Mitsubishi Electronics M800V, M80V User Manual

FACTORY AUTOMATION

NUMERICAL CONTROL (CNC)
M800V/M80V Series

Materiality ContributetotheSDGs

INITIATIVES THAT CONTRIBUTE TO ADDRESSING SOCIAL ISSUES

INITIATIVES THAT CONTRIBUTE
TO ADDRESSING SOCIAL ISSUES

The Mitsubishi Electric Group will pursue value creation by addressing social challenges and will contribute to
achieving the 17 goals of the SDGs*

1

through all corporate activities.

Environmental Initiatives

The Mitsubishi Electric Group has
set forth Environmental Sustainability
Vision 2050 to clarify the company's
stance on addressing long-term
environmental issues and creating
new value for a sustainable future
toward 2050.
The new vision identifies
environmental protection as a top
corporate priority and stipulates
increased initiatives toward this
end. It defines Mitsubishi Electric's
future course toward 2050 for
implementing key initiatives in
the form of the Environmental
Declaration and Three Environmental
Action Guidelines.

Apply diverse technologies in wide-

ranging business areas to solve

environmental issues

Climate Change Measures

Resource Circulation

Live in Harmony with Nature

Environmental Sustainability Vision 2050

Environmental Declaration

Protect the air, land, and water with our
hearts and technologies to sustain a better
future for all.

To solve various factors that lead to environment
issues, the Mitsubishi Electric Group shall unite
the wishes of each and every person, and strive to
create new value for a sustainable future.

Three Environmental Action Guidelines

Challenge to develop business

innovations for future generations

Key Activities

Long-term Activities

Innovation

Nurturing Human Resources

new values and lifestyles

Understanding Needs

Co-create and Disseminate New Values

Live in Harmony with the Region

Publicize and share

The Mitsubishi Electric Group’s Materiality

Provide solutions to social

challenges through our business

Realize a sustainable
global environment

Priority

SDG initiatives

Realize a safe, secure, and
comfortable society

Strengthen our business foundation to

enable sustainable growth

Respect for all people

Contribute through

Strengthen corporate governance

all corporate activities

and compliance on a sustainable basis

Create a sustainability-oriented

1 2

corporate culture

*1. Sustainable Development Goals adopted by the United Nations as goals to achieve by 2030.

FUTURE OF MITSUBISHI ELECTRIC CNC

3 4

CONCEPT OF THE M800V/M80V SERIES

High-speed

high-accuracy functions

that further improve

productivity

on the shop floor

High-speed

high-accuracy functions

that further improve

productivity

on the shop floor

Connectivity and

usability that further

streamline the shop floor

Connectivity and

usability that further

streamline the shop floor

Functions that contribute

to sustainability

Functions that contribute

to sustainability

The Evolution in
Smart Manufacturing

Seven years after its development, the M800/M80 Series ushers in a new dimension.

A variety of innovative control functions help machine various ‘things’ at high speed and with high
accuracy.

1

The industry's first*
3D machining simulation, which minimizes trial cutting, and advanced user-friendly and intuitive
operations streamline overall manufacturing processes and create 'time' as never before envisioned.

Our new CNC, keeping abreast of manufacturers’ needs and the advancement of the times, efficiently
optimizes manufacturing from the perspective of ‘things’ and ‘time’.

5 6

Introducing the all new M800V/M80V Series.

*1. As of August 2021. According to research by Mitsubishi Electric Corporation.

built-in wireless LAN, which reduces wiring and operators' movement, high-definition

View the introduction video here� ▶

OVERVIEW

INITIATIVES THAT CONTRIBUTE TO ADDRESSING SOCIAL ISSUES

FUTURE OF MITSUBISHI ELECTRIC CNC ��������������������������� P� 3

CONCEPT OF THE M800V/M80V SERIES ���������������������������� P� 5

FEATURES OF THE M800V/M80V SERIES ��������������������������� P� 7

BASIC PERFORMANCE IMPROVEMENTS ����������������������� P� 8
EVOLUTION OF THE CONTROL UNIT AND DISPLAY UNIT
EXPANSION AND EVOLUTION OF CONTROL FUNCTIONS

CNC LINEUP ��������������������������������������������������������������������������P� 11

SYSTEM CONFIGURATIONS ������������������������������������������������P� 1 3

INTRODUCTION OF FUNCTIONS ����������������������������������������P� 1 5

FUNCTIONS FOR MECHANICAL AND ELECTRICAL DESIGN
FUNCTIONS FOR SETUP �������������������������������������������������P� 1 6
FUNCTIONS FOR MACHINING �����������������������������������������P� 17
FUNCTIONS FOR PRODUCTION MAINTENANCE ����������P� 1 8

���� P� 2

����� P� 9
����P� 1 0

����P� 1 5

CONTRIBUTION TO SUSTAINABILITY ���������������������������������P� 1 9

HARDWARE �������������������������������������������������������������������������� P�20

SPECIFICATIONS ����������������������������������������������������������������� P�21

DRIVE SYSTEM �������������������������������������������������������������������� P�23

SOFTWARE TOOLS ������������������������������������������������������������� P�25

GLOBAL SALES & SERVICE NETWORK ���������������������������� P�27

WARRANTY �������������������������������������������������������������������������� P�29

FEATURES OF THE M800V/M80V SERIES

FEATURES OF THE M800V/M80V SERIES

The M800V/M80V Series makes an effective difference in each phase of the engineering chain.

Mechanical and

electrical design

•Differentiation of machines
through customization

•Easier PLC programming

•Expanded control area (sheet
metal laser cutting machines,
special mechanisms, etc�)

Image input interface

Image input expansion Camera connection

See P.15

MELSEC development tool

(GX Works2)

PLC on-board:
Circuit monitor screen

Setup Machining

•Enhanced usability

•Efficient programming and
parameter adjustment

•High-definition simulation to
reduce faulty machining and
scrap

Multi-touch gestures

See P.8

Parameter adjustment

screen for high-accuracy control

•Enhanced machining quality

•New function to reduce cycle
time and extend tool life

Spline interpolation 2

improvement

Function OFF

Function ON

No mark

See P.17

OMR-CC

(Optimum machine

response-contour control)

Production

maintenance

•Support for automation and
traceability

•More features and
improvements for operation
monitoring and remote
monitoring applications

•Support for security measures

Two-dimensional barcode

(QR code) engraving cycle

See P.18

NC Machine Tool Optimizer

BASIC PERFORMANCE
IMPROVEMENTS

Increased fine segment processing capability
further reduces cycle time

M800V

M800

M700V

168

* The above is the maximum value.

The maximum value differs depending on the function.

With improved hardware optimized for CNC, the
dedicated CPU significantly improves fine segment
processing capability.
High machining program processing capability
translates to a shorter cycle time.

540

270

[kBPM]

Multi-touch function provides superior usability Screen design that ensures visibility

Swipe to display the

1

menu list

Increased number of control axes

■

Machining center system (M system)

M800VS

M800VW

Max. number of axes 32
Number of spindles 6 4 2

■Lathe system (L system)

M800VS

M800VW

Max. number of axes 32 13 9
Number of spindles 8 6 4

The number of some control axes has been increased
from the conventional M800/M80 Series, allowing control
of more complex mechanisms.

Monitor screen

M80V

(TypeA)

11 12

M80V

(TypeA)

M80V

(TypeB)

9

M80V

(TypeB)

GX Works2

project file

7 8

Read

Write

See P.15

Laser processing control

See P.10

Multi-part system control

for machining center

See P.15

See P.16

Rotation center error

measurement

Apply the
measurement
result to the screen

See P.16

3D machining simulation

See P.16, 19

Improved cutting in arcs and free-form surfaces

See P.17

Tool cutting point control

Compensation

See P.17

Cutting load control

Reduction in rough cutting time of
an evaluation workpiece

Cutting load
control OFF

38m27s

* R10mm F4000 circular interpolation

Cutting load

14.4% 32m55s

See P.17

control ON

Evaluation workpiece
(image)

Displays an overview of the status

of machine operations in a plant

See P.18

Built-in remote service

gateway unit functionality

M800V/M80V

Series

See P.9

Security feature for

Windows display

Security software

See P.18

server

Authorized

applications

Open the menu with a

2

single touch!

Multi-touch gesture
with four fingers

Usability of the M800/M80 Series has further evolved!
Multi-touch gestures enable smarter operations, such as:
Pinch-in/pinch-out in program display area to change text size

• Drag/flick the menu upward to open the menu list

• Use grab operation with four or more points to open the
list of recently selected screens.

View the introduction video here� ▶

Setup screen

Monitor screen

Setup screen

M800/M80 Series

M800V/M80V Series

Flat, simple design with same data layout�

Visibility has been improved using shades�

Edit screen

Edit screen

Screen design and colors are optimized for readability
considering information content. Better visibility leads to
increased work efficiency.

FEATURES OF THE M800V/M80V SERIES

EVOLUTION OF THE CONTROL
UNIT AND DISPLAY UNIT

Built-in wireless LAN increases work efficiency

Our industry-first*1 NC control unit with built-in wireless
LAN frees operation from the constraints of time and
space. It can be connected to software tools on a PC to
exchange data using wireless communication.

*1. As of August 2021. According to research by Mitsubishi Electric Corporation.
*2. The available legal wireless frequency bands and channels vary from country to country due to

varying regulations governing use of radio waves. Ensure that the country code that matches the
country of operation is configured before using the wireless LAN functionality.

