MITSUBISHI
ELECTRIC
FACTORY AUTOMATION
Global partner. Local friend.
FR-Family
Frequency Inverters
Intelligent Drive Technology
Top of Every Class
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Mitsubishi Electric Europe B.V. /// FA - European Business Group /// Gothaer Straße 8 /// D-40880 Ratingen /// Germany
Tel.: +49(0)2102-4860 /// Fax: +49(0)2102-4861120 /// info@mitsubishi-automation.com /// www.mitsubishi-automation.com
Specifications subject to change /// Art.-Nr. 206313-A /// 07.2007
All trademarks and copyrights acknowledged.
Cost-Effective /// Reliable /// Safe ///
User-Friendly /// Network-Capable /// Flexible ///
Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi
Universally accepted
Contents
The six ingredients for success
The right solution everytime
FR-A700 – High-end inverters
Frequency inverters made by Mitsubishi Electric carry
all the major national and international marks of
conformity.
2
4–5
6
7–9
FR-F700 – Power saving inverters
10
FR-E500 – Compact inverters
11
FR-S500 – Micro inverters
12
Peripherals and software
13
Installed over 10
million times
Always one step
ahead of technology
Increased productivity
14
Drives for all conceivable applications:
there’s something for everyone at Mitsubishi Electric! With more than 10 million of
our frequency inverters installed we are
one of the largest manufacturers in the
world. Day after day, in heavy-duty industrial use, our frequency inverters prove
their high levels of cost-effectiveness, reliability, functionality and flexibility.
The new technologies applied by Mitsubishi Electric in developing their frequency
inverters result in highly dynamic drive systems and genuine power misers. Two new
functions indicative of this innovative
strength are RSV Control (Real Sensorless
Vector Control) and OEC Control (Optimum
Excitation Control).
Optimum speed
15
Extreme cost efficiency
16
Potential savings
17
A world of applications
18
Frequency inverters developed by Mitsubishi Electric are used routinely in many sectors and systems – and that’s not all.
Mitsubishi Electric know-how also features
in many frequency inverters made by other
manufacturers who are utterly convinced
by its technical edge and economic
benefit.
Meeting global
norms and standards
Mitsubishi Electric’s frequency inverters
meet all the standards and specifications laid
down in the EU Low Voltage Directive
73/23/EEC and the Machinery Directive
98/37/EC. Needless to say, all the units carry
the CE mark and are certified as conforming
to UL, cUL and GOST.
3
Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi frequency inverters /// Mitsubishi
Universally accepted
Contents
The six ingredients for success
The right solution everytime
FR-A700 – High-end inverters
Frequency inverters made by Mitsubishi Electric carry
all the major national and international marks of
conformity.
2
4–5
6
7–9
FR-F700 – Power saving inverters
10
FR-E500 – Compact inverters
11
FR-S500 – Micro inverters
12
Peripherals and software
13
Installed over 10
million times
Always one step
ahead of technology
Increased productivity
14
Drives for all conceivable applications:
there’s something for everyone at Mitsubishi Electric! With more than 10 million of
our frequency inverters installed we are
one of the largest manufacturers in the
world. Day after day, in heavy-duty industrial use, our frequency inverters prove
their high levels of cost-effectiveness, reliability, functionality and flexibility.
The new technologies applied by Mitsubishi Electric in developing their frequency
inverters result in highly dynamic drive systems and genuine power misers. Two new
functions indicative of this innovative
strength are RSV Control (Real Sensorless
Vector Control) and OEC Control (Optimum
Excitation Control).
Optimum speed
15
Extreme cost efficiency
16
Potential savings
17
A world of applications
18
Frequency inverters developed by Mitsubishi Electric are used routinely in many sectors and systems – and that’s not all.
Mitsubishi Electric know-how also features
in many frequency inverters made by other
manufacturers who are utterly convinced
by its technical edge and economic
benefit.
Meeting global
norms and standards
Mitsubishi Electric’s frequency inverters
meet all the standards and specifications laid
down in the EU Low Voltage Directive
73/23/EEC and the Machinery Directive
98/37/EC. Needless to say, all the units carry
the CE mark and are certified as conforming
to UL, cUL and GOST.
