Contents

Front cover
Introduction
Manual List
Precautions for Safety
Treatment of waste
Disposal
Trademarks
WARRANTY
Specifications List (CONTENTS)
- Mitsubishi Electric CNC M800W/M800S/M80W Series Specifications List [L system]
- Mitsubishi Electric CNC M800W/M800S/M80W Series Specifications List [M system]
- Mitsubishi Electric CNC M80/E80/C80 Series Specifications List [L system]
- Mitsubishi Electric CNC M80/E80/C80 Series Specifications List [M system]
1 Control Axes
- 1.1 Control Axes
  - 1.1.1 Number of Basic Control Axes (NC Axes)
  - 1.1.2 Max. Number of Axes (NC Axes + Spindles + PLC Axes)
    - 1.1.2.1 Max. Number of NC Axes (In Total for All the Part Systems)
    - 1.1.2.2 Max. Number of Spindles
    - 1.1.2.3 Max. Number of PLC Axes
  - 1.1.4 Max. Number of PLC Indexing Axes
  - 1.1.5 Number of Simultaneous Contouring Control Axes
  - 1.1.6 Max. Number of NC Axes in a Part System
  - 1.1.7 Axis Name Extension
- 1.2 Control Part System
  - 1.2.1 Standard Number of Part Systems
  - 1.2.2 Max. Number of Part Systems (Main + Sub)
    - 1.2.2.1 Max. Number of Main Part Systems
    - 1.2.2.2 Max. Number of Sub Part Systems
- 1.3 Control Axes and Operation Modes
  - 1.3.1 Tape (RS-232C Input) Mode
  - 1.3.2 Memory Mode
  - 1.3.3 MDI Mode
  - 1.3.4 High-Speed Program Server Mode
    - 1.3.4.1 Control Unit-side High-speed Program Server Mode
    - 1.3.4.2 Display Unit-side High-speed Program Server Mode
    - 1.3.4.3 FTP High-speed Program Server Mode
  - 1.3.5 Front-side SD Card Mode
  - 1.3.6 Front-side USB Memory Mode
2 Input Command
- 2.1 Data Increment
  - 2.1.1 Least Command Increment
  - 2.1.2 Least Control Increment
  - 2.1.3 Indexing Increment
- 2.2 Unit System
  - 2.2.1 Inch/Metric Changeover
  - 2.2.2 Input Command Increment Tenfold
- 2.3 Program Format
  - 2.3.1 Program Format
    - 2.3.1.1 Format 1 for Lathe (G Code List 2, 3)
    - 2.3.1.2 Format 2 for Lathe (G Code List 4, 5)
    - 2.3.1.3 Special Format for Lathe (G Code List 6, 7)
    - 2.3.1.4 Format 1 for Machining Center
    - 2.3.1.5 Format 2 for Machining Center (M2 Format)
    - 2.3.1.6 MITSUBISHI CNC Special Format
  - 2.3.2 Program Format Switch
- 2.4 Command Value
  - 2.4.1 Decimal Point Input I, II
  - 2.4.2 Absolute/Incremental Command
  - 2.4.3 Diameter/Radius Designation
  - 2.4.4 Diameter/Radius Designation Switch
3 Positioning/Interpolation
- 3.1 Positioning
  - 3.1.1 Positioning
  - 3.1.2 Unidirectional Positioning
- 3.2 Linear/Circular Interpolation
  - 3.2.1 Linear Interpolation
  - 3.2.2 Circular Interpolation (Center/Radius Designation)
  - 3.2.3 Helical Interpolation
  - 3.2.4 Spiral/Conical Interpolation
  - 3.2.5 Cylindrical Interpolation
  - 3.2.6 Polar Coordinate Interpolation
  - 3.2.7 Milling Interpolation
  - 3.2.8 Hypothetical Axis Interpolation
- 3.3 Curve Interpolation
  - 3.3.1 Involute Interpolation
  - 3.3.2 Exponential Interpolation
  - 3.3.3 Spline Interpolation (G05.1Q2/G61.2)
  - 3.3.4 NURBS Interpolation
  - 3.3.5 3-Dimensional Circular Interpolation
  - 3.3.6 Spline Interpolation2 (G61.4)
4 Feed
- 4.1 Feedrate
  - 4.1.1 Rapid Traverse Rate (m/min)
  - 4.1.2 Cutting Feedrate (m/min)
  - 4.1.3 Manual Feedrate (m/min)
  - 4.1.4 Rotary Axis Command Speed Tenfold
- 4.2 Feedrate Input Methods
  - 4.2.1 Feed per Minute (Asynchronous Feed)
  - 4.2.2 Feed per Revolution (Synchronous Feed)
  - 4.2.3 Inverse Time Feed
  - 4.2.4 F 1-digit Feed
  - 4.2.5 Manual Speed Command
  - 4.2.7 G00 Feedrate Designation (,F Command)
  - 4.2.8 Selection of Axis (Axes) for Feedrate Command
- 4.3 Override
  - 4.3.1 Rapid Traverse Override
  - 4.3.2 Cutting Feed Override
  - 4.3.3 2nd Cutting Feed Override
  - 4.3.4 Override Cancel
- 4.4 Acceleration/Deceleration
  - 4.4.1 Automatic Acceleration/Deceleration after Interpolation
  - 4.4.2 Rapid Traverse Constant-gradient Acceleration/Deceleration
  - 4.4.3 Rapid Traverse Constant-gradient Multi-step Acceleration/Deceleration
- 4.5 Thread Cutting
  - 4.5.1 Thread Cutting (Lead/Thread Number Designation)
  - 4.5.2 Variable Lead Thread Cutting
  - 4.5.3 Synchronous Tapping
    - 4.5.3.1 Synchronous Tapping Cycle
    - 4.5.3.2 Pecking Tapping Cycle
    - 4.5.3.3 Deep-hole Tapping Cycle
    - 4.5.3.4 Synchronous Tapping with Multiple Spindles
    - 4.5.3.5 Synchronous Tapping with Analog I/F Spindle
  - 4.5.4 Chamfering
  - 4.5.6 Circular Thread Cutting
  - 4.5.8 High-speed Synchronous Tapping (OMR-DD)
  - 4.5.10 Thread Recutting
  - 4.5.11 Thread Cutting Override
  - 4.5.12 Variable Feed Thread Cutting
  - 4.5.13 Thread Cutting Time Constant Switch
- 4.6 Manual Feed
  - 4.6.1 Manual Rapid Traverse
  - 4.6.2 Jog Feed
  - 4.6.3 Incremental Feed
  - 4.6.4 Handle Feed
  - 4.6.5 Manual Feedrate B
  - 4.6.6 Manual Feedrate B Surface Speed Control
  - 4.6.8 Manual Speed Clamp
- 4.7 Dwell
  - 4.7.1 Dwell (Time-based Designation)
  - 4.7.2 Dwell (Revolution-based Designation)
5 Program Memory/Editing
- 5.1 Memory Capacity
  - 5.1.1 Memory Capacity (Number of Programs Stored)
- 5.2 Editing
  - 5.2.1 Program Editing
  - 5.2.2 Background Editing
  - 5.2.3 Buffer Correction
  - 5.2.5 Multi-part System Simultaneous Program Editing
  - 5.2.6 Special Program Editing Display for Synchronization between Part Systems
  - 5.2.7 Finish Shape View Programming
6 Operation and Display
- 6.1 Structure of Operation/Display Panel
  - 6.1.1 Color Display (8.4-type LCD TFT)
  - 6.1.2 Color Touchscreen Display (10.4-type LCD TFT)
  - 6.1.3 Color Touchscreen Display (15-type LCD TFT)
  - 6.1.4 Separated-type Color Display (8.4-type LCD TFT)
  - 6.1.5 Separated-type Color Touchscreen Display (10.4-type LCD TFT)
  - 6.1.6 Separated-type Color Touchscreen Display (15-type LCD TFT)
  - 6.1.7 Separated-type Color Touchscreen Display (15-type LCD TFT/Windows8)
  - 6.1.8 Separated-type Color Touchscreen Display (19-type LCD TFT/Windows8)
  - 6.1.9 Separated-type Color Touchscreen Display (19-type Horizontal LCD TFT/Windows8)
  - 6.1.11 GOT (GOT2000 Series GT27/GT25 12.1/10.4/8.4/5.7)
- 6.2 Operation Methods and Functions
  - 6.2.1 Operation Input
  - 6.2.2 Absolute/Incremental Setting
  - 6.2.3 Multiple Display Connection
  - 6.2.4 Common Display to Multiple NCs
  - 6.2.5 Displayed Part System Switch
  - 6.2.6 Menu List
  - 6.2.7 Display Switch by Operation Mode
  - 6.2.8 External Signal Display Switch
  - 6.2.9 Screen Saver
  - 6.2.10 Parameter Guidance
  - 6.2.11 Alarm Guidance
  - 6.2.12 Machining Program Input Mistake Check Warning
  - 6.2.14 Screenshot Capture
  - 6.2.15 User Selectable Menu Configuration
  - 6.2.16 PC-NC Network Automatic Connection
  - 6.2.17 Device Open Parameter
  - 6.2.18 SRAM Open Parameter
  - 6.2.19 MTB Selectable Menu Configuration
  - 6.2.20 Remote Desktop Connection
  - 6.2.21 VNC Server
- 6.3 Display Methods and Contents
  - 6.3.1 Status Display
  - 6.3.2 Clock Display
  - 6.3.3 Monitor Screen Display
  - 6.3.4 Setup Screen Display