M800VW M800VS M80VW M80V

Operation
panel

NC Configurator2,etc�

Addition of a 19-inch display to the lineup of display-integrated control units (M800VS/M80V Series)

19-type touchscreen 15-type touchscreen 10�4-type touchscreen 8�4-type

Evolution of the control unit and display unit (M800VW/M80VW Series)

■Evolved Windows display

Advanced design inherited from the M800/M80 Series with double storage
capacity.
Equipped with a new PC unit supporting Windows 10.

A gateway unit functionality for remote service
is built into the NC

LAN

Conventional

model

M800V/M80V

Series

The functionality of a remote service gateway unit
required for remote service iQ Care Remote4U is built
into the NC control unit*
easier remote diagnostics.

*1. For regular data retrieval, different interval applies to the built-in capability (Remote gateway unit,

one second; built-in capability in NC control unit, 30 seconds).
If the data needs to be retrieved at a one-second interval, use the remote gateway unit like the
earlier models.

M800VW M800VS M80VW M80V

Remote service
gateway unit

server

Transmit NC operation
status and data for
machine diagnosis

1

, leading to less wiring and

View the introduction video here� ▶

M800VW M800VS M80VW M80V

A 19-type display has been added
to the lineup of 8.4, 10.4 and 15
types.
A large screen improves visibility
and provides greater flexibility in
designing an operation panel.

M800VS M80VM800VW M80VW

EXPANSION AND EVOLUTION
OF CONTROL FUNCTIONS

AI Diagnostic Tool for CNC Machining

NC MachiningAID

NC MachiningAID retrieves and analyzes the Mitsubishi Electric's CNC machining data and automatically performs
diagnostics to realize full automation and reduce your machining costs as well.

Diagnostic data

Alarm

LAN

Sheet metal laser cutting machines can also be controlled

Laser processing control

No

The introduction of laser processing
functionality expands the areas of

Laser processing functionality

1 Laser oscillator control

control.

Selection of laser

RIO2.0 communication

M800V/M80V

Series

View the introduction video here� ▶

Laser interface unit

Laser oscillator*

2

processing conditions

3 DR (dross reduction) control

4 F-CUT (flycutting) control

5 Height control

6 Power calibration control

7 Multi-part machining

* The laser oscillator must be prepared by the customer.

Vibration cutting shortens the time required to remove chips and improve machine utilization

Vibration cutting

Vibration cutting, in which machining is performed with the feed axis vibrating to break up chips, reduces the time it
takes to remove the chips and increases machine utilization.

■Lathe system ■Machining center system

Cutting with

axis vibrating

Air-cutting zone resulting

from vibration breaks chips

into granular pieces

You can reduce

The NC outputs to the laser oscillator the processing conditions (laser power value, etc�) it creates for
each interpolation cycle when the M code for laser ON is enabled
The NC device controls the digital I/O of the laser oscillator

Laser processing conditions are set in a dedicated screen (each condition can be selected using an
M code)
(The selection of conditions appropriate to the processing situation leads to high-quality processing)

Laser processing conditions are automatically adjusted according to the processing speed (The effect
of heating at acute corners is reduced, minimizing dross and increasing processing accuracy)

The timing of turning on/off the beam is controlled by checking the feedback position obtained from
the motor-side encoder against the programmed position
Laser head retraction can be easily commanded during height control

The height from the workpiece surface is held constant based on the height sensor (Copying the
workpiece, leading to high-quality processing)
Supports cylindrical interpolation, beam ON/OFF can be switched without stopping the rotary axis

Laser power is adjusted based on the laser power measured from the laser head (Actual laser power
is made consistent with the programmed value, contributing to oscillator protection)

Multiple parts of the same shape can be machined with a single G-code command�
(Reduces programming time and improves productivit y)

Machining defect
detection

Tool wear
detection

Operation error
detection

$ Waste & scrap $ Tooling cost $ CO2

M800VW M800VS M80VW M80V

$Quick post-processing

From

manual to fully

automated

M800VW M800VS M80VW M80V

Description

M800VW M800VS M80VW M80V

inspection

$Early detection of

machining defect

$Tool life checking

Shred chips

X

■New control unit with enhanced field network support

The added LAN connector on the control unit offers connectivity with a wider

9 10

variety of networks.

axis

Z axis

Expandability is maintained by the expansion slots while also ensuring

Cutting is already
performed in the first
revolution, resulting in air­cutting zone in second
revolution

Path during second revolution

Z axis

X axis

installation compatibility with the M800VW/M80W Series.

CNC LINEUP

CNC LINEUP

High

performance

M800VW

Premium CNC provides
expandability and flexibility

• Separated type with the control unit separate

from the display

• A Windows-based display is included in the

lineup, providing excellent expandability

• Four expansion slots are provided as a standard

specification, and further expansion is realized by

an optional card slot

Display unit size Main specifications

19-type

Touchscreen

19-type

Touchscreen

(Windows based)

(Windows based)

15-type

Touchscreen

(Windows-based

display can be

selected)

Max. number of axes
(NC axes + spindles + PLC axes)

Max. number of spindles 8 6

Max. number of part systems
(main+sub)

Fine segment processing capability [kilo­blocks/min]

Lathe system

Standard: 16 Optional: 32

Standard: 4

Optional: 8

168 540

Machining center

system

2

M800VS

M80VW

High-grade CNC well suited
to high-speed high-accuracy
machining and multi-axis multi­part system control

• Panel-in type with an integrated control unit and

display

• Multi-CPU architecture allows for high

performance and high functional graphics

• A non-Windows-based display provides easy

operability

Standard CNC with expandability
and flexibility

• Separated type with the control unit separate

from the display

• A Windows-based display is included in the

lineup, providing excellent expandability

• Packaged type for easy selection of machine type

• Two expansion slots are provided as a standard

specification, and further expansion is realized by

an optional card slot

19-type

Touchscreen

(Windows based)

19-type

Touchscreen

15-type

Touchscreen

19-type

Touchscreen

(Windows based)

15-type

Touchscreen

(Windows-based

display can be

selected)

10.4-type

Touchscreen

Lathe system

Max. number of axes
(NC axes + spindles + PLC axes)

Max. number of spindles 8 6

Max. number of part systems
(main+sub)

Fine segment processing capability [kilo­blocks/min]

Max. number of axes
(NC axes + spindles + PLC axes)

Max. number of spindles 6 4

Max. number of part systems
(main+sub)

Fine segment processing capability [kilo­blocks/min]

Standard: 16 Optional: 32

Standard: 4

Optional: 8

168 540

Lathe system

13 11

4 2

101 202

Machining center

system

Machining center

system

2

M80V

19-type

Standard CNC provides high

Touchscreen

productivity and easy operability

• Panel-in type, with an integrated control unit and

display

• Pre-packaged (TypeA/TypeB) for easier selection

• A non-Windows-based display provides easy

operability

11 12

15-type

Touchscreen

10.4-type

Touchscreen

8.4-type

Max. number of axes
(NC axes + spindles + PLC axes)

Max. number of spindles

Max. number of part systems
(main+sub)

Fine segment processing capability [kilo­blocks/min]

Lathe system

TypeA: 13
TypeB: 9

TypeA: 6
TypeB: 4

TypeA: 4
TypeB: 2

TypeA: 101
TypeB: –

Standard

Machining center

system

TypeA: 12
TypeB: 9

TypeA: 4
TypeB: 2

TypeA: 4
TypeB: 1

TypeA: 202
TypeB: 67�5

SYSTEM CONFIGURATIONS

SYSTEM CONFIGURATIONS

Ethernet

M800VS/M80V Series M800VW/M80VW Series

USB memory USB memory

SD card SD card

Display-integrated control unit
& keyboard

Manual
pulse
generator

Display
& keyboard

Machine
operation
panel

SD card

Control unit

Field network

•PROFIBUS-DP

•EtherNet/IP

•CC-Link

•CC-Link IE TSN

•CC-Link IE Field Network

•CC-Link IE Field Network Basic

•FL-net

Remote
I/O unit

Thermistor
input unit

Drive unit

•MDS-E/EH Series

•MDS-EJ/EJH Series

•MDS-EM/EMH Series

PC server

•Production control system

EcoMonitorLight

Software for machine assembly and
adjustment

•NC Analyzer2

•NC Configurator2

Software for electrical design

•NC Designer2

•NC Trainer2plus

Software for operation and
maintenance

•NC Trainer2

•NC Explorer

•NC Monitor2

•Communication software
for Mitsubishi Electric CNC
(FCSB1224W000)

•iQ Care Remote4U

•NC Machine Tool Optimizer

•NC Virtual Simulator

•NC MachiningAID

Power backup
unit

•MDS-D/DH-PFU

Power supply
unit

•MDS-E/EH-CV

•MDS-EX-CVP

Spindle motor

•SJ-D Series

•SJ-DG Series

Tool spindle motor

•HG Series

•HG-JR Series

13 14

•HG Series

•LM-F Series

•TM-RB Series

Servo motor

•SJ-DL Series

•SJ-DN Series

•SJ-DJ Series

•SJ-DM Series

•SJ-BG Series

MC

Optional parts are not provided as accessories for NC equipment.
Please purchase desired components from a Mitsubishi Electric dealership, etc.

