/number of data input Menu Details Line Copy the data of a line where a cursor is placed. copy Writes the contents of the data copied (one line) into a line where the cursor is placed. If the data of the line is changed after [Line copy] is pressed, the data before change will be written when Line paste...
Page 641 M800VW/M80VW Series Connection and Setup Manual 38 Device Open Parameter Screen Menu when inputting the data type Menu Details Input "BYTE" to the data type. BYTE When the display format is BIT format, it will be changed to the desimal format with sign. Inputs "WORD"...
Page 642: Sram Open Parameter Screen
SRAM Open Parameter Screen IB-1501612-C...
Page 643 M800VW/M80VW Series Connection and Setup Manual 39 SRAM Open Parameter Screen SRAM open area for a machine tool builder can be set or changed. It can be divided according to the machine tool builder's usage, and the display format and the data format can be switched for each divided area (hereinafter called a group).
Page 644 M800VW/M80VW Series Connection and Setup Manual 39 SRAM Open Parameter Screen Display items Display item Details Setting range (1) Parameter No. Displays the parameter Nos.(maximum of 100). (2) Data type Set the data type (CHAR, SHORT, LONG, DOUBLE) of the allocation area. CHAR: 1-byte integer type.
Page 645 M800VW/M80VW Series Connection and Setup Manual 39 SRAM Open Parameter Screen Display item Details Setting range (4) Display format Designate the display format of the data, the restriction of display, and the state of input protection. (a) Cancel input protection 1: Not check Input protection check for the data protection key 2 will not be executed in the group detail screen.
Page 646 M800VW/M80VW Series Connection and Setup Manual 39 SRAM Open Parameter Screen Menu when inputting the data type Menu Details Input CHAR into the data type. CHAR Inputs SHORT into the data type. SHORT Inputs LONG into the data type. LONG Inputs DOUBLE into the data type.
Page 647 M800VW/M80VW Series Connection and Setup Manual 39 SRAM Open Parameter Screen Menu when inputting the display format Menu Details W/ DEC Change the display format to the decimal format with sign. sign W/O DEC Change the display format to the decimal format without sign. sign Changes the display format to hexadecimal.
Page 648: Data Backup And Restoration
Data Backup and Restoration IB-1501612-C...
Page 649 M800VW/M80VW Series Connection and Setup Manual 40 Data Backup and Restoration The following two functions are available for the data backup and restoration: all backup function for files in batch and input/ output function for separate files. The following devices are available in all backup and restoration. ...
Page 650: All Backup
M800VW/M80VW Series Connection and Setup Manual 40 Data Backup and Restoration 40.1 All Backup 40.1 All Backup The following explains the procedure to backup the various NC data to the memory card in a batch. Note (1) APLC data can be backed up only when the APLC release specification is valid. Operation procedure Press the menu [Backup].
Page 651 M800VW/M80VW Series Connection and Setup Manual 40 Data Backup and Restoration 40.1 All Backup The backup is completed without error. The state for files that have been backed will update to "Complete", and the displayed dates in "Backup list" will be updated.
Page 652: All Restoration
M800VW/M80VW Series Connection and Setup Manual 40 Data Backup and Restoration 40.2 All Restoration 40.2 All Restoration The following explains the procedure to restore the various NC data backed up to memory card in a batch. The files which has been automatically backed up can be restored only when the device set by the parameter "#8919 Auto backup device"...
Page 653 M800VW/M80VW Series Connection and Setup Manual 40 Data Backup and Restoration 40.2 All Restoration Move the cursor to select the file. The operation message "OK? (Y/N)" will display. Press the [INPUT] key. The cursor moves as follows: <Note>  If there are no files at the current cursor position, the op- [ ↓...
Page 654: Appendix 1: Setting The System Lock
Appendix 1: Setting the System Lock IB-1501612-C...
Page 655: Setting The Encryption Key
M800VW/M80VW Series Connection and Setup Manual 41 Appendix 1: Setting the System Lock 41.1 Setting the Encryption Key System lock is a function for a machine tool builder to set a valid term to use the machine that machine user is using. If a decryption code is not input by a specified limit, the servo ready finish signal will be forcibly turned OFF and the use of the machine will be disabled.
Page 656: Setting Of Expiration Date
M800VW/M80VW Series Connection and Setup Manual 41 Appendix 1: Setting the System Lock 41.2 Setting of Expiration Date 41.2 Setting of Expiration Date Inputting a decryption code while the system lock is disabled, the system lock function becomes enabled and the expiration date is being set.