  - 6.3.5 Edit Screen Display
  - 6.3.6 Diagnosis Screen Display
  - 6.3.7 Maintenance Screen Display
  - 6.3.8 Home Application
  - 6.3.9 Home Screen
  - 6.3.10 Additional Languages
    - 6.3.10.1 Japanese
    - 6.3.10.2 English
    - 6.3.10.3 German
    - 6.3.10.4 Italian
    - 6.3.10.5 French
    - 6.3.10.6 Spanish
    - 6.3.10.7 Chinese
      - 6.3.10.7.1 Chinese (Traditional Chinese Characters)
      - 6.3.10.7.2 Chinese (Simplified Chinese Characters)
    - 6.3.10.8 Korean
    - 6.3.10.9 Portuguese
    - 6.3.10.10 Hungarian
    - 6.3.10.11 Dutch
    - 6.3.10.12 Swedish
    - 6.3.10.13 Turkish
    - 6.3.10.14 Polish
    - 6.3.10.15 Russian
    - 6.3.10.16 Czech
    - 6.3.10.17 Indonesian
    - 6.3.10.18 Vietnamese
7 Input/Output Functions and Devices
- 7.1 Input/Output Data
  - 7.1.1 Machining Program Input/Output
  - 7.1.2 Tool Offset Data Input/Output
  - 7.1.3 Common Variable Input/Output
  - 7.1.4 Parameter Input/Output
  - 7.1.5 History Data Output
  - 7.1.7 System Configuration Data Output
- 7.2 Input/Output I/F
  - 7.2.1 RS-232C I/F
  - 7.2.2 SD Card I/F
    - 7.2.2.1 Control Unit-side SD Card I/F [Up to 32GB]
    - 7.2.2.2 Front-side SD Card I/F [Up to 32GB]
  - 7.2.3 Ethernet I/F
  - 7.2.4 Display Unit-side Data Server I/F
  - 7.2.5 Front-side USB Memory I/F [Up to 32GB]
  - 7.2.6 USB I/F (GOT Front-side USB I/F)
  - 7.2.7 SD I/F (GOT Back-side SD Card I/F)
- 7.3 Computer Link
  - 7.3.1 Computer Link B
- 7.4 Others
  - 7.4.1 Handy Terminal Connection
  - 7.4.3 IP Filter Setting
8 Spindle, Tool and Miscellaneous Functions
- 8.1 Spindle Functions (S)
  - 8.1.1 Spindle Control Functions
    - 8.1.1.1 Spindle Digital I/F
    - 8.1.1.2 Spindle Analog I/F
    - 8.1.1.3 Coil Switch
    - 8.1.1.4 Automatic Coil Switch
    - 8.1.1.5 Encoder Input I/F
    - 8.1.1.6 Spindle-mode Servo Motor Control
    - 8.1.1.7 Spindle-mode Rotary Axis Control
    - 8.1.1.8 Turret Gear Change Control
    - 8.1.1.9 Spindle Control with Pulse Train Output
  - 8.1.2 S Code Output
  - 8.1.3 Constant Surface Speed Control
  - 8.1.4 Spindle Override
  - 8.1.5 Multiple-spindle Control
    - 8.1.5.1 Multiple-spindle Control I
    - 8.1.5.2 Multiple-spindle Control II
  - 8.1.6 Spindle Orientation
  - 8.1.7 Spindle Position Control (Spindle/C Axis Control)
    - 8.1.7.1 Spindle Position Control (Spindle/C Axis Control)
    - 8.1.7.2 C Axis Control during Spindle Synchronization
  - 8.1.8 Spindle Synchronization
    - 8.1.8.1 Spindle Synchronization I
    - 8.1.8.2 Spindle Synchronization II
    - 8.1.8.3 Guide Bushing Spindle Synchronization
  - 8.1.9 Tool Spindle Synchronization I (Polygon)
    - 8.1.9.1 Tool Spindle Synchronization IA (Spindle-Spindle, Polygon)
    - 8.1.9.2 Tool Spindle Synchronization IB (Spindle-Spindle, Polygon)
    - 8.1.9.3 Tool Spindle Synchronization IC (Spindle-NC Axis, Polygon)
  - 8.1.10 Tool Spindle Synchronization II (Hobbing)
  - 8.1.11 Spindle Speed Clamp
  - 8.1.13 Spindle Oscillation
  - 8.1.14 Spindle Superimposition Control
  - 8.1.15 Multiple Spindle Synchronization Set Control
  - 8.1.16 Spindle Speed Fluctuation Detection
  - 8.1.17 Spindle Motor Temperature Output to PLC
- 8.2 Tool Functions (T)
  - 8.2.1 Tool Functions (T Command)
- 8.3 Miscellaneous Functions (M)
  - 8.3.1 Miscellaneous Functions
  - 8.3.2 Multiple M Codes in 1 Block
  - 8.3.3 M Code Independent Output
  - 8.3.4 Miscellaneous Function Finish
  - 8.3.5 M Code Output during Axis Traveling
  - 8.3.6 Miscellaneous Function Command High-speed Output
- 8.4 2nd Miscellaneous Functions (B)
  - 8.4.1 2nd Miscellaneous Functions
  - 8.4.2 2nd Miscellaneous Function Name Extension
9 Tool Compensation
- 9.1 Tool Length/Tool Position
  - 9.1.1 Tool Length Offset
  - 9.1.2 Tool Position Offset
  - 9.1.3 Tool Compensation for Additional Axes
  - 9.1.4 Tool Position Compensation (G43.7)
- 9.2 Tool Radius
  - 9.2.1 Tool Radius Compensation
  - 9.2.2 3-dimensional Tool Radius Compensation
  - 9.2.3 Tool Nose Radius Compensation (G40/41/42)
  - 9.2.4 Automatic Decision of Nose Radius Compensation Direction (G46/40)
  - 9.2.5 Tool Radius Compensation Diameter Designation
- 9.3 Tool Offset Amount
  - 9.3.1 Number of Tool Offset Sets
  - 9.3.2 Offset Memory
    - 9.3.2.1 Tool Shape/Wear Offset Amount
    - 9.3.2.2 Compensation Type Selection by Parameter
  - 9.3.3 Number of Tool Offset Sets Allocation to Part Systems
10 Coordinate System
- 10.1 Coordinate System Type and Setting
  - 10.1.1 Machine Coordinate System
  - 10.1.2 Coordinate System Setting
  - 10.1.3 Automatic Coordinate System Setting
  - 10.1.4 Workpiece Coordinate System Selection
    - 10.1.4.1 Workpiece Coordinate System Selection (6 Sets)
    - 10.1.4.2 Extended Workpiece Coordinate System Selection (48 Sets) G54.1P1 to P48
    - 10.1.4.3 Extended Workpiece Coordinate System Selection (96 Sets) G54.1P1 to P96
    - 10.1.4.4 Extended Workpiece Coordinate System Selection (300 Sets) G54.1P1 to P300
  - 10.1.5 External Workpiece Coordinate Offset
  - 10.1.6 Workpiece Coordinate System Preset (G92.1)
  - 10.1.7 Local Coordinate System
  - 10.1.8 Coordinate System for Rotary Axis
  - 10.1.9 Plane Selection
  - 10.1.10 Origin Set/Origin Cancel
  - 10.1.11 Counter Set
  - 10.1.12 Workpiece Position Offset for Rotary Axis
  - 10.1.13 Workpiece Coordinate System Shift
- 10.2 Return
  - 10.2.1 Manual Reference Position Return
  - 10.2.2 Automatic 1st Reference Position Return
  - 10.2.3 2nd, 3rd, 4th Reference Position Return
  - 10.2.4 Reference Position Check
  - 10.2.5 Absolute Position Detection
  - 10.2.6 Tool Exchange Position Return
11 Operation Support Functions
- 11.1 Program Control
  - 11.1.1 Optional Block Skip
  - 11.1.2 Optional Block Skip Addition
  - 11.1.3 Single Block
- 11.2 Program Test
  - 11.2.1 Dry Run
  - 11.2.2 Machine Lock
  - 11.2.3 Miscellaneous Function Lock
  - 11.2.4 Graphic Check
    - 11.2.4.1 Graphic Check
    - 11.2.4.2 3D Solid Program Check
    - 11.2.4.3 Graphic Check Rotary Axis Drawing
  - 11.2.5 Graphic Trace
    - 11.2.5.1 Graphic Trace
    - 11.2.5.2 Graphic Trace Rotary Axis Drawing
  - 11.2.6 Machining Time Computation
  - 11.2.7 Manual Arbitrary Reverse Run (Program Check Operation)
  - 11.2.8 High-speed Simple Program Check
- 11.3 Program Search/Start/Stop
  - 11.3.1 Program Search
  - 11.3.2 Sequence Number Search
  - 11.3.3 Collation and Stop
  - 11.3.4 Program Restart
  - 11.3.5 Automatic Operation Start
  - 11.3.6 NC Reset
  - 11.3.7 Feed Hold
  - 11.3.8 Search & Start
  - 11.3.10 Auto-restart
- 11.4 Interrupt Operation
  - 11.4.1 Manual Interruption
  - 11.4.2 Automatic Operation Handle Interruption
  - 11.4.3 Manual Absolute Switch
  - 11.4.4 Thread Cutting Cycle Retract
  - 11.4.5 Tapping Retract
  - 11.4.6 Manual Numerical Value Command
  - 11.4.7 Arbitrary Reverse Run
  - 11.4.8 MDI Interruption
  - 11.4.9 Simultaneous Operation of Manual and Automatic Modes
  - 11.4.10 Simultaneous Operation of JOG and Handle Modes