AC reactor

AC power supply

INTRODUCTION OF FUNCTIONS

INTRODUCTION OF FUNCTIONS

Mechanical and

electrical design

Setup Machining

“Image input interface” enables flexible
customization of NC screens and applications to
differentiate machine tools, creating added value.

Image input interface

By displaying applications that are installed in an
industrial PC and camera images stored inside the
machine, the NC screen provides added value to
machine tools. Applications in an industrial PC can be
operated from the NC screen.

Image input
expansion

Industrial PC

HDMI signal

M800VS M80VM800VW M80VW

Camera
connection

Camera

Production

maintenance

ST language is supported in addition to ladder language. This
allows PLC programs to be created and edited efficiently using the
syntax resembling that of conventional programming languages.

MELSEC development tool (GX Works2)

Unlike ladder language, ST language allows flexible
text-based programming and compact operation
processing. The use of function blocks (FB) also makes
PLC programming more flexible.
Monitoring function blocks using PLC on-board*
development easier and more efficient.

*1. Available on M800VW/M80VW

Series only

(SD card/USB memory)

M800VS M80VM800VW M80VW

PLC on-board: Ladder monitor screen

• Function blocks (FB) can
be monitored*

• Labels can be monitored

GX Works2

project file

External media

Read

Writ e

1

makes

1

Display unit*

1

Mechanical and

electrical design

Setup Machining

Parameter setting guidance on the dedicated
screen makes it easy for anyone to improve
machining quality.

Parameter adjustment screen for high-accuracy control

The parameters for high-accuracy control can be
adjusted through intuitive operation using three
machining indexes (cycle time, accuracy, quality)
displayed in the guidance. This makes it unnecessary
for operators to be highly skilled at making adjustments
for optimal machining.

M800VS M80VM800VW M80VW

Production

maintenance

Sophisticated simulations help to shorten work
period and reduce material losses.

3D Machining simulation

Machine interference and machining quality can be checked
before actual machining, preventing collision and faulty
machining, which leads to a shorter overall work period.
High-definition simulations, which make even the streaks by
cutters visible, allows the machining results to be checked
on the NC screen.

Machine interference is highlighted in color
to be spotted easily.

M800VS M80VM800VW M80VW

Top view of workpiece

Streaks by ball end

milling cutters

View the introduction video here� ▶View the introduction video here� ▶

“Direct robot control” enables the NC to directly
control a robot, allowing more flexible machine
design including workpiece transportation.

Direct robot control

Guidance on the dedicated screen and special G codes
allow easy programming and operation without requiring
knowledge of robot language. For example, you can run
an NC program that coordinates the loading/unloading
of workpieces by the robot with the machining of
workpieces by the machine tool.

15 16

View the introduction video here� ▶

M800VS M80VM800VW M80VW

Handle operation is also
available

By achieving to control up to four part systems for
machining centers, supporting large machining
tools that require multi-part system control.

Multi-part system control for machining center

For machining tools that are compatible with
“gigacasting” manufacturing, where EV bodies and
battery frames are machined in single-piece, machining
with multiple machining heads on the machining center,
and combined machining of gantry-type and horizontal
machining are required.
The above machining control is achieved by supporting
up to four part system control.

Two-head four-axis

machining tool

Three-head gantry-type and horizontal machining tool

M800VS M80VM800VW M80VW

All operational history for setup is displayed
on one screen to prevent errors and missed
settings, facilitating setup work.

Setup change history display

When the settings like tool data and coordinate system
offset are changed, all operations are displayed as a
change history on one screen. This helps to easily identify
errors and missed settings and allows erroneous settings,
if found, to be undone with a single touch.
It shortens the time for setup work.

Whether to display or hide data
can be set for each data type.

M800VS M80VM800VW M80VW

Settings can be undone if an
error is found

“Rotation center error measurement” can be
used to instantly set the error compensation
amount for rotation center error of the machine.

Rotation center error measurement

This function allows rotation center errors to be
measured using the reference sphere and touch probe.
It also allows compensation values to be applied
effortlessly from the screen. The measurement result can
be reflected in the rotary axis configuration parameters.
The machine configurations that support the function
now includes not only table-tilt type but also combined
type in the M800V/M80V Series.

View the introduction video here� ▶View the introduction video here� ▶

M800VS M80VM800VW M80VW

Apply the measurement result

INTRODUCTION OF FUNCTIONS

Mechanical and

electrical design

Setup Machining

“OMR-CC (Optimum machine response-contour
control)” efficiently reduces cycle time while
maintaining machining accuracy.

OMR-CC (Optimum machine response-contour control)

Cycle time is reduced without compromising accuracy
by outputting movement commands considering position
error resulting from servo response delay.

OMR-FF

(Conventional control)

34m22s

9�7um

2447mm/min

*1. R10mm F4000 arc command

M800VS M80VM800VW M80VW

The red circle indicates areas
where OMR-CC is particularly
effective.

Cycle time

11%

1

Path error*

15%

Arc passing speed*

1

41%

OMR-CC

(New control technology)

30m21s

8.2um

3465mm/min

Production

maintenance

“Spline interpolation 2” delivers high-quality
fine surfaces by making adjacent machining
paths globally smooth.

Spline interpolation 2

This function solves the problem of uneven (marked) surfaces resulting
from the variance of programmed points that occur when a machining
program is generated by a CAM tool, improving machining quality.

Variance reduction control OFF

Variance reduction control ON

No mark from
machining

M800VS M80VM800VW M80VW

Surface map

Surface map

High quality with
less variance with
adjacent paths

Mechanical and

electrical design

Setup Machining

A QR Code engraved directly on a workpiece
allows automatic selection of programs and
tools and helps to implement traceability easily.

Two-dimensional barcode (QR code) engraving cycle

A program for engraving a QR code can be created easily
using a fixed cycle.
A QR Code engraved on a workpiece helps automation of
high-mix low-volume production and traceability of workpieces.

1

Order and production
management data
are engraved on the
workpiece�

2

Product traceability is
implemented by reading
the engraved QR Code�

3

The QR Code helps
automate the selection of
machining programs and
tools according to orders�

M800VS M80VM800VW M80VW

G136[<Machining date> <Workpiece no.>
<Any string>]

Machining result

(simulation)

The NC engraves an
internally generated
QR Code.

Production

maintenance

“Security feature for Windows display” effectively
protects the NC from virus and other threats
using the whitelist technique.

Security feature for Windows display

Virus attacks can be blocked by preventing software not
whitelisted (unauthorized) for the NC from being run. It
addresses security needs posed by the growth of IoT.

List of authorized

applications

Display unit

(Windows display)

StandardScreen.exe

notepad.exe

Unauthorized application

XXXX.exe

M800VS M80VM800VW M80VW

Not whitelisted - Not

executable

“Cutting load control” automatically controls
cutting load, leading to longer tool life and
shorter cycle time.

Cutting load control

Feedrate is automatically adjusted so that the actual
load rate matches the predefined target load rate during
machining. The parameters appropriate for the tool and
workpiece can be selected from eight parameter groups.

2800
2600
2400
2200
2000
1800
1600

FB speed [mm/min]FB speed [mm/min]

2800
2600
2400
2200
2000
1800
1600

Extending tool life

Target load

Reducing time

Target load

time

time

High load

Speed DOWN

Speed UP

M800VS M80VM800VW M80VW

Reduction in rough cutting time
of an evaluation workpiece

25

Cutting load

20

control OFF

15

38m27s 14.4% 32m55s

10

* R10mm F4000 circular interpolation

5

Cutting load [%]Cutting load [%]

0

25

20

15

10

5

0

Evaluation workpiece (image)

FB speed
Cutting load

Cutting load

control ON

View the introduction video here� ▶View the introduction video here� ▶ View the introduction video here� ▶

“Tool cutting point control” enables optimum
machining without modifying the machining
program even when the tool shape changes.

Tool cutting point control

In five-axis machining, it was necessary to modify the
machining program as tool wear occurs to keep the
cutting point constant. Now tool wear is automatically
compensated for by simply setting the tool length and
tool shape (tool radius, corner radius).

Example of tool wear Tool cutting point control

M800VS M80VM800VW M80VW

Compensation

Automatically compensated without settingThe cutting point shifts

Remote service “iQ Care Remote4U” has evolved.
Remote diagnostics through a cloud server help
to reduce machine downtime.

Machine downtime is reduced by automatic email
notifications sent upon occurrence of an alarm and
alarm diagnostics, in addition to the built-in remote
service gateway unit functionality in the NC control unit
(see P.9).

* Connection with Mitsubishi Electric CNC M700(V)/M70(V) Series is also supported

Alarm screen

Click on
alarm date

Data before and after
alarm can be displayed

Currently selected time
Time of alarm occurrence

View the introduction video here� ▶

iQ Care Remote4U

Email notification condition list screen

Alarm Diagnosis
screen

Displays a list of data
for a selected time

Email notification condition edit screen

Displays a list of
notification conditions
that are currently set

Notification conditions:

• Device

• Common variable

• Emergency stop

• Machining completion

Detect
condition

Email
address

Message

Operation monitoring software “NC Machine
Tool Optimizer” visualizes the status of various
equipment in multiple factories.

Besides connecting with a variety of controllers (maker,
model) on the shop floor, it can monitor and analyze the
operation of equipment in multiple factories, helping to
increase productivity.