3
The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The
The six ingredients for success
Easily replaced fan unit
during servicing
RJ-45 port for programming unit and
RS-485 communication interface
Cost effectiveness
Energy savings of up to 60% can be made
by using Mitsubishi frequency inverters,
thereby also reducing CO2 emissions and
protecting the environment.
Removable parameter unit
with digital dial operation
Second RS-485 interface
Convenience
The integral multifunction user panel, complete with digital dial, facilitates rapid and
efficient input of all necessary drive parameters. It can also provide display of various performance data and error messages.
Reliability
Safe and fault-free operation is guaranteed
by various protective mechanisms and
overload functions, top-quality temperature-resistant capacitors, permanently
lubricated fans and dual-coated power and
control PCBs.
Standards
In addition to complying with well-known
international norms and standards, the frequency inverters are also certified by the
Det Norske Veritas foundation (DNV).
4
Flexibility
Compatible with all major field bus systems such as Profibus/DP, DeviceNet,
CC-Link, CANopen, Modbus and LonWorks
(the international communication standard
in building services automation).
Choice of several easy-to-install
boards available as
frequency inverter
add-ons
Integrated EMC filter with
disable function
Functionality
Removable terminal block
Not all features are available on all Inverters. Please check applicability.
Functionality, compatibility and perfect
mechanical design are the main features
of the frequency inverters supplied by
Mitsubishi Electric.
5
The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The success factors /// The
The six ingredients for success
Easily replaced fan unit
during servicing
RJ-45 port for programming unit and
RS-485 communication interface
Cost effectiveness
Energy savings of up to 60% can be made
by using Mitsubishi frequency inverters,
thereby also reducing CO2 emissions and
protecting the environment.
Removable parameter unit
with digital dial operation
Second RS-485 interface
Convenience
The integral multifunction user panel, complete with digital dial, facilitates rapid and
efficient input of all necessary drive parameters. It can also provide display of various performance data and error messages.
Reliability
Safe and fault-free operation is guaranteed
by various protective mechanisms and
overload functions, top-quality temperature-resistant capacitors, permanently
lubricated fans and dual-coated power and
control PCBs.
Standards
In addition to complying with well-known
international norms and standards, the frequency inverters are also certified by the
Det Norske Veritas foundation (DNV).
4
Flexibility
Compatible with all major field bus systems such as Profibus/DP, DeviceNet,
CC-Link, CANopen, Modbus and LonWorks
(the international communication standard
in building services automation).
Choice of several easy-to-install
boards available as
frequency inverter
add-ons
Integrated EMC filter with
disable function
Functionality
Removable terminal block
Not all features are available on all Inverters. Please check applicability.
Functionality, compatibility and perfect
mechanical design are the main features
of the frequency inverters supplied by
Mitsubishi Electric.
5
Extensive product range /// Extensive product range /// Extensive product range /// FR-A700 – High-end inverter /// FR-A700 – High-end inverter /// FR-A700 – High-end inverter ///
The right solution
every time
FR-A700 –
High-end inverter
These new frequency inverters, developed
by Mitsubishi Electric, boast cutting-edge
technologies for optimum motor torque
and speed control.
Up for new
challenges
INVERTER
The FR-A700 series offers high-tech drive
engineering at its best. The key features
required in a modern day, high-end, frequency inverter include; drive performance, the range of drive functions and
technology as well as control functions,
compatibility and overall mechanical
design. The new line of FR-A700 frequency
inverters combines all these features to
maximum effect in terms of performance,
cost-effectiveness and flexibility for mechanical engineering and process plant
engineering applications.
CAPACITY
A diverse product range helps you make the right product choice.
Well set
Mitsubishi Electric always has the right
drive system for straightforward and complex applications alike. With so many sizes,
outputs and features, the right frequency
inverter solution is available for every conceivable drive requirement.
Indeed, in applications where space is at a
premium, it can pay to know that Mitsubishi Electric frequency inverters have
numerous overload versions.
In many cases a smaller frequency inverter
can be used - logically resulting in reduced
purchase costs, lower running costs and a
smaller footprint.