  - 11.4.11 Reference Position Retract
  - 11.4.12 Tool Retract and Return
  - 11.4.13 Skip Retract
  - 11.4.14 PLC Interruption
  - 11.4.16 Machining Interruption
12 Program Support Functions
- 12.1 Machining Method Support Functions
  - 12.1.1 Program
    - 12.1.1.1 Subprogram Control [Layers]
    - 12.1.1.2 Figure Rotation
    - 12.1.1.3 Scaling
    - 12.1.1.4 Axis Name Switch
  - 12.1.2 Macro Program
    - 12.1.2.1 User Macro [Layers]
    - 12.1.2.2 Machine Tool Builder Macro
    - 12.1.2.3 Macro Interruption
    - 12.1.2.4 Variable Command
  - 12.1.3 Fixed Cycle
    - 12.1.3.1 Fixed Cycle for Drilling
    - 12.1.3.2 Fixed Cycle for Drilling (Type II)
    - 12.1.3.3 Special Fixed Cycle
    - 12.1.3.4 Fixed Cycle for Turning Machining
    - 12.1.3.5 Compound Type Fixed Cycle for Turning Machining
    - 12.1.3.6 Compound Type Fixed Cycle for Turning Machining (Type II)
    - 12.1.3.7 Small-diameter Deep-hole Drilling Cycle
  - 12.1.4 Mirror Image
    - 12.1.4.1 Mirror Image by Parameter Setting
    - 12.1.4.2 Mirror Image by External Input
    - 12.1.4.3 Mirror Image by G Code
    - 12.1.4.4 Mirror Image for Facing Tool Posts
    - 12.1.4.5 T Code Mirror Image for Facing Tool Posts
  - 12.1.5 Coordinate System Operation
    - 12.1.5.1 Coordinate Rotation by Program
    - 12.1.5.2 Coordinate Rotation by Parameter
    - 12.1.5.3 3-dimensional Coordinate Conversion
  - 12.1.6 Dimension Input
    - 12.1.6.1 Corner Chamfering/Corner R
    - 12.1.6.2 Linear Angle Command
    - 12.1.6.3 Geometric Command
    - 12.1.6.4 Polar Coordinate Command
  - 12.1.7 Axis Control
    - 12.1.7.1 Chopping
      - 12.1.7.1.1 Chopping
    - 12.1.7.2 Normal Line Control
    - 12.1.7.3 Circular Cutting
    - 12.1.7.4 Vibration Cutting Control
  - 12.1.8 Multi-part System Control
    - 12.1.8.1 Timing Synchronization between Part Systems
    - 12.1.8.2 Start Point Designation Timing Synchronization
    - 12.1.8.3 Mixed Control
      - 12.1.8.3.1 Mixed Control (Cross Axis Control)
      - 12.1.8.3.2 Arbitrary Axis Exchange Control
    - 12.1.8.4 Control Axis Superimposition
      - 12.1.8.4.1 Control Axis Superimposition
      - 12.1.8.4.2 Arbitrary Axis Superimposition Control
    - 12.1.8.5 Control Axis Synchronization between Part Systems
    - 12.1.8.6 Balance Cut
    - 12.1.8.7 Common Memory for Part Systems
    - 12.1.8.8 Multi-part System Simultaneous Thread Cutting
      - 12.1.8.8.1 Two-part System Simultaneous Thread Cutting
      - 12.1.8.8.2 Multi-part System Simultaneous Thread Cutting
    - 12.1.8.9 Multi-part System Program Management
    - 12.1.8.10 Synchronization between Part Systems
      - 12.1.8.10.1 Single Block between Part Systems
      - 12.1.8.10.2 Dwell/Miscellaneous Function Time Override
      - 12.1.8.10.3 Synchronization between Part Systems OFF
    - 12.1.8.11 Sub Part System Control I
    - 12.1.8.12 Sub Part System Control II
  - 12.1.9 Data Input/Output by Program
    - 12.1.9.1 Parameter Input by Program
    - 12.1.9.2 Compensation Data Input by Program
    - 12.1.9.3 Tool/Material Shape Input by Program
    - 12.1.9.5 API Section and Sub-section Nos. Input/Output by Program
    - 12.1.9.6 R-Navi Data Input by Program
  - 12.1.10 Machining Modal
    - 12.1.10.1 Tapping Mode
    - 12.1.10.2 Cutting Mode
  - 12.1.11 High-speed Parts Machining
    - 12.1.11.1 Rapid Traverse Block Overlap
- 12.2 Machining Accuracy Support Functions
  - 12.2.1 Automatic Corner Override
  - 12.2.2 Deceleration Check
    - 12.2.2.1 Exact Stop Check Mode
    - 12.2.2.2 Exact Stop Check
    - 12.2.2.3 Error Detection
    - 12.2.2.4 Programmable In-position Check
    - 12.2.2.5 Automatic Error Detection
- 12.3 High-speed and High-accuracy Functions [kBPM: k Block per Minute]
  - 12.3.1 High-speed Machining Mode
    - 12.3.1.1 High-speed Machining Mode I (G05P1) Maximum [kBPM]
    - 12.3.1.2 High-speed Machining Mode II (G05P2) Maximum [kBPM]
  - 12.3.2 High-accuracy Control
    - 12.3.2.1 High-accuracy Control (G61.1/G08)
    - 12.3.2.2 Multi-part System Simultaneous High-accuracy Control
    - 12.3.2.3 SSS Control
    - 12.3.2.4 Tolerance Control
    - 12.3.2.5 Variable-acceleration Pre-interpolation Acceleration/Deceleration
    - 12.3.2.6 High-accuracy Acceleration/Deceleration Time Constant Extension
    - 12.3.2.7 Axis-specific Acceleration Tolerance Control
  - 12.3.3 High-speed High-accuracy Control
    - 12.3.3.1 High-speed High-accuracy Control I (G05.1Q1) Maximum [kBPM]
    - 12.3.3.2 High-speed High-accuracy Control II (G05P10000) Maximum [kBPM]
    - 12.3.3.3 High-speed High-accuracy Control III (G05P20000) Maximum [kBPM]
    - 12.3.3.4 Smooth Fairing
  - 12.3.4 Machining Condition Selection I
  - 12.3.5 Direct Command Mode
- 12.4 Programming Support Functions
  - 12.4.1 Playback
  - 12.4.3 Interactive Cycle Insertion
  - 12.4.4 Simple Programming (NAVI MILL/LATHE)
  - 12.4.5 G code Guidance
  - 12.4.7 DXF Data Input
13 Machine Accuracy Compensation
- 13.1 Static Accuracy Compensation
  - 13.1.1 Backlash Compensation
  - 13.1.2 Memory-type Pitch Error Compensation [sets]
  - 13.1.3 Memory-type Relative Position Error Compensation
  - 13.1.4 External Machine Coordinate System Compensation
  - 13.1.5 Circular Radius Error Compensation
  - 13.1.6 Ball Screw Thermal Expansion Compensation
  - 13.1.7 Rotation Center Error Compensation
  - 13.1.8 Position-dependent Gradually Increasing-type Backlash Compensation
  - 13.1.9 Bidirectional Pitch Error Compensation
  - 13.1.10 Cyclic Error Compensation
  - 13.1.11 Spatial Error Compensation
  - 13.1.12 Backlash Compensation II
- 13.2 Dynamic Accuracy Compensation
  - 13.2.1 Smooth High-gain (SHG) Control
  - 13.2.2 Dual Feedback
  - 13.2.3 Lost Motion Compensation
  - 13.2.4 OMR II (Backlash with Filter)
  - 13.2.6 OMR-FF
  - 13.2.7 Distance-coded Reference Position Detection
  - 13.2.10 Cogging Torque Compensation
14 Automation Support Functions
- 14.1 Measurement
  - 14.1.1 Skip
    - 14.1.1.1 Skip
    - 14.1.1.2 Multiple-step Skip
    - 14.1.1.4 PLC Skip
    - 14.1.1.5 Speed Change Skip
    - 14.1.1.6 Torque Limitation Skip
  - 14.1.2 Automatic Tool Length Measurement
  - 14.1.3 Manual Tool Length Measurement 1
  - 14.1.4 Manual Tool Length Measurement 2
  - 14.1.5 Workpiece Coordinate Offset Measurement
  - 14.1.6 Workpiece Position Measurement
  - 14.1.7 Rotation Measurement
  - 14.1.8 Rotation Center Error Measurement
  - 14.1.9 Workpiece Installation Error Measurement
- 14.2 Tool Life Management
  - 14.2.1 Tool Life Management
    - 14.2.1.1 Tool Life Management I
    - 14.2.1.2 Tool Life Management II
    - 14.2.1.3 Tool Life Management III
  - 14.2.2 Number of Tool Life Management Sets
  - 14.2.3 Tool Life Management Set Allocation to Part Systems
- 14.3 Others
  - 14.3.1 Programmable Current Limitation
  - 14.3.2 Auto Power OFF
  - 14.3.4 Load Monitoring I
  - 14.3.5 Power ON/OFF Sequence
  - 14.3.6 PLC Axis Current Limit