* Connection with Mitsubishi Electric CNC (old models) and third-party controllers is supported

• Displays an overview of the status of machine
operations in a plant

NC Machine Tool Optimizer

■Visualize operational status

• Aggregate data by plant, group, or machine

• Real-time monitoring based on operation trends

Built-in wireless LAN
No wiring required

NC Machine Tool Optimizer

Software product that collects operation
data from NC machine tools and peripherals
to support the visualization and analysis of
operational status

17 18

View the introduction video here� ▶

View the introduction video here� ▶View the introduction video here� ▶

HARDWARECONTRIBUTION TO SUSTAINABILITY

CONTRIBUTION TO
SUSTAINABILITY

“3D machining simulation” contributes to
reducing waste.

Machine interference and machining quality can be
checked before machining, to reduce the number of
workpieces that are discarded due to trial cutting and
defective machining.

M800VW M800VS M80VW M80V

“Power consumption calculation” enables visualization
of power consumption.

Visualization of machine power consumption enables
users to see which process has higher power
consumption, contributing to power savings in factories.

M800VW M800VS M80VW M80V

HARDWARE

Control unit

M800VW/M80VW Series
(Separated type)

Separated from

display

M800VW : 90×180×380 (W×D×H)
M80VW : 60×180×380 (W×D×H)

Control unit

WW

M800VS/M80VS Series
(Integrated type)

Integrated on back

HH

DD

of display

Control unit

FCU8-KB921
FCU8-KB923

Standard specification A

FCU8-KB925
FCU8-KB926

Standard specification B

FCU8-KB922
FCU8-KB924

FCU8-KB931

Standard specification A

FCU8-KB941

Standard specification B

Display Keyboard M800VW Series M800VS Series M80VW Series M80V Series

365

19-type

touchscreen

19-type,

horizontal

touchscreen

19-type

touchscreen

15-type

touchscreen

–

–

FCU8-KB091

Clear key

Full keyboard

FCU8-KB083

Clear key

Full keyboard

440

365

320

140

Windows

based

440

Windows

based

–

400

Windows based

display can be

selected

–

–

475

400

120

400

320

140

290

Machine operation panel

Key switch: 55 points, LED: 55 points
Mitsubishi Electric standard key layout

Key switch: 55 points, LED: 55 points
Custom specification key layout

Rotary switch
(Spindle override, cutting override)
Selective switch (memory protection)
Emergency stop button

365

Windows

440

based

440

Windows

365

based

–

400

Windows based

320

display can be

selected

140

140

400

120

320

140

KB921/922/925: 260
KB923/924/926: 290

140

140

–

–

475

400

290

[mm]

View the introduction video here� ▶

PWM converter MDS-EX-CVP Series

M800VW M800VS M80VW M80V

10�4-type

touchscreen

10�4-type

touchscreen

10�4-type

touchscreen

FCU8-KB047

Clear key

Full keyboard

FCU8-KB041

Clear key

ONG (XZF) layout

for L system

FCU8-KB046

Clear key

ONG (XYZ) layout

FCU8-KB048

Clear key

ABC layout

220

220

220

160

290 140

290 230

–

–

–

–

–

–

220

160

290 140

220

290 230

220

PWM converter MDS-EX-CP Series controls the boost and stabilization of DC link voltage, for increased output and
shorter acceleration and deceleration times in the below combination. Reduced supply current harmonics and
improved power factor help to lower power supply equipment capacity.

Comparison of rated output
��������������������������������������������������� Approx. 28% UP

Rated output [kW]

100 0.35

50 0.3

19 20

0 0.25

MDS-EH-CV MDS-EH-CVMDS-EX-CVP MDS-EX-CVP

*1. Varies with inertia

Comparison of acceleration time (0 30,000 r/min)
����������������������������������������������Approx. 9% DOWN

Acceleration time [sec]*

1

PWM

converter

MDS-EX-CVP-1100H

Spindle

drive unit

MDS-EH-SP-600

Built-in

spindle motor

SJ-4BGS160B/

300-01

8�4-type

8�4-type

FCU8-KB026

Clear key

ONG (XYZ) layout

FCU8-KB028

Clear key

ONG (XZF) layout

for L system

FCU8-KB029

Clear key

ONG layout

– – –

– – –

260 140

200

260

200

140

SPECIFICATIONS

SPECIFICATIONS

Class

Max. number of axes (NC axes + Spindles + PLC axes)

Max. number of NC axes (in total for all the part systems) ○16 ○16

Max. number of spindles 6 6 8 8 4 6 6 6 8 8 4 2 6 4
Max. number of PLC axes 8 8 8 8 6 6 8 8 8 8 6 6 6 6
Max. number of PLC indexing axes 8 8 8 8 4 4
Number of simultaneous contouring control axes 8 4 8 4 4 4 8 4 8 4 4 4 4 4

Max. number of NC axes in a part system

Axis name extension*

1

Max. number of part systems (main + sub) ○2 ○2

Max. number of main part systems

Max. number of sub part systems ○2 ○2

Control unit-side High-speed program server mode △ △ △ △ ○ ○ – – – – – – – –
Display unit-side High-speed program server mode △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Data increment

Least command increment

Least control increment ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm ○ 1nm
Linear interpolation ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Circular interpolation (Center/Radius designation) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Helical interpolation ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Spiral/Conical interpolation △ △ – – ○ – △ △ – – ○ – – –
Cylindrical interpolation △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Polar coordinate interpolation △ △ △ △ – ○ △ △ △ △ – – ○ ○
Milling interpolation – – △ △ – ○ – – △ △ – – ○ ○
Hypothetical axis interpolation △ △ – – – – △ △ – – – – – –
Involute interpolation △ △ – – ○ – △ △ – – ○ – – –
Exponential interpolation △ △ △ △ – – △ △ △ △ – – – –
Spline interpolation (G05.1Q2/G61.2) △ △ – – ○ – △ △ – – ○ – – –
NURBS interpolation △ △ – – – – △ △ – – – – – –
3-dimensional circular interpolation △ △ – – ○ – △ △ – – ○ – – –
Spline interpolation 2 (G61.4) △ △ – – ○ – △ △ – – ○ – – –
Memory capacity (number of programs stored)

500KB [1280m] (1000 programs) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
1000KB [2560m] (1000 programs) △ △ △ △ – – △ △ △ △ – –
2000KB [5120m] (1000 programs) △ △ △ △ – – △ △ △ △ – – – –

Extended Memory (NC memory 2)

2000KB [5120m] (1000 programs) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Multi-part system simultaneous program editing ○ ○ ○ ○ – ○ ○ ○ ○ ○ – – ○ ○
Special program editing display for synchronization between par t systems
Finish shape view programming △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Remote desktop connection – – – – – – △ △ △ △ ○ ○ ○ ○
VNC server – – – – – – △ △ △ △ ○ ○ ○ ○
Image input interface*
Spindle-mode servo motor control △ △ △ △ ○ ○ △ △ △
Spindle-mode rotary axis control △ △ – – ○ – △ △ – – ○ – – –
Turret gear change control – – △ △ – ○ – – △ △ – – ○ ○
Spindle position control (Spindle/C axis control) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
C axis control during Spindle synchronization △ △ △ △ – ○ △ △ △ △ – – ○ ○
Spindle synchronization I ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Spindle synchronization II ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Guide bushing spindle synchronization – – △ △ – ○ – – △ △ – – ○ –
Spindle superimposition control – – △ △ – ○ – – △ △ – – ○ –
Multiple spindle synchronization set control – – ○ ○ – ○ – –

3

Number of tool offset sets

Graphic check ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
3D solid program check ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Graphic check rotary axis drawing – – △ △ – ○ – – △ △ – – ○ ○
3D machining simulation △ △ – – – – – – – – – – – –
Variable command

600 sets – – – – – – – – – – – – –

700 sets ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ –

8000 sets △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –

(600 + 100 × number of part systems) sets ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ – ○ –

(7900 + 100 × number of part systems) sets △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –
Two-dimensional barcode engraving cycle ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Vibration cutting control*
Rapid traverse block overlap △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
High-speed machining mode I (G05P1) maximum [kBPM] △
High-speed machining mode II (G05P2) maximum [kBPM] △168 △168 △168 △168 ○101 ○101 △168 △168 △168 △16 8 ○101 ○101 ○
High-accuracy control (G61.1/G08) △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Multi-part system simultaneous high-accuracy control*

21 22

SSS control △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Tolerance control △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
High-speed high-accuracy control I (G05.1Q1) maximum [kBPM] △
High-speed high-accuracy control II (G05P10000) maximum [kBPM] △168 △16 8 △16 8 △168 ○101 ○101 △168 △168 △168 △168 ○101 ○101 ○
High-speed high-accuracy control III (G05P20000) maximum [kBPM] △540 △540 – – ○202 – △540 △540 – – ○202 – – –
Smooth fairing △ △ – – ○ – △ △ – – ○ – – –