Page 657: Display Of Time Limit Warning And Alarm Notification
M800VW/M80VW Series Connection and Setup Manual 41 Appendix 1: Setting the System Lock 41.3 Display of Time Limit Warning and Alarm Notification 41.3 Display of Time Limit Warning and Alarm Notification  When the indication period of warning is reached, the warning "Z64 Valid term soon to be expired" appears at the bottom right of the screen.
Page 658: Appendix 2: Protection Setting
Appendix 2: Protection Setting IB-1501612-C...
Page 659: Protect Setting Screen
M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.1 Protect Setting Screen Operating the maintenance screen reduces a phenomenon in which defective workpieces run out due to an operation mistake, by implementing a restriction with seven operation levels. The operation level varies depending on the MTB specifications.
Page 660 M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.1 Protect Setting Screen Data to be protected Initial value Setting range Display item Objects to be protected Change Output Change Output Change Output Table for protection level settings on this screen Available level The table for protection level settings cannot be changed 4 to 6...
Page 661 M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.1 Protect Setting Screen Initial value Setting range Display item Objects to be protected Change Output Change Output Change Output Automatic backup (Output) Batch backups (menu [Backup]) ○ Batch backups (menu [Master Backup]) Batch backups (menu [Restore]) Batch backups (menu [Master Restore]) HMI environment setting...
Page 662: Returning The Password To The Non-Input State (Operation Level 0 To 3)
M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.2 Returning the Password to the Non-input State (Operation level 0 to 3) Note (1) For specifications on inputting and outputting files which are objects to be protected, refer to "Instruction Manual". (2) The following operations can be performed at the protection level 6 or higher.
Page 663: Changing The Password
M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.4 Changing the Password 42.4 Changing the Password Operation Methods (Example) Change the password of operation level 4 from "OLDPASS" to "NEWPASS" Press the menu [Change pasword]. The menu [Change pasword] is highlighted. The operation message "Enter the current password."...
Page 664: Clearing The Password
M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.5 Clearing the Password 42.5 Clearing the Password Operation Methods (Example) Clear the password of operation level 4 Press the menu [Change pasword]. The menu [Change pasword] is highlighted. The operation message "Enter the current password."...
Page 665: Changing The Protection Level
M800VW/M80VW Series Connection and Setup Manual 42 Appendix 2: Protection Setting 42.6 Changing the Protection Level 42.6 Changing the Protection Level Changing the protection level is available only for the data being set in the lower level than a current operation level. Operation Methods (Example) Change the "Available level"...
Page 666: Appendix 3: Displaying Original Logo On Standard Screen
Appendix 3: Displaying Original Logo On Standard Screen IB-1501612-C...
Page 667 M800VW/M80VW Series Connection and Setup Manual 43 Appendix 3: Displaying Original Logo On Standard Screen A logo that machine tool builders create can be displayed on the upper left of the standard screen. In order to display the logo, create a logo file (JPG) and install it. When a logo file is prepared by machine tool builders, the unit name (Base common parameter #1135 unt_nm) is not displayed.
Page 668: Appendix 4: Emc Installation Guidelines
Appendix 4: EMC Installation Guidelines IB-1501612-C...
Page 669: Introduction
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.1 Introduction For details of the drive section (servo/spindle drive unit), refer to the "EMC Installation Guidelines" of instruction manuals for each drive unit. 44.1 Introduction EMC Directives became mandatory as of January 1, 1996. The subject products must have a CE mark attached indicating that the product complies with the Directives.
Page 670: Emc Measures
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.3 EMC Measures 44.3 EMC Measures The main items relating to EMC measures include the following.  Store the device in a sealed metal panel.  Ground all conductors that are floating electrically. Decrease the impedance. ...
Page 671: Measures For Door
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.4 Panel Structure 44.4.2 Measures for Door  Use metal for all members configuring the panel.  When joining the door, use a gasket to lower the impedance of the contacting sections, or use a structure with a large con- tact area as shown below.
Page 672: Measures For Wiring In Panel
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.5 Measures for Wiring in Panel 44.5 Measures for Wiring in Panel Cables act as antennas to propagate unnecessary noise, and thus must be appropriately shielded and treated. The following measures must be sufficiently considered for the cables (J210/J303) that carry out high-speed communication.