  - 14.3.7 Direct Robot Control
15 Safety and Maintenance
- 15.1 Safety Switches
  - 15.1.1 Emergency Stop
  - 15.1.2 Data Protection Key
- 15.2 Display for Ensuring Safety
  - 15.2.1 NC Warning
  - 15.2.2 NC Alarm
  - 15.2.3 Operation Stop Cause
  - 15.2.4 Emergency Stop Cause
  - 15.2.5 Thermal Detection
  - 15.2.6 Battery Alarm/Warning
- 15.3 Protection
  - 15.3.1 Stroke End (Over Travel)
  - 15.3.2 Stored Stroke Limit
    - 15.3.2.1 Stored Stroke Limit I/II
    - 15.3.2.2 Stored Stroke Limit IB
    - 15.3.2.3 Stored Stroke Limit IIB
    - 15.3.2.4 Stored Stroke Limit IC
  - 15.3.3 Stroke Check before Travel
  - 15.3.4 Chuck/Tailstock Barrier Check
  - 15.3.5 Interlock
  - 15.3.6 External Deceleration
  - 15.3.7 Interference Check III
  - 15.3.8 3D Machine Interference Check
  - 15.3.9 Door Interlock
    - 15.3.9.1 Door Interlock I
    - 15.3.9.2 Door Interlock II
  - 15.3.10 Parameter Lock
  - 15.3.11 Program Protection (Edit Lock B, C)
  - 15.3.12 Program Display Lock
  - 15.3.13 Data Protection by User's Level
  - 15.3.15 Vertical Axis Pull-up
  - 15.3.16 Machine Group-based Alarm Stop
  - 15.3.17 Interference Check Between Part Systems
  - 15.3.18 Spindle Protection
- 15.4 Maintenance and Troubleshooting
  - 15.4.1 Operation History
  - 15.4.2 Data Sampling
  - 15.4.3 NC Data Backup
  - 15.4.4 Servo Tuning Support
    - 15.4.4.1 NC Analyzer2
  - 15.4.5 Automatic Backup
  - 15.4.8 Application Error Detection
  - 15.4.9 Email Notification to Operator
  - 15.4.10 NC Configurator2
  - 15.4.11 Diagnosis Data Output
  - 15.4.12 Backup/Restore
  - 15.4.14 Field Network Diagnostics
- 15.5 Functional Safety
  - 15.5.1 Safety Observation
  - 15.5.2 Smart Safety Observation
    - 15.5.2.1 Safety-related I/O Observation
    - 15.5.2.2 Emergency Stop Observation
    - 15.5.2.3 Drive Safety Function
      - 15.5.2.3.1 SLS (Safely-Limited Speed)
      - 15.5.2.3.2 SLP (Safely-Limited Position)
      - 15.5.2.3.3 SOS (Safe Operating Stop)
      - 15.5.2.3.4 SSM (Safe Speed Monitor)
      - 15.5.2.3.5 SBC/SBT (Safe Brake Control/Safe Brake Test)
      - 15.5.2.3.6 SCA (Safe Cam)
      - 15.5.2.3.7 SS1/SS2 (Safe Stop)
      - 15.5.2.3.8 STO (Safe Torque Off)
      - 15.5.2.3.9 SCN (Safety Communication Network)
16 Drive System
- 16.1 Servo/Spindle
17 Machine Support Functions
- 17.1 PLC
  - 17.1.1 Built-in PLC Processing Mode
  - 17.1.2 PLC Functions
    - 17.1.2.1 Built-in PLC Basic Function
      - 17.1.2.1.1 Index Modification
      - 17.1.2.1.2 Multi-program [Number of Programs]
      - 17.1.2.1.3 Multi-project [Number of Projects Stored]
      - 17.1.2.1.4 Function Block (FB)
      - 17.1.2.1.5 Label Programming
    - 17.1.2.2 PLC Exclusive Instruction
    - 17.1.2.3 Enhanced PLC Security Mode
  - 17.1.3 PLC Support Functions
    - 17.1.3.1 Alarm Message Display
    - 17.1.3.2 Operator Message Display
    - 17.1.3.3 Memory Switch (PLC Switch)
      - 17.1.3.3.1 Memory Switch (PLC Switch) 32 Points
      - 17.1.3.3.2 Memory Switch (PLC Switch) 64 Points
      - 17.1.3.3.3 Memory Switch (PLC Switch) 96 points
    - 17.1.3.4 Load Meter Display
    - 17.1.3.5 User PLC Version Display
    - 17.1.3.6 Ladder Program Writing during RUN
    - 17.1.3.7 PLC Program Protection
  - 17.1.4 Built-in PLC Capacity
    - 17.1.4.1 Standard PLC Capacity [Number of Steps]
    - 17.1.4.2 Large PLC Capacity: 256 Ksteps
    - 17.1.4.3 Large PLC Capacity: 512 Ksteps
  - 17.1.5 Machine Contact Input/Output I/F
  - 17.1.6 Ladder Monitor
  - 17.1.7 PLC Development
    - 17.1.7.1 On-board Development
    - 17.1.7.2 MELSEC Development Tool (GX Developer)
    - 17.1.7.3 MELSEC Development Tool (GX Works2)
    - 17.1.7.4 MELSEC Development Tool (GX Works3)
  - 17.1.8 PLC Parameter
    - 17.1.8.1 PLC Constant (150 Points)
    - 17.1.8.2 PLC Constant Extension (Up to 750 Points)
  - 17.1.9 GOT Connection
    - 17.1.9.1 Ethernet Connection
    - 17.1.9.2 CC-Link Connection
    - 17.1.9.3 CC-Link IE Field Connection
  - 17.1.10 Pallet Program Registration
- 17.2 Machine Construction
  - 17.2.1 Servo OFF
  - 17.2.2 Axis Detachment
  - 17.2.3 Synchronous Control
  - 17.2.4 Inclined Axis Control
  - 17.2.5 Position Switch
  - 17.2.7 Index Table Indexing
  - 17.2.8 Tool Length Compensation along the Tool Axis
  - 17.2.9 Tool Handle Feed & Interruption
  - 17.2.10 Tool Center Coordinate Display
  - 17.2.11 Tool Center Point Control
    - 17.2.11.1 Tool Center Point Control (G43.4/G43.5)
  - 17.2.12 Inclined Surface Machining Command
  - 17.2.13 Simple Inclined Surface Machining Command
  - 17.2.14 3-dimensional Tool Radius Compensation (Tool's Vertical-direction Compensation)
  - 17.2.15 Workpiece Installation Error Compensation
  - 17.2.16 3-dimensional Manual Feed
  - 17.2.17 R-Navi
  - 17.2.18 Simple Synchronous Control
  - 17.2.20 Real-time Tuning
    - 17.2.20.1 Real-time Tuning 1 (Speed Gain)
    - 17.2.20.2 Real-time Tuning 2 (Rapid Traverse Time Constant)
  - 17.2.21 Constant Torque Control
  - 17.2.22 External Encoder Position Output I/F
  - 17.2.23 Multiple-axis Synchronization Control
- 17.3 PLC Operation
  - 17.3.1 Arbitrary Feed in Manual Mode
  - 17.3.2 Circular Feed in Manual Mode
  - 17.3.3 PLC Axis Control
  - 17.3.5 PLC Axis Indexing
  - 17.3.6 NC Axis/PLC Axis Switchover
- 17.4 PLC Interface
  - 17.4.1 CNC Control Signal
  - 17.4.2 CNC Status Signal
  - 17.4.3 PLC Window
  - 17.4.4 External Search
  - 17.4.5 Direct Screen Selection
  - 17.4.6 Buzzer Sound Control
- 17.5 Machine Contact I/O
  - 17.5.1 Operation Panel I/O
    - 17.5.1.1 DI:64/DO:64
    - 17.5.1.2 DI:64/DO:64 + SDI:8
    - 17.5.1.3 DI:96/DO:64
    - 17.5.1.5 DI:64/DO:48/AO:1
  - 17.5.2 Remote I/O
    - 17.5.2.1 DI:32/DO:32
    - 17.5.2.2 DI:64/DO:48
    - 17.5.2.3 DI:64/DO:48 + AO:1
    - 17.5.2.5 DI:16/DO:8
    - 17.5.2.6 DI:32/DO:32 + SDI:8/SDO:4
    - 17.5.2.7 SDI:8/SDO:4
- 17.6 External PLC Link
  - 17.6.1 CC-Link (Master/Local)
  - 17.6.2 PROFIBUS-DP (Master)
  - 17.6.3 CC-Link IE Field (Master/Local)
  - 17.6.4 PROFINET
  - 17.6.5 EtherNet/IP
  - 17.6.8 FL-net
  - 17.6.9 DeviceNet (Master)
  - 17.6.10 CC-Link IE Field Basic
- 17.7 Installing S/W for Machine Tools
  - 17.7.1 Customization (NC Designer2)
    - 17.7.1.1 Customization Data Storage Capacity [MB]
    - 17.7.1.2 Customization Working Memory Size [MB]
  - 17.7.2 User-defined Key
  - 17.7.3 EZSocket I/F
  - 17.7.4 APLC Release
  - 17.7.5 Custom API Library
  - 17.7.6 MES Interface Library
  - 17.7.7 SLMP Server
  - 17.7.8 Mitsubishi CNC Communication Software FCSB1224W000
  - 17.7.10 GOT2000 Screen Design Tool GT Works3
- 17.8 Others
  - 17.8.1 System Lock
  - 17.8.2 CNC Remote Operation Tool
    - 17.8.2.1 NC Monitor2
    - 17.8.2.2 NC Explorer
  - 17.8.3 Automatic Operation Lock
  - 17.8.4 Power Consumption Computation
  - 17.8.5 EcoMonitorLight Connection
  - 17.8.6 GOT Window
  - 17.8.7 Log Viewer
Revision History
Global Service Network
Back cover