4

5

M L M L M L M L

M850 M830 M850 M830 – – M850 M830 M850 M830

○16

○16

○16

△32

△32

△32

○16

△32

○16

11 13

△32

○16

9 10 ○16 ○16

△32

○16
△32

○16
△32

○16
△32

○16
△32

TypeA TypeB TypeA TypeB

○16

12 9 13 9

△32

○16

9 5 10 7

△32

8 8 8 8 4 4 4 4

○8

○8

○8

△12

△12

△16

△16

○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○

○2

○2

2

△3*

○

0�1µm

△ 1nm

2

△3*

0�1µm

○

△ 1nm

△12
△16

○4△8○4

○4△8○4

○4△8○4

○

0�1µm

△ 1nm

○8

△12

8 8○8△12

△16

○2 ○4 ○2 ○2

△8

○2 ○2

△8

– ○2 ○2 ○2

△8

○

0�1µm

○

0�1µm○ 0�1µm

△ 1nm

△16

○2

△3*

○

0�1µm

△ 1nm

○8

○8

△12
△16

○4△8○4

○4△8○4

○4△8○4

○

0�1µm

△ 1nm

○8

△12

8 5 8 5

△16

○4 ○1 ○4 ○2

△8

○4 ○1 ○3 ○2

△8

○2 – ○2 ○1

△8

○

0�1µm

○

0�1µm○ 0�1µm○ 0�1µm○ 0�1µm

△ 1nm

△12
△16

○2

2

2

△3*

○

0�1µm

△ 1nm

– –

△ △ △ △ ○ ○ △ △ △ △ ○ – ○ ○

– – – – – – □ □ □ □ □ □ □ □

○ 200

○ 128

○ 200

△

400/999

△ 400/999

△ 400/999

○ 128

△ 400/999

○ 400 ○ 256

○ 200

△ 400/999

○ 200

△ 400/999

△ ○ ○ ○ ○

○ ○ – – ○ ○

○ 128

○ 128

△ 400/999

○ 400 ○ 400 ○ 256 ○ 99

△ 400/999

□ □ □ □ □ □ □ □ □ □ □ □ □ □

33�7 △33�7 △33�7 △33�7 ○33�7 ○33�7 △33�7 △33�7 △33�7 △33�7 ○33�7 ○16�8 ○33�7 –

67�5 –

△ △ △ △ ○ – △ △ △ △ ○ – – –

67�5 △67�5 △67�5 △67�5 ○33�7 ○33�7 △67�5 △67�5 △67�5 △67�5 ○33�7 ○33�7 ○33�7 –

67�5 –

Class

Interactive cycle insertion △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Simple programming (NAVI MILL/LATHE) △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
G code guidance ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
DXF data input △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –
OMR II (Backlash with filter) △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
OMR III (Continuous variable backlash) – – – – – – – – – – – – – –
OMR-FF △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
OMR-CC

(Optimum Machine Response-Contour Control)
Rotation center error measurement △ △ – – ○ – △ △ – – ○ – – –

Number of tool life management sets

Direct robot control □ □ □ □ □ □ □ □ □ □ □ □ □ □
Cutting load control △ △ – – ○ – △ △ – – ○ – – –
Data protection by user's level △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Machine group-based alarm stop △ △ △ △ ○
Email notification to operator △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Security feature for Windows display △ △ △ △ – – – – – – – – – –
Safety observation △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
Smart Safety observation

Safety-related I/O observation △ △ △ △ ○ ○ △ △ △ △ □*
Emergency stop observation △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SLS (Safely-Limited Speed) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SLP (Safely-Limited Position) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SOS (Safe Operating Stop) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SSM (Safe Speed Monitor) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SBC/SBT (Safe Brake Control/Safe Brake Test) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SCA (Safe Cam) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
SS1/SS2 (Safe Stop) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*

STO (Safe Torque Off) △ △ △ △ ○ ○ △ △ △ △ □*6□*6□*6□*
Function block (FB) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Label programming ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
ST language ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
MELSEC development tool (GX Developer) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
MELSEC development tool (GX Works2) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
GOT connection

GOT connection (Ethernet connection) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○

GOT connection (CC-Link connection) ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Tool handle feed & interruption △ △ – – – – △ △ – –
Tool center point control (G43.4/G43.5) △ △*
Tool cutting point control (G43.8/G43.9) △ – – – – – △ – – – – – – –
Inclined surface machining command △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –
Simple inclined surface machining command*
3-dimensional tool radius compensation

(Tool's vertical-direction compensation)
Workpiece installation error compensation △ – △*
3-dimensional manual feed △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –
Real-time tuning 1 (speed gain) △
Real-time tuning 2 (rapid traverse time constant) △ △ △ △ ○ ○ △ △ △ △ ○ – ○ –
Constant torque control △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
CC-Link (Master/Local) □ □ □ □ □ □ □ □ □ □ □ □ □ □
PROFIBUS-DP (Master) □ □ □ □ □ □ □ □ □ □ □ □ □ □
CC-Link IE Field (Master/Local)
EtherNet/IP □ □ □ □ □ □ □ □ □ □ □ □ □ □
FL-net □ □ □ □ □ □ □ □ □ □ □ □ □ □
CC-Link IE Field Basic ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Customization (NC Designer2)*
APLC release*
Custom API library ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
MES interface library △ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○
SLMP Server ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
Numerical Control (CNC) communication software

FCSB1224W000*
Motion control release: Coordinate transformation △ – – – – – △ – – – – – – –
Power consumption computation ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EcoMonitorLight connection ○ ○ ○ ○ ○ ○ ○ ○ ○ ○

○

Laser processing control*
Wireless LAN*

*1. Two alphabet letters.
*2. The 3rd part system is the loader-dedicated part system.
*3. Image input expansion unit is required.
*4. Vibration cutting expansion unit is required.
*5. Up to two part systems.
*6. Functional safety expansion unit is required for M80V.
*7. Restrained to 4-axis simultaneous contouring for M830VW, M830VS, M80VW, M80V (TypeA).
*8. This includes Simple tool center point control.
*9. For L system, this function is available only during program format switch.
*10. Separately sold software is required.
*11. Laser interface unit is required.
*12. This function is available in the following countries. Supported versions of software and control units may be limited by country. Please contact us for more information.

10

10

12

Austria, Belgium, Bulgaria, China, Cyprus, Czech Republic, Germany, Denmark, Estonia, Spain, Finland, France, United Kingdom, Greece, Croatia, Hungary, Ireland, Italy, Japan, Lithuania, Luxembourg,
Latvia, Malta, Netherlands, Poland, Portugal, Romania, Sweden, Slovenia, Slovakia, Turkey, Taiwan, United States, Switzerland, Iceland, Liechtenstein, Norway, India, Korea, Thailand (As of August 2023)

10

11

M850 M830 M850 M830 – – M850 M830 M850 M830

○ 200

△

8

M800VW M80VW M80 0VS M80V

M800VW M80VW M800VS M80V

M L M L M L M L

△ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○

○ 200

△ 400/999

7

○ 128

△ 400/999

– – ○*7– △ △*7– – ○*7– – –

400/999

– – △ △ – ○ – – △ △ – – ○ ○

△ △ △*

9

9

△ △ △ ○ ○ △ △ △ △ ○ – ○ –

□ □ □ □ □ □ □ □ □ □ □ □ □ □

△ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○

△ △ △ △ ○ ○ △ △ △ △ ○ ○ ○ ○

○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○

□ □ – – □ – □ □ – – □ □ – –

– – – – – – ○ ○ ○ ○ ○ ○ ○ ○

M: Machining center system L: Lathe system / ○ Standard △ Optional □ Selection

TypeA TypeB TypeA TypeB

○ 128

△ 400/999

○ 200 ○ 256

○ 200

△ 400/999

○ 200

△ 400/999

○ 128

△ 400/999

○ 128

○ 200 ○ 200 ○ 256 ○ 99

△ 400/999

○ △ △ △ △ ○ ○ ○ ○

6

□*6□*6□*

– – – –

△*9– – △ △ △*9△*9– – – –

– – – △ – △*9– – – – –

○ ○ ○ ○

6

6

6

6

6

6

6

6

6

6

DRIVE SYSTEM

DRIVE SYSTEM

•Drive units

High-performance Servo/
Spindle Drive Units
MDS-E/EH Series

•The servo control-dedicated core

processor realizes improved control
speed, leading to enhanced basic
performance. When combined with a
higher resolution motor sensor and
enhanced high-speed optical
communication, this drive contributes
to high-speed, high-accuracy control.

•The motor power connector is

equipped with an anti-misinsertion
mechanism. This helps to eliminate
connection errors.

•Improved diagnostic and preventive

maintenance features

•Safe Torque Off (STO) and Safe

Brake Control (SBC) are also
incorporated as additional safety
features.

Multi-hybrid
Drive Units
MDS-EM/EMH Series

•Multi-hybrid drive units are capable

of driving a maximum of three servo
axes and one spindle. This
contributes to downsizing machines
and offers technical advantages.

•The motor power connector is

equipped with an anti-misinsertion
mechanism. This helps to eliminate
connection errors.

•Safe Torque Off (STO) and Safe

Brake Control (SBC) are also
incorporated as additional safety
features.

•The fan unit facilitates fan exchange.

•An MDS-EMH drive unit is available

for 400V systems.

All-in-one
Compact Drive Units
MDS-EJ/EJH Series

•Ultra-compact drive units with

built-in power supply contribute to
smaller control panel size.

•A 2-axis type has been added for

further downsizing.

•The servo control-dedicated core

processor realizes improved control
speed, leading to improved basic
performance. When combined with a
higher resolution motor sensor and
enhanced high-speed optical
communication, this drive contributes
to high-speed, high-accuracy control.

•Safe Torque Off (STO) and Safe

Brake Control (SBC) are also
incorporated as additional safety
features.