Page 673: Shield Treatment Of Cables
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.5 Measures for Wiring in Panel 44.5.2 Shield Treatment of Cables Use shielded cables for wiring outside the panel. Use shield clamps within 10 cm of the lead-out port from the panel. (Refer to "44.6.1 Shield Clamp Fitting".) ...
Page 674 M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.5 Measures for Wiring in Panel  LAN cable [J303 cable] Shield clamp Control panel Control panel Control unit Peripheral device J303 cable Ferrite core Shield clamp Operation panel Control panel Personal computor Control unit...
Page 675 M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.5 Measures for Wiring in Panel  Cable between synchronous feed encoder and control unit [R050/R054 cable] Shield clamp Control panel Control panel Synchronous feed Control unit encoder R050/R054 cable Ferrite core ...
Page 676 M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.5 Measures for Wiring in Panel  Emergency stop cable [J120 cable] Shield clamp Control panel Operation panel Control unit Emergency stop switch J120 cable Ferrite core Shield clamp Operation panel Control panel Operation panel I/O unit...
Page 677: Emc Countermeasure Parts
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.6 EMC Countermeasure Parts 44.6 EMC Countermeasure Parts 44.6.1 Shield Clamp Fitting The effect can be improved by directly connecting the cable's shield sheath to the grounding plate as shown below. Install the grounding plate near the outlet (within 10cm) of each panel, and press against the grounding plate with the clamp fitting.
Page 678: Ferrite Core
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.6 EMC Countermeasure Parts 44.6.2 Ferrite Core The ferrite core is mounted integrally with the plastic case. This can be installed with one touch without cutting the interface cable or power supply cable. This ferrite core is effective against common mode noise, allowing measures against noise without affecting the quality of the signal.
Page 679: Surge Absorber
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.6 EMC Countermeasure Parts 44.6.3 Surge Absorber Make sure that the surge does not directly enter the AC line of the general-purpose stabilized power supply (user-prepared) supplying power to the control unit and DIO. Select the following product or equivalent for the surge absorber. Refer to the manufacturer catalog for detailed characteristics, outline and connection methods of the surge absorber.
Page 680 M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.6 EMC Countermeasure Parts  Example of surge absorber installation An example of installing the surge absorber in the machine control panel is shown below. A short-circuit fault will occur in the surge absorber if a surge exceeding the tolerance is applied.
Page 681: Selection Of Stabilized Power Supply
M800VW/M80VW Series Connection and Setup Manual 44 Appendix 4: EMC Installation Guidelines 44.6 EMC Countermeasure Parts 44.6.4 Selection of Stabilized Power Supply Consider the following characteristics when selecting the stabilized power supply (prepared by machine manufacturer). Use a power supply that complies with CE Marking or that follows the safety standards given below. <Stabilized power supply selection items>...
Page 682: Appendix 5: Restrictions For Lithium Batteries
Appendix 5: Restrictions for Lithium Batteries IB-1501612-C...
Page 683: Restriction For Packing
45.1.1 Target Products The following Mitsubishi Electric CNC products use lithium batteries. If the lithium metal content exceeds 1 g for battery cell and 2 g for battery, the battery is classified as dangerous good (Class 9). In order to avoid an accidental actuation during the transportation, all lithium battery products incorporated in a machinery or device must be fixed securely and must be shipped with wrapped over the outer package as to prevent damage or short-circuits.
Page 684: Handling By User
M800VW/M80VW Series Connection and Setup Manual 45 Appendix 5: Restrictions for Lithium Batteries 45.1 Restriction for Packing 45.1.2 Handling by User The shipper must confirm the latest IATA Dangerous Goods Regulations, IMDG Codes and laws and orders of the corresponding export country. These should be checked by the company commissioned for the actual transportation.
Page 685: Products Information Data Sheet (Er Battery)
M800VW/M80VW Series Connection and Setup Manual 45 Appendix 5: Restrictions for Lithium Batteries 45.2 Products Information Data Sheet (ER Battery) 45.2 Products Information Data Sheet (ER Battery) MSDS system does not cover the product used in enclosed state. The ER battery described in this section applies to that product. This description is applied to the normal use, and is provided as reference but not as guarantee.