Mitsubishi Electric M800, M80, E80, C80 Specifications Manual

Mitsubishi Electric M800, M80, E80, C80 manual cover

Pages 630

Year 2021

Language(s)

of 630

Programming Manual

1266 pages

Specifications Manual

630 pages

Programming Manual

1186 pages

Page 2

Introduction

This manual describes the specifications of Mitsubishi Electric CNC.

Supported models are as follows:

Abbreviations in this manual are as follows:

To safely use this CNC unit, thoroughly study the "Precautions for Safety" on the next page before use.

Be sure to keep this manual always at hand.

At the beginning of each item, a table indicating it's specification according to the model.

M : Machining center system

L : Lathe system

: Standard

: Optional

: Selection

In this manual, the following abbreviations might be used.

MTB: Machine tool builder

The items that are not described in this manual must be interpreted as "not possible".

This manual is written on the assumption that all the applicable functions are included. Some of them,

however, may not be available for your NC system.

Refer to the specifications issued by the machine tool builder before use.

Some screens and functions may differ depending on each NC system (or version), and some functions

may not be possible. Please confirm the specifications before starting to use.

To protect the availability, integrity and confidentiality of the NC system against cyber-attacks including

unauthorized access, denial-of-service (DoS) (*1) attack, and computer virus from external sources via a

network, take security measures such as firewall, VPN, and anti-virus software.

(*1) Denial-of-service (DoS): refers to a type of cyber-attack that disrupts services by overloading the

system 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.

General precautions

(1) When the contents of this manual is updated, the version (A, B, ...) on the cover will be incremented.

Also refer to the manuals on "Manual List" as necessary.

Supported models Abbreviations in this manual

M800W Series M850W, M830W

M800S Series M850S, M830S

M80W Series M80W

M80 Series M80 TypeA, M80 TypeB

E80 Series E80 TypeA, E80 TypeB

C80 Series C80

Abbreviations Supported models

M800, M800 Series M800W Series/M800S Series

M80, M80 Series M80W Series/M80 Series

M800/M80, M800/M80 Series M800W Series/M800S Series/M80W Series/M80 Series

M8, M8 Series M800W Series/M800S Series/M80W Series/M80 Series/E80 Series

CAUTION

Page 3

Manual List

Manuals related to M800/M80/E80/C80 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.

Manual IB No. Purpose and Contents

M800/M80/E80 Series Instruction Manual

IB-1501274 Operation guide for NC

Explanation for screen operation, etc.

C80 Series Instruction Manual

IB-1501453 Operation guide for NC

Explanation for screen operation, etc.

M800/M80/E80/C80 Series Programming Manual (Lathe System) (1/2)

IB-1501275 G code programming for lathe system

Basic functions, etc.

M800/M80/E80/C80 Series Programming Manual (Lathe System) (2/2)

IB-1501276 G code programming for lathe system

Functions for multi-part system, high-accuracy function, etc.

M800/M80/E80/C80 Series Programming Manual (Machining Center System) (1/2)

IB-1501277 G code programming for machining center system

Basic functions, etc.

M800/M80/E80/C80 Series Programming Manual (Machining Center System) (2/2)

IB-1501278 G code programming for machining center system

Functions for multi-part system, high-accuracy function, etc.

M800/M80/E80 Series Alarm/Parameter Manual

IB-1501279 Alarms

Parameters

C80 Series Alarm/Parameter Manual

IB-1501560 Alarms

Parameters

Page 4

Manuals for MTBs (NC)

Manuals for MTBs (drive section)

Manual IB No. Purpose and Contents

M800/M80/E80/C80 Series Specifications Manual (Function)

IB-1501505 Model selection

Outline of various functions

M800/M80/E80/C80 Series Specifications Manual (Hardware)

IB-1501506 Model selection

Specifications of hardware unit

M800W/M80W Series Connection and Setup Manual

IB-1501268 Detailed specifications of hardware unit

Installation, connection, wiring, setup (startup/adjustment)

M800S/M80/E80 Series Connection and Setup Manual

IB-1501269 Detailed specifications of hardware unit

Installation, connection, wiring, setup (startup/adjustment)

C80 Series Connection and Setup Manual

IB-1501452 Detailed specifications of hardware unit

Installation, connection, wiring, setup (startup/adjustment)

M800/M80/E80 Series PLC Development Manual

IB-1501270

Electrical design

I/O relation (assignment, setting, connection), field network

Development environment (PLC on-board, peripheral development environment), etc.

M800/M80/E80 Series PLC Programming Manual

IB-1501271

Electrical design

Sequence programming

PLC support functions, etc.

M800/M80/E80/C80 Series PLC Interface Manual

IB-1501272 Electrical design

Interface signals between NC and PLC

M800/M80/E80 Series Maintenance Manual

IB-1501273 Cleaning and replacement for each unit

Other items related to maintenance

C80 Series Maintenance Manual

IB-1501454 Cleaning and replacement for each unit

Other items related to maintenance

Manual IB No. Contents

MDS-E/EH Series Specifications Manual

IB-1501226 Specifications for power supply regeneration type

MDS-E/EH Series Instruction Manual

IB-1501229 Instruction for power supply regeneration type

MDS-EJ/EJH Series Specifications Manual

IB-1501232 Specifications for regenerative resistor type

MDS-EJ/EJH Series Instruction Manual

IB-1501235 Instruction for regenerative resistor type

MDS-EM/EMH Series Specifications Manual

IB-1501238 Specifications for multi-hybrid, power supply regeneration

type

MDS-EM/EMH Series Instruction Manual

IB-1501241 Instruction for multi-hybrid, power supply regeneration type

DATA BOOK IB-1501252 Specifications of servo drive unit, spindle drive unit, motor, etc.

Page 5

Manuals for MTBs (Others)

For M800/M80/E80 Series

Manual No. Purpose and Contents

GOT2000 Series Users Manual (Hardware)

SH-081194 Outline of hardware such as part names, external dimensions,

installation, wiring, maintenance, etc. of GOTs

GOT2000 Series Users Manual (Utility)

SH-081195 Outline of utilities such as screen display setting, operation

method, etc. of GOTs

GOT2000 Series Users Manual (Monitor)

SH-081196 Outline of each monitor function of GOTs

GOT2000 Series Connection Manual (Mitsubishi Electric Products)

SH-081197 Outline of connection types and connection method between

GOT and Mitsubishi Electric connection devices

GT Designer3 (GOT2000) Screen Design Manual

SH-081220 Outline of screen design method using screen creation

software GT Designer3

Manual No. Purpose and Contents

GOT2000/GOT1000 Series CC-Link Communication Unit User's Manual

IB-0800351 Explanation for handling CC-Link communication unit (for

GOT2000 series/GOT1000 series)

GX Developer Version 8 Operating Manual (Startup)

SH-080372E Explanation for system configuration, installation, etc. of PLC

development tool GX Developer

GX Developer Version 8 Operating Manual

SH-080373E Explanation for operations using PLC development tool GX

Developer

GX Converter Version 1 Operating Manual

IB-0800004E Explanation for operations using data conversion tool GX

Converter

GX Works2 Installation Instructions BCN-P5999-0944 Explanation for the operating environment and installation

method of GX Works2

GX Works2 Version 1 Operating Manual (Common)

SH-080779ENG

Explanation for the system configuration of GX Works2 and the functions common to Simple project and Structured project such as parameter setting, operation method for the online function

GX Works2 Version 1 Operating Manual (Simple Project)

SH-080780ENG Explanation for methods for such as creating and monitoring

programs in Simple project of GX Works2

GX Works2 Version 1 Operating Manual (Simple Project, Function Block)

SH-080984ENG Explanation for methods for such as creating function blocks,

pasting function blocks to sequence programs, and operating FB library in Simple project of GX Works2

GX Works2 Version 1 Operating Manual (Structured Project)

SH-080781ENG Explanation for methods for such as creating and monitoring

programs in Structured project of GX Works2

GX Works3 Installation Instructions BCN-P5999-0391 Explanation for the operating environment and installation

method of GX Works3

MELSEC-Q CC-Link System Master/ Local Module Users Manual

SH-080394E Explanation for system configuration, installation, wiring, etc.

of master/local modules for CC-Link system

GOT2000 Series Connection Manual (Non-Mitsubishi Electric Products 1)

SH-081198ENG Explanation for connection types and connection method

between GOT and other company's devicesGOT2000 Series Connection Manual (Non-Mitsubishi Electric Products 2)

SH-081199ENG

GOT2000 Series Connection Manual (Microcomputers, MODBUS/ Fieldbus Products, Peripherals)

SH-081200ENG Explanation for connection types and connection method

between GOT and microcomputers, MODBUS/fieldbus products, peripherals

GT SoftGOT2000 Version1 Operating Manual

SH-081201ENG Explanation for system configuration, screen configuration

and operation method of monitoring software GT SoftGOT2000

Page 6

For C80 Series

Reference Manual for MTBs

Manual No. Purpose and Contents

MELSEC iQ-R Module Configuration Manual

SH-081262 Outline of system configuration, specifications, installation,

wiring, maintenance, etc.

MELSEC iQ-R CPU Module Users Manual (Startup)

SH-081263 Outline of specifications, procedures before operation,

troubleshooting, etc. for CPU module

MELSEC iQ-R CPU Module Users Manual (Application)

SH-081264 Outline of memory, functions, devices, parameters, etc. for

CPU module

MELSEC iQ-R CC-Link IE Field Network User's Manual (Application)

SH-081259 Explanation for functions, parameter settings, programming,

troubleshooting, etc. of the CC-Link IE Field Network function

QCPU Users Manual (Hardware Design, Maintenance and Inspection)

SH-080483 Outline of specifications, necessary knowledge to configure

the system and maintenance-related descriptions for Q series CPU module, etc.