•An MDS-EJH drive unit is available

for 400V systems. (Note 1)

PWM Converter
MDS-EX-CVP Series

•Products of the PWM converter

series which provides a stabilizing
DC voltage function and boost
function. The MDS-EX-CVP Series
reduces the output deceleration of
the spindle motor and improves
output in the high-speed range.

•Available for 400V system power

supply units only.

•Spindle motors

High-performance
Spindle Motors
SJ-D Series

•Motor energy loss has been signicantly reduced

by optimizing the magnetic circuit.

•High-speed bearings are incorporated as a

standard feature, helping to achieve higher speed,
lower vibration and improved durability.

•Range: 3.7 to 26 [kW]

•Maximum rotation speed: 8,000 to 12,000 [r/min]

High-output, High-speed
Spindle Motors
SJ-DG Series

•The addition of S3 rating (%ED rating) has improved

output and torque acceleration/deceleration
characteristics.

•

A balance adjustment ring added to the counter-load
side allows for ne tuning.

•Range:

S3 rating: 5.5 to 15 [kW]

•Maximum rotation speed: 10,000 to 12,000 [r/min]

High-torque
Spindle Motors
SJ-DN Series

•Higher torque characteristics than those of the

SJ-D Series with the same output. This series can
be driven with a small-capacity multi-hybrid drive
unit.

•Suitable for heavy cutting. Helps to improve

productivity.

•Range: 7.5 to 18.5 [kW]

•Maximum rotation speed: 8,000 [r/min]

Low-inertia, High-speed
Spindle Motors
SJ-DL Series

•This series of spindle motors is dedicated for use in

tapping machines that require faster drilling and
tapping.

•The latest design technologies make it possible to

attain lower vibration and greater rigidity even with
lighter weight.

•Range: 0.75 to 7.5 [kW]

•Maximum rotation speed: 10,000 to 24,000 [r/min]

Compact, Lightweight
Spindle Motors
SJ-DJ Series

•Spindle motors that are smaller and lighter than the

SJ-D Series with the same output. This helps to
further downsize machines.

•Range: 5.5 to 15 [kW]

•Maximum rotation speed: 8,000 to 12,000 [r/min]

High-output High-torque
IPM Spindle Motors
SJ-DM Series

•The use of magnets allows for higher output and

torque, leading to reduced cycle time.

• The SJ-DM Series can provide torque

characteristics comparable to the former SJ-D
Series of the next frame number.

•Maximum rotation speed: 12,000 [r/min]

•Servo motors

Medium-inertia,
High-accuracy,
High-speed Motors

Linear
Servo Motors
LM-F Series

HG Series

•Sensor resolution has been signicantly improved.

These servo motors, which boast smooth rotation
and outstanding acceleration capabilities, are
well-suited as feed axes of machine tools.

•Range: 0.2 to 11 [kW]

•Maximum rotation speed:

2,000 to 6,000 [r/min]

•Safety support sensors are included as standard

specication. Three sensor resolutions (i.e., 1, 4 or
67 million pulses/rev) are available.

•These motors can also be used as a tool spindle

motor.

•The small-sized connector allows horizontal cable

23 24

connection to save space in machines. (Note 2)

•These motors can be used in clean environments,

since no ball screws are used, eliminating possible
grease contamination.

•Elimination of transmission mechanisms, including

backlash, enables smooth, quiet operation even at
high speeds.

•Range:

Maximum thrust: 900 to 18,000 [N·m]

Direct-drive
Servo Motors
TM-RB Series

•High-torque, direct-drive motors combined with

high-gain control provide quick acceleration and
positioning, making rotation smoother.

•Suitable for rotary axes that drive tables or spindle

heads

•Range:

Maximum torque: 36 to 1,280 [N·m]

Built-in
Spindle Motors
SJ-BG Series

•The electrical design has been optimized to

increase the continuous rated torque per unit
volume, contributing to downsizing spindle units.

•Options for mold and cooling jacket specications

are available.

(Note 1) For servo motors only
(Note 2) Options supported (Flange size 90SQ only)
* Use Mitsubishi Electric CNC's dedicated drive unit and motor.

Tool Spindle Motors
HG-JR Series

•Compact tool spindle motors are designed to have

the small, high-output characteristics of servo
motors yet offer high-speed rotation (8,000r/min).
These motors contribute to downsizing spindle
size, like rotary tool spindles.

•Range: 0.75 to 1.5 [kW]

•Maximum rotation speed: 8,000 [r/min]

•Small-sized connector allows horizontal cable

connection to save space in machines. (Note 2)

SOFTWARE TOOLS

For details on each software tool, refer to the software tools catalog (BNP-A1246).

●

Machine assembly and adjustment

SOFTWARE TOOLS

■Process flow from machine design and development to operation and maintenance

Machine design Electrical circuitry design

●

NC-related processes

Servo selection

NC Servo Selection

●

Machine design

Use the following instructions to set
machining parameters

Custom screen creation

NC Designer2
NC Compiler2

Debug

NC Trainer2 plus

Calculation results of spindle
acceleration/deceleration times

Machine assembly

and adjustment

Parameter creation

NC Configurator2

Servo/spindle adjustment

Machine adjustment

NC Analyzer2

* Refer to P.18 or individual catalogs for details.

[NC Servo Selection]

Input machining parameters to determine
the optimum servo motor. This function
automatically calculates spindle acceleration/

Operation and

maintenance

Operation and maintenance

NC Monitor2

NC Virtual Simulator*

NC MachiningAID

Operation monitoring and remote diagnostics

NC Machine Tool Optimizer*

iQ Care Remote 4U*

Training

NC Trainer2

NC Explorer

Adjusting with simple
parameter settings

●

Operation and maintenance

Education

Operation check

Machining
data file

Servo parameters
are adjusted
automatically

• Put skills obtained into practice

• Smooth start-up

• Quick setup/machining

Drag and drop to transfer machining data files

deceleration time and selects the optimum
power supply module.

Servo motor selection

●

Electrical circuitry design

Combine the parts to
customize the screen without
programming�

[NC Designer2]

NC Designer2 provides a development environment where
machine tool builders can customize screens easily. Two
types of screen development methods are available: the
interpreter method (programming without C++) for simple
screen development and the compilation method with a
complex controller (programming with C++).

[NC Compiler2]

NC Compiler2 is required when the compilation
method is used.

●

Machine assembly and adjustment

Check and set up
the parameters
list using a computer�

25 26

Spindle acceleration/
deceleration times are shown
in a graph�

Customize buttons
with original pictures�

Check the contents
of the parameters in the
help section�

Edit PLC program with
the PLC development tool
of NC Trainer2 plus�

NC Trainer2 plus NC Designer2 NC Trainer2 plus

Customize the screen using
NC Designer2 and check its
operation using NC Trainer2 plus�

[NC Trainer2 Plus]

NC Trainer2 plus supports customization
development. It helps to program and debug
the ladder programming of the user PLC that
is developed by machine tool builders and to
check the operations of customized screens.

[NC Configurator2]

NC parameters required for NC control or
machine operation can be edited on a
computer.
It is also possible to create initial parameters

NC Explorer

NC Explorer

Monitor the status
of multiple CNCs
on one computer

NC Monitor2

Ethernet

Ethernet

Application development support

Example of application

Data collection/monitoring Operation monitoring

Display/operation panel function

Production control CAD/CAM

Example of communication with CNC

• Start/stop the machining program

• Upload/download files

• Acquire coordinate values, alarm/diagnosis information

• Read/write NC data such as tools and variables

• Read/write device information

PC

Mitsubishi Electric CNC Communication

Development language:
VC++/VB

Program creation/edit

→

Software (FCSB1224W000)

Windows OS

→

Results are displayed
in a bode diagram

Results

Machining data file

[NC Analyzer2]

Servo parameters can be adjusted automatically by
measuring and analyzing machine characteristics.
Measurement and analysis can be performed by
running a servo motor using the machining program
for adjustment, or using the vibration signal. This
function can sample various types of data.

[NC Trainer2]

This is an application for operating the CNC
screen and machining programs on a computer
without a CNC control unit or special display
unit.
It can also be used for learning CNC operations
and checking machining programs. The
machining programs created on NC Trainer2/
NC Trainer2 plus can be used in actual CNCs.

[NC Explorer]

CNC machining data can be managed using
Windows Explorer when the computer is
connected to multiple CNCs via Ethernet.

[NC Monitor2]

Taking advantage of the connection with a
factory network, CNC operation status can
be monitored from remote locations. Several
CNCs can be connected and monitored
simultaneously.

[Mitsubishi Electric CNC Communication Software (FCSB1224W000)]

This software provides a host of API functions. It facilitates the
development of Windows applications that require connection
and communication with Mitsubishi Electric CNC*.
Its interface is common to all Mitsubishi Electric CNC models,
for high development efficiency.

* Compatible with Mitsubishi Electric CNCs after M700/M70.

Ethernet

Mitsubishi Electric CNC Mitsubishi Electric CNC Mitsubishi Electric CNC

simply by inputting the machine configuration.