Page 686 M800VW/M80VW Series Connection and Setup Manual 45 Appendix 5: Restrictions for Lithium Batteries 45.2 Products Information Data Sheet (ER Battery) (6) Physical/chemical properties Physical form Solid Shape Cylinder type Smell Odorless Appearance Not applicable (insoluble) Boiling point/boiling range, melt- ing point, decomposition tem- No information perature, flash point (7) Stability and reactivity...
Page 687: Forbiddance Of Transporting Lithium Battery By Passenger Aircraft Provided In The Code Of Federal Regulation
M800VW/M80VW Series Connection and Setup Manual 45 Appendix 5: Restrictions for Lithium Batteries 45.3 Forbiddance of Transporting Lithium Battery by Passenger Aircraft Provided in the Code of Federal Regulation 45.3 Forbiddance of Transporting Lithium Battery by Passenger Aircraft Provided in the Code of Federal Regulation This law is a domestic law of the United States, however it also applies to the domestic flight and international flight departing from or arriving in the United States.
Page 688: Restriction Related To Eu Battery Directive
This symbol mark is according to the directive 2006/66/EC Article 20 Information for end-users and Annex II. Your MITSUBISHI ELECTRIC product is designed and manufactured with high quality materials and components which can be recycled and/or reused. This symbol means that batteries and accumulators, at their end-of-life, should be disposed of separately from your household waste.
Page 689 M800VW/M80VW Series Connection and Setup Manual 45 Appendix 5: Restrictions for Lithium Batteries 45.5 Restriction Related to EU Battery Directive IB-1501612-C...
Page 690: Appendix 6: Precautions For Compliance To Ul/C-Ul Standards
Appendix 6: Precautions for Compliance to UL/c-UL Standards IB-1501612-C...
Page 691 M800VW/M80VW Series Connection and Setup Manual 46 Appendix 6: Precautions for Compliance to UL/c-UL Standards (1) Selection of external 24 VDC power supply unit (unit to be prepared by machine tool builder) This NC system complies with the UL Standards on the condition that the stabilized power supply unit supplying 24 VDC to each unit is a UL-approved part of SELV/limited power LPS or Class 2.
Page 692 Contents were revised to correspond to Mitsubishi Electric CNC M800VW/M80VW Series software version A1. Mar. 2022 IB(NA)1501612-C Contents were revised to correspond to Mitsubishi Electric CNC M800V/M80V Series software ver- sion A3. The following units were added.  FCU8-DX522-001 (Laser I/F Unit) The following chapters were added.
Page 693 TEL: +420-59-5691-185 / FAX: +420-59-5691-199 BRAZIL Russia Service Center MITSUBISHI ELECTRIC RUSSIA LLC MITSUBISHI ELECTRIC DO BRASIL COMÉRCIO E SERVIÇOS LTDA. LETNIKOVSKAYA STREET 2, BLD.1, 5TH 115114 MOSCOW, RUSSIA Votorantim Office TEL: +7-495-721-2070 / FAX: +7-495-721-2071 AV. GISELE CONSTANTINO,1578, PARQUE BELA VISTA, VOTORANTIM-SP, BRAZIL CEP:18.110-650...
Page 694 ASEAN CHINA Singapore Service Center CNC Call Center 307 ALEXANDRA ROAD #05-01/02 MITSUBISHI ELECTRIC BUILDING SINGAPORE 159943 TEL: +86-400-921-5130 TEL: +65-6473-2308 / FAX: +65-6476-7439 Shanghai Service Center 1-3,5-10,18-23/F, NO.1386 HONG QIAO ROAD, CHANG NING QU, PHILIPPINES SHANGHAI 200336, CHINA TEL: +86-21-2322-3030 / FAX: +86-21-2322-3000*8422 MELCO FACTORY AUTOMATION PHILIPPINES INC.
Page 695 Every effort has been made to keep up with software and hardware revisions in the contents described in this manual. However, please understand that in some unavoidable cases simultaneous revision is not possible. Please contact your Mitsubishi Electric dealer with any questions or comments regarding the use of this product. Duplication Prohibited This manual may not be reproduced in any form, in part or in whole, without written permission from Mitsubishi Electric Corporation.

This manual is also suitable for:

M80vw series M850vw M830vwM80vwM800vs series M80v series

Mitsubishi Electric M800VW Series Connection And Set Up Manual

Quick Links

Related Manuals for Mitsubishi Electric M800VW Series

Summary of Contents for Mitsubishi Electric M800VW Series