GX Works3 Operating Manual SH-081215 Outline of functions, programming, etc.

Manual No. Purpose and Contents

M800/M80 Series Smart safety observation Specification manual

BNP-C3072-022 Explanation for smart safety observation function

C80 Series Smart safety observation Specification manual

BNP-C3077-022

M800/M80 Series CC-Link (Master/ Local) Specification manual

BNP-C3072-089 Explanation for CC-Link

M800/M80 Series PROFIBUS-DP Specification manual

BNP-C3072-118 Explanation for PROFIBUS-DP communication function

M800/M80 Series Interactive cycle insertion (Customization) Specification manual

BNP-C3072-121- 0003

Explanation for interactive cycle insertion

M800/M80 Series EtherNet/IP Specifications manual

BNP-C3072-263 Explanation for EtherNet/IP

M800/M80 Series CC-Link IE Field (Master/local) Specifications manual

BNP-C3072-283 Explanation for CC-Link IE Field

M800/M80 Series GOT Connection Specifications manual

BNP-C3072-314 Explanation for GOT connection

M800/M80 Series CC-Link IE Field Basic Specifications manual

BNP-C3072-337 Explanation for CC-Link IE Field Basic

M800/M80 Series FL-net Specifications manual

BNP-C3072-368 Explanation for FL-net

M800/M80 Series Synchronous Control Specifications manual

BNP-C3072-074 Explanation for synchronous control

M800/M80 Series Multiple-Axis Synchronization Control Specifications manual

BNP-C3072-339 Explanation for multiple-axis synchronization control

Page 7

Precautions for Safety

Always read this manual, related manuals and attached documents before installation, operation, programming,

maintenance or inspection to ensure correct use. Understand all the conditions described in this manual before using the

unit. We rank the safety precautions into "DANGER", "WARNING" and "CAUTION" for the manuals issued by Mitsubishi,

including this manual.

Note that even items ranked as " CAUTION", may lead to major results depending on the situation. In any case,

important information that must always be observed is described.

The following signs indicate prohibition and compulsory.

The meaning of each pictorial sign is as follows.

DANGER

When there is a great risk that the user could be subject to fatalities or serious injuries if handling is

mistaken.

WARNING

When the user could be subject to fatalities or serious injuries if handling is mistaken.

CAUTION

When the user could be subject to injuries or when physical damage could occur if handling is mistaken.

This sign indicates prohibited behavior (must not do).

For example, indicates "Keep fire away".

This sign indicated a thing that is pompously (must do).

For example, indicates "it must be grounded".

CAUTION

CAUTION rotated

object

CAUTION HOT

Danger Electric shock

risk

Danger explosive

Prohibited

Disassembly is

prohibited

KEEP FIRE AWAY

General instruction

Earth ground

Page 8

Not applicable in this manual.

1. Items related to product and manual

The items that are not described in this manual must be interpreted as "not possible".

This manual is written on the assumption that all the applicable functions are included. Some of them,

however, may not be available for your NC system.

Refer to the specifications issued by the machine tool builder before use.

Some screens and functions may differ depending on the NC system (or its version), and some functions

may not be possible. Please confirm the specifications before use.

To protect the availability, integrity and confidentiality of the NC system against cyber-attacks including

unauthorized access, denial-of-service (DoS) (*1) attack, and computer virus from external sources via a

network, take security measures such as firewall, VPN, and anti-virus software.

(*1) Denial-of-service (DoS): refers to a type of cyber-attack that disrupts services by overloading the

system 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.

2. Items related to start up and maintenance

Follow the power specifications (input voltage range, frequency range, momentary power failure time

range) described in this manual.

Follow the environment conditions (ambient temperature, humidity, vibration, atmosphere) described in

this manual.

Follow the remote type machine contact input/output interface described in this manual. (Connect a diode

in parallel with the inductive load or connect a protective resistor in serial with the capacitive load, etc.)

If the parameter is used to set the temperature rise detection function to invalid, overheating may occur,

thereby disabling control and possibly resulting in the axes running out of control, which in turn may result

in machine damage and/or bodily injury or destruction of the unit. It is for this reason that the detection

function is normally left "valid" for operation.The parameter for the temperature rise detection function will

be validated forcibly when the NC unit is turned ON.

DANGER

WARNING

CAUTION

Page 9

Treatment of waste

The following two laws will apply when disposing of this product. Considerations must be made to each law. The

following laws are in effect in Japan. Thus, when using this product overseas, the local laws will have a priority. If

necessary, indicate or notify these laws to the final user of the product.

(1) Requirements for "Law for Promotion of Effective Utilization of Resources"

(a) Recycle as much of this product as possible when finished with use.

(b) When recycling, often parts are sorted into steel scraps and electric parts, etc., and sold to scrap contractors.

Mitsubishi Electric recommends sorting the product and selling the members to appropriate contractors.

(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.

(b) When disposing a product that cannot be resold, it shall be treated as a waste product.

and appropriate measures, including a manifest control, must be taken.

(d) Batteries correspond to "primary batteries", and must be disposed of according to local disposal laws.

Page 10

Disposal

(Note) This symbol mark is for EU countries only.

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.

If a chemical symbol is printed beneath the symbol shown above, this chemical symbol means that the battery or

accumulator contains a heavy metal at a certain concentration. This will be indicated as follows:

Hg: mercury (0,0005%), Cd: cadmium (0,002%), Pb: lead (0,004%)

In the European Union there are separate collection systems for used batteries and accumulators.

Please, dispose of batteries and accumulators correctly at your local community waste collection/recycling centre.

Please, help us to conserve the environment we live in!

Page 11

Trademarks

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.

Microsoft, Windows, SQL Server and Access are either trademarks or registered trademarks of Microsoft

Corporation in the United States and/or other countries.

SD logo and SDHC logo are either registered trademarks or trademarks of LLC.

UNIX is a registered trademark of The Open Group in the United States and/or other countries.

Intel and Pentium are either trademarks or registered trademarks of Intel Corporation in the United States and/or

other countries.

MODBUS is either a trademark or a registered trademark of Schneider Electric USA, Inc. or the affiliated

companies in Japan and/or other countries.

EtherNet/IP is a trademark of Open DeviceNet Vendor Association,Inc.

PROFIBUS-DP and PROFINET are either trademarks of Profibus International.

Oracle is a registered trademark of Oracle Corporation, the subsidiaries, or the affiliated companies in the United

States and /or other countries.

VNC is a registered trademark of RealVNC Ltd. in the United States and other countries.

Punchtap is licensed by EMUGE.

Other company and product names that appear in this manual are trademarks or registered trademarks of the

respective companies.

Page 12

( /Japanese)

( A)

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.

( /Korean)

(A )

Page 13

WARRANTY

Please confirm the following product warranty details before using Mitsubishi Electric CNC.

1. Warranty Period and Coverage

Should any fault or defect (hereafter called "failure") for which we are liable occur in this product during the warranty period, we shall provide repair services at no cost through the distributor from which the product was purchased or through a Mitsubishi Electric service provider. Note, however that this shall not apply if the customer was informed prior to purchase of the product that the product is not covered under warranty. Also note that we are not responsible for any on-site readjustment and/or trial run that may be required after a defective unit is replaced.

[Warranty Term] The term of warranty for this product shall be twenty-four (24) months from the date of delivery of product to the end user, provided the product purchased from us in Japan is installed in Japan (but in no event longer than thirty (30) months, Including the distribution time after shipment from Mitsubishi Electric or its distributor). Note that, for the case where the product purchased from us in or outside Japan is exported and installed in any country other than where it was purchased; please refer to "2. Service in overseas countries" as will be explained.

[Limitations] (1) The customer is requested to conduct an initial failure diagnosis by him/herself, as a general rule. It can also be carried out

by us or our service provider upon the customers request and the actual cost will be charged. (2) This warranty applies only when the conditions, method, environment, etc., of use are in compliance with the terms and

conditions and instructions that are set forth in the instruction manual, users manual, and the caution label affixed to the product, etc.

(3) Even during the term of warranty, repair costs shall be charged to the customer in the following cases: (a) a failure caused by improper storage or handling, carelessness or negligence, etc., or a failure caused by the

customers hardware or software problem (b) a failure caused by any alteration, etc., to the product made by the customer without Mitsubishi Electrics approval (c) a failure which may be regarded as avoidable, if the customers equipment in which this product is incorporated is

equipped with a safety device required by applicable laws or has any function or structure considered to be indispensable in the light of common sense in the industry

(d) a failure which may be regarded as avoidable if consumable parts designated in the instruction manual, etc. are duly maintained and replaced

(e) any replacement of consumable parts (including a battery, relay and fuse) (f) a failure caused by external factors such as inevitable accidents, including without limitation fire and abnormal

fluctuation of voltage, and acts of God, including without limitation earthquake, lightning, and natural disasters (g) a failure which is unforeseeable under technologies available at the time of shipment of this product from our company (h) any other failures which we are not responsible for or which the customer acknowledges we are not responsible for

2. Service in Overseas Countries

If the customer installs the product purchased from us in his/her machine or equipment, and export it to any country other than where he/she bought it, the customer may sign a paid warranty contract with our local FA center. This falls under the case where the product purchased from us in or outside Japan is exported and installed in any country other than where it was purchased. For details please contact the distributor from which the customer purchased the product.