NC Configurator2

GLOBAL SALES & SERVICE NETWORK

GLOBAL SALES &
SERVICE NETWORK

AMERICA

MITSUBISHI ELECTRIC AUTOMATION INC. (AMERICA FA CENTER)
HQ and Central Region Service Center (Chicago)

500 CORPORATE WOODS PARKWAY, VERNON HILLS, ILLINOIS 60061,U.S.A.
TEL: +1-847-478-2500 / FAX: +1-847-478-2650

• Minneapolis, MN Service Satellite

• Detroit, MI Service Satellite

• Grand Rapids, MI Service Satellite

• Cleveland, OH Service Satellite

• St. Louis, MO Service Satellite

• Indianapolis, IN Service Saltellite

South/East Region Service Center (Georgia)

1845 SATELLITE BOULEVARD STE. 450, DULUTH, GEORGIA 30097, U.S.A.
TEL +1-678-258-4529 / FAX +1-678-258-4519

• Charleston, SC Service Satellite

• Charlotte, NC Service Satellite

• Raleigh, NC Service Satellite

• Dallas, TX Service Satellite

• Houston, TX Service Satellite

• Hartford, CT Service Satellite

• Knoxville, TN Service Satellite

• Nashville, TN Service Satellite

• Huntsville, AL Satallite

• Pittsburg, PA Service Satellite

• Tampa, FL Service Satellite

• Miami, FL Satelite

• Lafayette, LA Service Satellite

• Allentown, PA Satelite

Western Region Service Center (California)

5900-B KATELLA AVE. - 5900-A KATELLA AVE. CYPRESS, CALIFORNIA 90630,
U.S.A.
TEL: +1-714-699-2625 / FAX: +1-847-478-2650

• San Francisco, CA Satelite

• Seattle, WA Service Satellite

• Denver, CO Service Satellite

Canada Region Service Center (Toronto)

4299 14TH AVENUE MARKHAM, ONTARIO L3R OJ2, CANADA
TEL: +1-905-475-7728 / FAX: +1-905-475-7935

• Edmonton, AB Service Satellite

• Montreal, QC Service Satellite

Mexico Region Service Center (Queretaro)

Parque Tecnológico Innovación Querétaro, Lateral Carretera Estatal 431,
Km 2+200, Lote 91 Modulos 1 y 2 Hacienda la Machorra, CP 76246, El Marqués,
Querétaro, México
TEL: +52-442-153-6050

• Monterrey, NL Service Satellite

• Mexico City, DF Service Satellite

BRAZIL

MITSUBISHI ELECTRIC DO BRASIL COMÉRCIO E SERVIÇOS LTDA.
Votorantim Office

AV. GISELE CONSTANTINO,1578, PARQUE BELA VISTA, VOTORANTIM-SP,
BRAZIL CEP:18.110-650
TEL: +55-15-3023-9000

• Blumenau, Santa Catarina Office

27 28

EUROPE

MITSUBISHI ELECTRIC EUROPE B.V.
European Service Headquarters (Dusseldorf, GERMANY)

Mitsubishi-Electric-Platz 1 40882 RATINGEN, GERMANY
TEL: +49-2102-486-5000 / FAX: +49-2102-486-5910

South Germany Service Center (Stuttgart)

SCHELMENWASENSTRASSE 16-20, 70567 STUTTGART, GERMANY
TEL: +49-711-770598-123 / FAX: +49-711-770598-141

France Service Center (Paris)

2 RUE DE L’UNION, 92565 RUEIL-MALMAISON CEDEX, FRANCE
TEL: +33-1-41-02-83-13 / FAX: +33-1-49-01-07-25

France Service Satellite (Lyon)

240, ALLEE JACQUES MONOD 69800 SAINT PRIEST FRANCE
TEL: +33-1-41-02-83-13 / FAX: +33-1-49-01-07-25

Italy Service Center (Milan)

VIA ENERGY PARK 14, VIMERCATE 20871 (MB) ITALY
TEL: +39-039-6053-342 / FAX: +39-039-6053-206

Italy Service Satellite (Padova)

VIA G. SAVELLI, 24 - 35129 PADOVA, ITALY
TEL: +39-039-6053-342 / FAX: +39-039-6053-206

U.K. Service Center

TRAVELLERS LANE, HATFIELD, HERTFORDSHIRE, AL10 8XB, U.K.
TEL: +44-1707-288-780 / FAX: +44-1707-278-695

Spain Service Center

CTRA. RUBI, 76-80 8174 SAINT CUGAT DEL VALLES, BARCELONA, SPAIN
TEL: +34-935-65-2236 / FAX: +34-935-89-1579

Poland Service Center

UL.KRAKOWSKA 50, 32-083 BALICE, POLAND
TEL: +48-12-347-6500 / FAX: +48-12-630-4701

Hungary Service Center
MITSUBISHI ELECTRIC EUROPE B.V. HUNGARIAN BRANCH

BUDAÖRS OFFICE PARK, SZABADSÁG ÚT 117., 2040 BUDAÖRS, HUNGARY
TEL: +36-70-433-2263

Turkey Service Center
MITSUBISHI ELECTRIC TURKEY ELEKTRI˙K ÜRÜNLERI˙ A.S¸

SERIFALI MAHALLESI KALE SOKAK. NO.41 34775 UMRANIYE, ISTANBUL,
TURKEY
TEL: +90-216-969-2500 / FAX: +90-216-661-44-47

Czech Republic Service Center
MITSUBISHI ELECTRIC EUROPE B.V. PRAGUE OFFICE

Pekarˇská 621/7, 155 00 PRAHA 5, CZECH REPUBLIC
TEL: +420-734-402-587

Sweden Service Center

HAMMARBACKEN 14, P.O.BOX 750 SE-19127, SOLLENTUNA, SWEDEN
TEL: +46-8-6251200 / FAX: +46-8-6251014

Bulgaria Service Center

AKHNATON Ltd. (Service Partner)

4 ANDREJ LJAPCHEV BLVD. POB 21, BG-1756 SOFIA, BULGARIA
TEL: +359-2-8176009 / FAX: +359-2-9744061

Ukraine Service Center (Kiev)

CSC Automation Ltd. (Service Partner)

4 B, YEVHENA SVERSTYUKA STR., 02002 KIEV, UKRAINE
TEL: +380-44-494-3344 / FAX: +380-44-494-3366

South Africa Service Center

Adroit Technologies (Service Partner)

20 WATERFORD OFFICE PARK, WATERFORD DRIVE, CNR OF WITKOPPEN
ROAD, FOURWAYS JOHANNESBURG SOUTH AFRICA
TEL: +27-11-658-8100 / FAX: +27-11-658-8101

ASEAN

MITSUBISHI ELECTRIC ASIA PTE. LTD. (ASEAN FA CENTER)
Singapore Service Center

307 ALEXANDRA ROAD MITSUBISHI ELECTRIC BUILDING SINGAPORE 159943
TEL: +65-6473-2308 / FAX: +65-6476-7439

PHILIPPINES

MELCO FACTORY AUTOMATION PHILIPPINES INC.
Head Office

128 LOPEZ RIZAL STREET, BRGY., HIGHWAY HILLS, MANDALUYONG CITY,
MM PHILIPPINES 1550
TEL: +63-2-8256-8042 / FAX: +632-8637-2294

Philippines Service Center

KM.23 WEST SERVICE ROAD SSH, CUPANG, MUNTINLUPA CITY, PHILIPPINES
TEL: +63-2-8807-0420 / FAX: +63-2-8842-5202

VIETNAM

MITSUBISHI ELECTRIC VIETNAM CO., LTD.
Vietnam Ho Chi Minh Service Center

11TH & 12TH FLOOR, VIETTEL TOWER B, 285 CACH MANG THANG 8 STREET,
WARD 12, DISTRICT 10, HO CHI MINH CITY, VIETNAM
TEL: +84-28-3910-5945 / FAX: +84-28-3910-5947

Vietnam Hanoi Service Center

14TH FLOOR, CAPITAL TOWER, 109 TRAN HUNG DAO STREET, CUA NAM
WARD, HOAN KIEM DISTRICT, HA NOI CITY, VIETNAM
TEL: +84-24-3937-8075 / FAX: +84-24-3937-8076

INDONESIA

PT. MITSUBISHI ELECTRIC INDONESIA
Indonesia Service Center (Cikarang)

JL. KENARI RAYA BLOK G2-07A, DELTA SILICON 5, LIPPO CIKARANG - BEKASI
17550, INDONESIA
TEL: +62-21-2961-7797 / FAX: +62-21-2961-7794

MALAYSIA

MITSUBISHI ELECTRIC SALES MALAYSIA SDN. BHD.
Malaysia Service Center (Kuala Lumpur Service Center)

LOT 11, JALAN 219, P.O BOX 1036, 46860 PETALING JAYA, SELANGOR DARUL
EHSAN, MALAYSIA
TEL: +60-3-7626-5032

Johor Bahru Service Center

9, Jalan Perjiranan 4/6, Bandar Dato Onn, 81100 Johor.
TEL: 07-3642250 / 2256

Pulau Pinang Service Center

25-G, Pusat Perniagaan Perdana Jaya, Jalan Permatang Rawa, 14000 Bukit
Mertajam, Pulau Pinang
TEL: +60-4-510-1838 / Fax: +60-4-510-1835

THAILAND

MITSUBISHI ELECTRIC FACTORY AUTOMATION (THAILAND) CO., LTD.
Thailand Service Center (Bangkok)

101, TRUE DIGITAL PARK OFFICE, 5TH FLOOR, SUKHUMVIT ROAD, BANGCHAK,
PHRA KHANONG, BANGKOK, 10260 THAILAND
TEL: +66-2-092-8600 / FAX: +66-2-043-1231-33