The FR-A700 is suitable for use in a broad range of applications e.g. conveying and handling systems
Technology functions, such as “Real Sensorless Vector Control” and “Online Autotuning”, provide excellent speed stability and
smooth motor-shaft rotation. Other
functions include controlled power reduction after emergency shutdown, numerous
digital inputs and outputs, integrated PLC
functions, and many other new features
which characterise the latest generation of
high-end inverters to be engineered by
Mitsubishi Electric.
The majority of frequency inverters supplied by Mitsubishi Electric come as standard
with 200% overload capacity. The benefit
for the user is that our frequency inverters
offer double the output of comparable
types made by our competitors.
FR-A700
at a glance
Power range
FR-A740: 0.4 – 630 kW
Input
380 – 480/500* V AC 3ph (50/60 Hz)
Dynamics and precision: FR-A700
Intelligent solutions for every requirement
Output frequency
0 – 400 Hz
Protection
up to 22 kW IP20, from 30 kW IP00
Control
V/f, OEC, RSV, CLV
Integrated interfaces
Modbus RTU, RS485, USB
Optional extras
Analogue + digital I/Os,
encoder feedback, master-save
Network links
CC-Link, Profibus/DP, Ethernet, SSCNET,
CANopen, DeviceNet, LonWorks
EMC protection
Integrated
*Depends on performance class
6
7
Extensive product range /// Extensive product range /// Extensive product range /// FR-A700 – High-end inverter /// FR-A700 – High-end inverter /// FR-A700 – High-end inverter ///
The right solution
every time
FR-A700 –
High-end inverter
These new frequency inverters, developed
by Mitsubishi Electric, boast cutting-edge
technologies for optimum motor torque
and speed control.
Up for new
challenges
INVERTER
The FR-A700 series offers high-tech drive
engineering at its best. The key features
required in a modern day, high-end, frequency inverter include; drive performance, the range of drive functions and
technology as well as control functions,
compatibility and overall mechanical
design. The new line of FR-A700 frequency
inverters combines all these features to
maximum effect in terms of performance,
cost-effectiveness and flexibility for mechanical engineering and process plant
engineering applications.
CAPACITY
A diverse product range helps you make the right product choice.
Well set
Mitsubishi Electric always has the right
drive system for straightforward and complex applications alike. With so many sizes,
outputs and features, the right frequency
inverter solution is available for every conceivable drive requirement.
Indeed, in applications where space is at a
premium, it can pay to know that Mitsubishi Electric frequency inverters have
numerous overload versions.
In many cases a smaller frequency inverter
can be used - logically resulting in reduced
purchase costs, lower running costs and a
smaller footprint.
The FR-A700 is suitable for use in a broad range of applications e.g. conveying and handling systems
Technology functions, such as “Real Sensorless Vector Control” and “Online Autotuning”, provide excellent speed stability and
smooth motor-shaft rotation. Other
functions include controlled power reduction after emergency shutdown, numerous
digital inputs and outputs, integrated PLC
functions, and many other new features
which characterise the latest generation of
high-end inverters to be engineered by
Mitsubishi Electric.
The majority of frequency inverters supplied by Mitsubishi Electric come as standard
with 200% overload capacity. The benefit
for the user is that our frequency inverters
offer double the output of comparable
types made by our competitors.
FR-A700
at a glance
Power range
FR-A740: 0.4 – 630 kW
Input
380 – 480/500* V AC 3ph (50/60 Hz)
Dynamics and precision: FR-A700
Intelligent solutions for every requirement
Output frequency
0 – 400 Hz
Protection
up to 22 kW IP20, from 30 kW IP00
Control
V/f, OEC, RSV, CLV
Integrated interfaces
Modbus RTU, RS485, USB
Optional extras
Analogue + digital I/Os,
encoder feedback, master-save
Network links
CC-Link, Profibus/DP, Ethernet, SSCNET,
CANopen, DeviceNet, LonWorks
EMC protection
Integrated
*Depends on performance class
6
7
FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A
The new drive
behind your success
PLC functions
The PLC functions integrated in the
FR-A700 mean optimum tailoring to the
requirements of the user. The PLC offers
direct access to all the drive parameters
and will, on request, undertake plant management as a stand-alone control and monitoring unit.
high starting torque. As such, the FR-A700
is capable of achievements which used to
be the reserve of high-end d.c. or servo
systems.
Mitsubishi Electric’s programming software
GX Developer is a straightforward tool for
programming the PLC functions.