3. Exclusion of Loss in Opportunity and Secondary Loss from Warranty Liability

Regardless of the gratis warranty term, Mitsubishi Electric shall not be liable for compensation to: (1) Damages caused by any cause found not to be the responsibility of Mitsubishi Electric. (2) Loss in opportunity, lost profits incurred to the user by Failures of Mitsubishi Electric products. (3) Special damages and secondary damages whether foreseeable or not, compensation for accidents, and compensation for

damages to products other than Mitsubishi Electric products. (4) Replacement by the user, maintenance of on-site equipment, start-up test run and other tasks.

4. Changes in Product Specifications

Specifications shown in our catalogs, manuals or technical documents are subject to change without notice.

5. Product Application

(1) For the use of this product, its applications should be those that may not result in a serious damage even if any failure or malfunction occurs in the product, and a backup or fail-safe function should operate on an external system to the product when any failure or malfunction occurs.

(2) Mitsubishi Electric 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.

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CONTENTS

Mitsubishi Electric CNC M800W/M800S/M80W Series Specifications List [L system]

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1 Control Axes 1

1.1 Control Axes 2

1.1.1 Number of Basic Control Axes (NC Axes) 2 2 2 2 2 2

1.1.2 Max. Number of Axes (NC Axes + Spindles + PLC Axes)

16 32

12 2

1.1.2.1 Max. Number of NC Axes (In Total for All the Part Systems)

16 32

10 2

1.1.2.2 Max. Number of Spindles 8 8 8 8 4+G/B (*2)

1.1.2.3 Max. Number of PLC Axes 8 8 8 8 6 2

1.1.4 Max. Number of PLC Indexing Axes 8 8 8 8 4 3

1.1.5 Number of Simultaneous Contouring Control Axes

8 4 8 4 4 3

1.1.6 Max. Number of NC Axes in a Part System

8 12

8 3

1.1.7 Axis Name Extension 3

1.2 Control Part System 4

1.2.1 Standard Number of Part Systems 1 1 1 1 1 4

1.2.2 Max. Number of Part Systems (Main + Sub)

4 8

4 4

1.2.2.1 Max. Number of Main Part Systems 4 8

4 8

2 4

1.2.2.2 Max. Number of Sub Part Systems 4 8

4 8

2 4

1.3 Control Axes and Operation Modes 5

1.3.1 Tape (RS-232C Input) Mode 5

1.3.2 Memory Mode 5

1.3.3 MDI Mode 5

1.3.4 High-Speed Program Server Mode 6

1.3.4.1 Control Unit-side High-speed Program Server Mode

1.3.4.2 Display Unit-side High-speed Program Server Mode

/ / / 6

1.3.4.3 FTP High-speed Program Server Mode 6

1.3.5 Front-side SD Card Mode 7

1.3.6 Front-side USB Memory Mode 7

2 Input Command 9

2.1 Data Increment 10

2.1.1 Least Command Increment 10

Least command increment 1m 10

Least command increment 0.1m 10

Least command increment 0.01m(10nm) 10

Least command increment 0.001m(1nm) 10

2.1.2 Least Control Increment 12

Least control increment0.01m(10nm) 12

Least control increment0.001m(1nm) 12

Class Page

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2.1.3 Indexing Increment 12

2.2 Unit System 13

2.2.1 Inch/Metric Changeover 13

2.2.2 Input Command Increment Tenfold 13

2.3 Program Format 14

2.3.1 Program Format 14

2.3.1.1 Format 1 for Lathe (G Code List 2, 3)

2.3.1.2 Format 2 for Lathe (G Code List 4, 5)

2.3.1.3 Special Format for Lathe (G Code List 6, 7)

2.3.1.4 Format 1 for Machining Center 14

2.3.1.5 Format 2 for Machining Center (M2 Format)

2.3.1.6 MITSUBISHI CNC Special Format 14

2.3.2 Program Format Switch 15

2.4 Command Value 17

2.4.1 Decimal Point Input I, II 17

2.4.2 Absolute/Incremental Command 18

2.4.3 Diameter/Radius Designation 19

2.4.4 Diameter/Radius Designation Switch 20

3 Positioning/Interpolation 21

3.1 Positioning 22

3.1.1 Positioning 22

3.1.2 Unidirectional Positioning 23

3.2 Linear/Circular Interpolation 24

3.2.1 Linear Interpolation 24

3.2.2 Circular Interpolation (Center/Radius Designation)

3.2.3 Helical Interpolation 27

3.2.4 Spiral/Conical Interpolation 30

3.2.5 Cylindrical Interpolation 32

3.2.6 Polar Coordinate Interpolation 33

3.2.7 Milling Interpolation 34

3.2.8 Hypothetical Axis Interpolation 35

3.3 Curve Interpolation 36

3.3.1 Involute Interpolation 36

3.3.2 Exponential Interpolation 38

3.3.3 Spline Interpolation (G05.1Q2/G61.2) 39

3.3.4 NURBS Interpolation 40

3.3.5 3-Dimensional Circular Interpolation 41

3.3.6 Spline Interpolation2 (G61.4) 42

4 Feed 45

4.1 Feedrate 46

4.1.1 Rapid Traverse Rate (m/min) 1000 1000 1000 1000 1000 46

4.1.2 Cutting Feedrate (m/min) 1000 1000 1000 1000 1000 47

4.1.3 Manual Feedrate (m/min) 1000 1000 1000 1000 1000 48

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4.1.4 Rotary Axis Command Speed Tenfold 48