INDIA

MITSUBISHI ELECTRIC INDIA PVT., LTD.
Service Head office and South India Service Center (Bangalore)

CNC eXPerience Park, PLOT NO. 57/A, PEENYA PHASE 3, PEENYA INDUSTRIAL
AREA, BANGALORE 560058, KARNATAKA, INDIA
TEL : +91-80-4655-2121

• Chennai Service Satellite

• Coimbatore Service Satellite

• Hyderabad Service Satellite

North India Service Center (Gurgaon)

PLOT 517, GROUND FLOOR, UDYOG VIHAR PHASE-III, GURUGRAM 122008,
HARYANA, INDIA
TEL : +91-124-463-0300

• Ludhiana Service Satellite

• Panthnagar Service Satellite

• Delhi Service Satellite

• Jamshedpur Service Satellite

• Manesar Service Satellite

West India Service Center (Pune)

ICC-Devi GAURAV TECHNOLOGY PARK, UNIT NO.402, FOURTH FLOOR, NORTH
WING, SURVEY NUMBER 191-192 (P), NEXT to INDIAN CARD CLOTHING
COMPANY Ltd, OPP. VALLABH NAGAR, PIMPRI, PUNE- 411 018, MAHARASHTRA,
INDIA
TEL : +91-20-6819-2274

• Kolhapur Service Satellite

• Aurangabad Service Satellite

• Mumbai Service Satellite

West India Service Center (Ahmedabad)

204-209, 2ND FLOOR, 31FIVE, CORPORATE ROAD PRAHLADNAGAR,
AHMEDABAD -380015, GUJARAT, INDIA
TEL : +91-79-6777-7888

• Rajkot Service Satellite

CHINA

MITSUBISHI ELECTRIC AUTOMATION (CHINA) LTD. (CHINA FA CENTER)
CNC Call Center

TEL: +86-400-921-5130

Shanghai Service Center

NO.1386 HONG QIAO ROAD, CHANG NING QU, SHANGHAI 200336, CHINA
TEL: +86-21-2322-3030 / FAX: +86-21-2322-3000*8422

• Qingdao Service Center

• Suzhou Service Center

• Wuhan Service Center

• Ningbo Service Center

• Hefei Service Center

• Beijing Service Center

• Tianjin Service Center

• Xian Service Center

• Dalian Service Center

• Chengdu Service Center

Shenzhen Service Center

LEVEL8, GALAXY WORLD TOWER B, 1 YABAO ROAD, LONGGANG DISTRICT,
SHENZHEN 518129, CHINA
TEL: +86-755-2399-8272 / FAX: +86-755-8229-3686

• Dongguan Service Center

• Xiamen Service Center

KOREA

MITSUBISHI ELECTRIC AUTOMATION KOREA CO., LTD. (KOREA FA CENTER)
Korea Seoul Service Center

8F GANGSEO HANGANG XI-TOWER A, 401 YANGCHEON-RO, GANGSEO-GU,
SEOUL 07528 KOREA
TEL: +82-2-3660-9631 / FAX: +82-2-3664-8668

Korea Daegu Service Center

2F KT BLDG. 8, HOGUK-RO, BUK-GU, DAEGU 41518, KOREA
TEL: +82-53-382-7401 / FAX: +82-53-382-7412

Korea Changwon Technical Center

#205, 888, CHANGWON-DAERO, SEONGSAN-GU, CHANGWON-SI,
GYEONGSANGNAM-DO, 51532, KOREA
TEL: +82-55-261-5559 / FAX: +82-55-261-5558

TAIWAN

MITSUBISHI ELECTRIC TAIWAN CO., LTD. (TAIWAN FA CENTER)
Taiwan Taichung Service Center

NO.8-1, GONGYEQU 16TH RD., XITUN DIST., TAICHUNG CITY 40768,
TAIWAN
TEL: +886-4-2359-0688 / FAX: +886-4-2359-0689

Taiwan Taipei Service Center

11F, NO.88, SEC.6, ZHONGSHAN N. RD., SHILIN DIST., TAIPEI CITY 11155,
TAIWAN
TEL: +886-2-2833-5430 / FAX: +886-2-2833-5433

Taiwan Tainan Service Center

11F-1, NO.30, ZHONGZHENG S. RD., YONGKANG DIST., TAINAN CITY 71067,
TAIWAN
TEL: +886-6-252-5030 / FAX: +886-6-252-5031

OCEANIA

MITSUBISHI ELECTRIC AUSTRALIA PTY. LTD.
Oceania Service Center

348 VICTORIA ROAD, RYDALMERE, N.S.W. 2116 AUSTRALIA
TEL: +61-2-9684-7269 / FAX: +61-2-9684-7245

WARRANTY

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, repair
services shall be provided at no cost through
the distributor from which the product was
purchased or through a Mitsubishi Electric
service provider. Note, however, that this does
not apply if the customer was informed prior to
purchasing 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 the product to the end user,
provided the product purchased from
Mitsubishi Electric or a distributor in Japan is
installed in Japan (but in no event longer than
thirty (30) months, including distribution time
after shipment from Mitsubishi Electric or a
distributor).

Note that, in the case where the product
purchased from Mitsubishi Electric or a
distributor 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" below.

[Limitations]

(1) The machine tool builder is requested to

conduct an initial failure diagnosis, as a
general rule. The diagnosis may also be
carried out by Mitsubishi Electric or our
service provider for a fee at the machine tool
builder's request.

(2) This warranty applies only when the

conditions, method, environment, etc.,
of use are in compliance with the terms,
conditions and instructions that are set forth
in the instruction manual, user’s manual,
and the caution label affixed to the product,
etc.

(3) Even during the term of warranty, repair

costs will be charged to the customer in the
following cases:

(a) a failure caused by improper storage or

29 30

handling, carelessness or negligence,
etc., or a failure caused by a problem
with the customer's hardware or software

(b) a failure caused by any alteration, etc.,

to the product made by the customer
without Mitsubishi Electric’s approval

(c) a failure which could have been avoided

if the customer’s equipment in which
this product is incorporated had been
equipped with a safety device required
by applicable laws or has any function
or structure considered indispensable in
the light of industrial common sense

(d) a failure which could have been avoided

if consumable parts designated in the
instruction manual, etc. had been duly
maintained and replaced

(e) any replacement of consumable parts

(including the 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 earthquakes,
lightning, and natural disasters

(g) a failure which could not have been

foreseen under technologies available at
the time of shipment of this product from
Mitsubishi Electric

(h) any other failures which are not

attributable to Mitsubishi Electric or
which the customer acknowledges are
not attributable to Mitsubishi Electric

2. Service in Overseas Countries

If the customer installs a product purchased
from Mitsubishi Electric in a machine or
equipment and exports it to any country other
than where it was purchased, the customer may
sign a paid warranty contract with our local FA
center.
This applies in 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 product was purchased.

3. Exclusion of Responsibility for
Compensation against Loss of
Opportunity, Secondary Loss, etc.

Regardless of the gratis warranty term,
Mitsubishi Electric shall not be liable for
compensation for:

(1) Damage arising from any cause found not to

be the responsibility of Mitsubishi Electric.

(2) Lost opportunity or lost profit incurred by

the user due to a failure of a Mitsubishi
Electric product.

(3) Special damage or secondary damage,

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 use of this product, applications should

be those that will not result in a serious
damage even if a failure or malfunction
occurs in the product, and a backup or fail­safe function should operate on an external
system when any failure or malfunction
occurs to the product.

(2) Mitsubishi Electric CNC is designed and

manufactured solely for applications to
machine tools for industrial purposes. Do
not use this product in applications other
than those specified above, especially
those which have substantial influence on
public interest or which are expected to
have significant influence on human lives or
properties.

* Trademarks
MELSEC, CC-Link, CC-Link/LT and CC-Link IE
are either trademarks or registered trademarks of
Mitsubishi Electric Corporation in Japan and/or other
countries.
Android is a trademarks of Google LLC.
EtherNet/IP is a trademarks of ODVA, Inc.
Microsoft® and Windows® are either trademarks or
registered trademarks of Microsoft Corporation in the
United States and/or other countries.
The SD logo and SDHC logo are either registered
trademarks or trademarks of SD-3C, LLC.
PROFIBUS-DP is a trademark of Profibus International.
QR Code is a trademark of DENSO WAVE Inc.
VNC is a registered trademark of RealVNC Ltd. in the
United States and other countries.
Other company and product names that appear
in this manual are trademarks or registered
trademarks of the respective companies.
In some cases, trademark symbols such as ™ or ® are
not specified in this manual.

[YouTube logo] is a trademark or registered trademark of Google LLC.

Official Mitsubishi Electric Mechatronics YouTube account

User support videos are available, including how to
backup/restore data and replace batteries, and an
introduction to our products and technologies.

To ensure proper use of the products listed
in this catalog, please be sure to read the
instruction manual prior to use.

[Facebook logo] is a trademark or registered trademark of Meta Platforms, Inc.

Official Mitsubishi Electric CNC Facebook/LinkedIn account

Visit our page for information about exhibitions, products, technologies, and FAQ.

[LinkedIn logo] is a trademark or registered trademark of LinkedIn Corporation.

M800V/M80V Series

BNP-A1243-G / ENG

K-KL2-1-CA732-G NA2411 Printed in Japan [IP]

HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN

Printed November 2024

All trademarks acknowledged.