4.2 Feedrate Input Methods 49

4.2.1 Feed per Minute (Asynchronous Feed) 49

4.2.2 Feed per Revolution (Synchronous Feed) 51

4.2.3 Inverse Time Feed 53

4.2.4 F 1-digit Feed 54

4.2.5 Manual Speed Command 55

4.2.7 G00 Feedrate Designation (,F Command) 55

4.2.8 Selection of Axis (Axes) for Feedrate Command

4.3 Override 58

4.3.1 Rapid Traverse Override 58

4.3.2 Cutting Feed Override 58

4.3.3 2nd Cutting Feed Override 58

4.3.4 Override Cancel 59

4.4 Acceleration/Deceleration 60

4.4.1 Automatic Acceleration/Deceleration after Interpolation

4.4.2 Rapid Traverse Constant-gradient Acceleration/Deceleration

4.4.3 Rapid Traverse Constant-gradient Multi-step Acceleration/Deceleration

4.5 Thread Cutting 64

4.5.1 Thread Cutting (Lead/Thread Number Designation)

4.5.2 Variable Lead Thread Cutting 67

4.5.3 Synchronous Tapping 68

4.5.3.1 Synchronous Tapping Cycle 68

4.5.3.2 Pecking Tapping Cycle 70

4.5.3.3 Deep-hole Tapping Cycle 72

4.5.3.4 Synchronous Tapping with Multiple Spindles

4.5.3.5 Synchronous Tapping with Analog I/F Spindle

4.5.4 Chamfering 74

4.5.6 Circular Thread Cutting 75

4.5.8 High-speed Synchronous Tapping (OMR-DD) 76

4.5.10 Thread Recutting 77

4.5.11 Thread Cutting Override 78

4.5.12 Variable Feed Thread Cutting 78

4.5.13 Thread Cutting Time Constant Switch 79

4.6 Manual Feed 80

4.6.1 Manual Rapid Traverse 80

4.6.2 Jog Feed 80

4.6.3 Incremental Feed 81

4.6.4 Handle Feed 81

4.6.5 Manual Feedrate B 82

4.6.6 Manual Feedrate B Surface Speed Control 83

4.6.8 Manual Speed Clamp 84

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4.7 Dwell 85

4.7.1 Dwell (Time-based Designation) 85

4.7.2 Dwell (Revolution-based Designation) 86

5 Program Memory/Editing 87

5.1 Memory Capacity 88

5.1.1 Memory Capacity (Number of Programs Stored)

230kB[600m] (400 programs) 88

500kB[1280m] (1000 programs) 88

1000kB[2560m] (1000 programs) 88

2000kB[5120m] (1000 programs) 88

5.2 Editing 89

5.2.1 Program Editing 89

5.2.2 Background Editing 90

5.2.3 Buffer Correction 91

5.2.5 Multi-part System Simultaneous Program Editing

5.2.6 Special Program Editing Display for Synchronization between Part Systems

5.2.7 Finish Shape View Programming 93

6 Operation and Display 95

6.1 Structure of Operation/Display Panel 96

6.1.1 Color Display (8.4-type LCD TFT) 96

6.1.2 Color Touchscreen Display (10.4-type LCD TFT)

6.1.3 Color Touchscreen Display (15-type LCD TFT)

6.1.4 Separated-type Color Display (8.4-type LCD TFT)

6.1.5 Separated-type Color Touchscreen Display (10.4-type LCD TFT)

6.1.6 Separated-type Color Touchscreen Display (15-type LCD TFT)

6.1.7 Separated-type Color Touchscreen Display (15-type LCD TFT/Windows8)

6.1.8 Separated-type Color Touchscreen Display (19-type LCD TFT/Windows8)

6.1.9 Separated-type Color Touchscreen Display (19-type Horizontal LCD TFT/Windows8)

6.1.11 GOT (GOT2000 Series GT27/GT25 12.1/10.4/8.4/5.7)

6.2 Operation Methods and Functions 98

6.2.1 Operation Input 98

6.2.2 Absolute/Incremental Setting 98

6.2.3 Multiple Display Connection 99

6.2.4 Common Display to Multiple NCs 99

6.2.5 Displayed Part System Switch 99

6.2.6 Menu List 100

6.2.7 Display Switch by Operation Mode 100

6.2.8 External Signal Display Switch 100

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6.2.9 Screen Saver 100

6.2.10 Parameter Guidance 100

6.2.11 Alarm Guidance 101

6.2.12 Machining Program Input Mistake Check Warning

101

6.2.14 Screenshot Capture / / / 101

6.2.15 User Selectable Menu Configuration 101

6.2.16 PC-NC Network Automatic Connection / / / 102

6.2.17 Device Open Parameter 102

6.2.18 SRAM Open Parameter 102

6.2.19 MTB Selectable Menu Configuration 102

6.2.20 Remote Desktop Connection / / / 103

6.2.21 VNC Server / / / 104

6.3 Display Methods and Contents 105

6.3.1 Status Display 105

6.3.2 Clock Display 105

6.3.3 Monitor Screen Display 106

6.3.4 Setup Screen Display 107

6.3.5 Edit Screen Display 107

6.3.6 Diagnosis Screen Display 107

6.3.7 Maintenance Screen Display 108

6.3.8 Home Application / / / 108

6.3.9 Home Screen 109

6.3.10 Additional Languages 110

6.3.10.1 Japanese 110

6.3.10.2 English 110

6.3.10.3 German 110

6.3.10.4 Italian 110

6.3.10.5 French 110

6.3.10.6 Spanish 110

6.3.10.7 Chinese 110

6.3.10.7.1 Chinese (Traditional Chinese Characters)

110

6.3.10.7.2 Chinese (Simplified Chinese Characters)

110

6.3.10.8 Korean 111

6.3.10.9 Portuguese 111

6.3.10.10 Hungarian 111

6.3.10.11 Dutch 111

6.3.10.12 Swedish 111

6.3.10.13 Turkish 111

6.3.10.14 Polish 111

6.3.10.15 Russian 111

6.3.10.16 Czech 111

6.3.10.17 Indonesian 112

6.3.10.18 Vietnamese 112

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7 Input/Output Functions and Devices 113

7.1 Input/Output Data 114

7.1.1 Machining Program Input/Output 114

7.1.2 Tool Offset Data Input/Output 114

7.1.3 Common Variable Input/Output 114

7.1.4 Parameter Input/Output 114

7.1.5 History Data Output 114

7.1.7 System Configuration Data Output 114

7.2 Input/Output I/F 115

7.2.1 RS-232C I/F 115

7.2.2 SD Card I/F 115

7.2.2.1 Control Unit-side SD Card I/F [Up to 32GB]

115

7.2.2.2 Front-side SD Card I/F [Up to 32GB] / / / 115

7.2.3 Ethernet I/F 115

7.2.4 Display Unit-side Data Server I/F 116

7.2.5 Front-side USB Memory I/F [Up to 32GB] 116

7.2.6 USB I/F (GOT Front-side USB I/F) 116

7.2.7 SD I/F (GOT Back-side SD Card I/F) 116

7.3 Computer Link 117

7.3.1 Computer Link B 117

7.4 Others 118

7.4.1 Handy Terminal Connection 118

7.4.3 IP Filter Setting 119

8 Spindle, Tool and Miscellaneous Functions 121

8.1 Spindle Functions (S) 122

8.1.1 Spindle Control Functions 122

8.1.1.1 Spindle Digital I/F 123

8.1.1.2 Spindle Analog I/F 123

8.1.1.3 Coil Switch 123

8.1.1.4 Automatic Coil Switch 123

8.1.1.5 Encoder Input I/F 124

8.1.1.6 Spindle-mode Servo Motor Control 125

8.1.1.7 Spindle-mode Rotary Axis Control 126

8.1.1.8 Turret Gear Change Control 127

8.1.1.9 Spindle Control with Pulse Train Output

128

8.1.2 S Code Output 129

8.1.3 Constant Surface Speed Control 130

8.1.4 Spindle Override 132

8.1.5 Multiple-spindle Control 132

8.1.5.1 Multiple-spindle Control I 133

8.1.5.2 Multiple-spindle Control II 134

8.1.6 Spindle Orientation 135

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8.1.7 Spindle Position Control (Spindle/C Axis Control)

136

8.1.7.1 Spindle Position Control (Spindle/C Axis Control)

136

8.1.7.2 C Axis Control during Spindle Synchronization

137

8.1.8 Spindle Synchronization 138

8.1.8.1 Spindle Synchronization I 138

8.1.8.2 Spindle Synchronization II 139

8.1.8.3 Guide Bushing Spindle Synchronization

139

8.1.9 Tool Spindle Synchronization I (Polygon)

140

8.1.9.1 Tool Spindle Synchronization IA (Spindle-Spindle, Polygon)

140

8.1.9.2 Tool Spindle Synchronization IB (Spindle-Spindle, Polygon)

141

8.1.9.3 Tool Spindle Synchronization IC (Spindle-NC Axis, Polygon)

142

8.1.10 Tool Spindle Synchronization II (Hobbing)

143

8.1.11 Spindle Speed Clamp 144

8.1.13 Spindle Oscillation 144

8.1.14 Spindle Superimposition Control 145

8.1.15 Multiple Spindle Synchronization Set Control

147

8.1.16 Spindle Speed Fluctuation Detection 150

8.1.17 Spindle Motor Temperature Output to PLC

151

8.2 Tool Functions (T) 152

8.2.1 Tool Functions (T Command) 152

8.3 Miscellaneous Functions (M) 153

8.3.1 Miscellaneous Functions 153

8.3.2 Multiple M Codes in 1 Block 153

8.3.3 M Code Independent Output 154

8.3.4 Miscellaneous Function Finish 155

8.3.5 M Code Output during Axis Traveling 156

8.3.6 Miscellaneous Function Command High-speed Output

157

8.4 2nd Miscellaneous Functions (B) 159

8.4.1 2nd Miscellaneous Functions 159

8.4.2 2nd Miscellaneous Function Name Extension

159

9 Tool Compensation 161

9.1 Tool Length/Tool Position 162

9.1.1 Tool Length Offset 162

9.1.2 Tool Position Offset 165

9.1.3 Tool Compensation for Additional Axes 165

9.1.4 Tool Position Compensation (G43.7) 166

9.2 Tool Radius 167

9.2.1 Tool Radius Compensation 167

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9.2.2 3-dimensional Tool Radius Compensation (*3) (*3) 169

9.2.3 Tool Nose Radius Compensation (G40/41/42)

170

9.2.4 Automatic Decision of Nose Radius Compensation Direction (G46/40)

171

9.2.5 Tool Radius Compensation Diameter Designation

171

9.3 Tool Offset Amount 172

9.3.1 Number of Tool Offset Sets 172

99 sets 172

128 sets 172

200 sets 172

256 sets 172

400 sets 172

999 sets 172

9.3.2 Offset Memory 173

9.3.2.1 Tool Shape/Wear Offset Amount 173

9.3.2.2 Compensation Type Selection by Parameter

176

9.3.3 Number of Tool Offset Sets Allocation to Part Systems

177

10 Coordinate System 179

10.1 Coordinate System Type and Setting 180

10.1.1 Machine Coordinate System 181

10.1.2 Coordinate System Setting 182

10.1.3 Automatic Coordinate System Setting 183

10.1.4 Workpiece Coordinate System Selection 184

10.1.4.1 Workpiece Coordinate System Selection (6 Sets)

184

10.1.4.2 Extended Workpiece Coordinate System Selection (48 Sets) G54.1P1 to P48

186

10.1.4.3 Extended Workpiece Coordinate System Selection (96 Sets) G54.1P1 to P96

186

10.1.4.4 Extended Workpiece Coordinate System Selection (300 Sets) G54.1P1 to P300

186

10.1.5 External Workpiece Coordinate Offset 187

10.1.6 Workpiece Coordinate System Preset (G92.1)

188

10.1.7 Local Coordinate System 189

10.1.8 Coordinate System for Rotary Axis 190

10.1.9 Plane Selection 191

10.1.10 Origin Set/Origin Cancel 192

10.1.11 Counter Set 193

10.1.12 Workpiece Position Offset for Rotary Axis

194

10.1.13 Workpiece Coordinate System Shift 196

10.2 Return 197

10.2.1 Manual Reference Position Return 197

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10.2.2 Automatic 1st Reference Position Return

198

10.2.3 2nd, 3rd, 4th Reference Position Return

200

10.2.4 Reference Position Check 201

10.2.5 Absolute Position Detection 202

10.2.6 Tool Exchange Position Return 203

11 Operation Support Functions 205

11.1 Program Control 206

11.1.1 Optional Block Skip 206

11.1.2 Optional Block Skip Addition 206

11.1.3 Single Block 207

11.2 Program Test 208

11.2.1 Dry Run 208

11.2.2 Machine Lock 208

11.2.3 Miscellaneous Function Lock 208

11.2.4 Graphic Check 209

11.2.4.1 Graphic Check 209

11.2.4.2 3D Solid Program Check 209

11.2.4.3 Graphic Check Rotary Axis Drawing 210

11.2.5 Graphic Trace 211

11.2.5.1 Graphic Trace 211

11.2.5.2 Graphic Trace Rotary Axis Drawing 212

11.2.6 Machining Time Computation 212

11.2.7 Manual Arbitrary Reverse Run (Program Check Operation)

213

11.2.8 High-speed Simple Program Check