Intelligent functions
for any application
쐽 Sensorless vector control (RSV)
Equipped with their new RSV function
(Real Sensorless Vector Control), Mitsubishi
Electric frequency inverters have the ability
to control the speed and torque of a
single-phase a.c. motor without an encoder. The result is maximum performance
across the full speed range in terms of
dynamic response, precision and control.
The motor thus sustains optimum dynamic
speed characteristics, smooth rotation and
Frequency inverters in the FR-A700 range
monitor their own operational reliability.
The innovative diagnosis and maintenance
functions monitor all the components
which are subject to wear and issue prior
warning when due. Precautions are therefore in place to prevent failure and long
downtimes.
Clear user interface layout with project navigator
for rapid programmiung
Another tuning process (easy gain tuning)
simplifies optimisation of the speed regula-
Network-capable
1200
1000
Speed
FR-A700: The wide power zone, of 0.4 to 630 kW’s, is covered by range of conveniently sized units.
800
600
400
200
1
Time t
2
3
Without tuning (blue line) there are significant variations in the setpoint speed, whereas there is a great reduction in overshoot with tuning (green line).
tor. The sequential response of the motor is
automatically detected and the control
parameters adjusted for optimum performance. Labour-intensive manual tuning of
the control parameters is a thing of the past.
쐽 Economy-rate positioning
The FR-A700 can also be used for positioning in conjunction with the “Closed Loop
Vector Control”. The control in this case is
taken care of by a sequencer, digital inputs
or a network.
All the frequency inverters in the FR-A700
series can be used with servo drives within
a motion system. Connection is simple
using Plug and Play via SSCNET III. The
FR-A700 can even work as a leading axis
drive. As such, there is no reason why the
drives cannot be integrated further in
existing control concepts.
Self-diagnosis for
easy maintenance
쐽 Autotuning
Precise motor data forms the basis for optimum control of the vector drive without an
encoder. The new generation of inverters
comes with an autotuning function which
identifies all the parameters required for
the motor model in less than one minute,
even if the motor is not running.
Sufficient memory is available to store data
records for up to two motors. Online autotuning offers the facility to automatically
record and offset changes to the data in
operation, e.g. caused by changes in
temperature.
Integration in
positioning systems
The FR-A700 is highly versatile in terms of
communication options. It is supplied as
standard with an integrated USB port and a
link to Modbus RTU. Other optional network connections include Profibus/DP,
CC-Link, Ethernet and CANopen right
through to the motion control network
SSCNET III.
Many protective mechanisms and overload functions guarantee fault-free operation and therefore supreme availability
and operational reliability.
Extended
service life
Mitsubishi Electric frequency inverters are
noted for their durability. The FR-A700 also
sets the benchmark in terms of product
life. It is designed to last for over 10 years
giving an investment which pays time after
time.
Tuning made simple
Convenient
operation
The FR-DU07 parameterising unit, complete with digital dial and 7-segment LED
display, is supplied with the product for
manual access to all parameters and operating modes. Other parameter units can be
supplied on request.
The FR Configurator parameter setting
software provides a number of handy
functions. These include a graphical
machine analysis tool for optimising the
drive system or an automatic conversion
tool for a smooth changeover from a previous model to the latest generation of
machines.
The FR-A700 has an integrated USB interface for connecting a PC or notebook.
Fourfold overload
capacity
Many manufacturers of frequency inverters have specified various overload rating
classes for their products - but rarely more
than two. The FR-A700 is designed for no
less than four overload ranges! This makes
it easier to select the best frequency inverter for any application.
Suspended loads can be positioned accurately thanks
to motor and encoder feedback.
8
9
FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A700 /// Supreme drive performance /// FR-A
The new drive
behind your success
PLC functions
The PLC functions integrated in the
FR-A700 mean optimum tailoring to the
requirements of the user. The PLC offers
direct access to all the drive parameters
and will, on request, undertake plant management as a stand-alone control and monitoring unit.
high starting torque. As such, the FR-A700
is capable of achievements which used to
be the reserve of high-end d.c. or servo
systems.
Mitsubishi Electric’s programming software
GX Developer is a straightforward tool for
programming the PLC functions.
Intelligent functions
for any application
쐽 Sensorless vector control (RSV)
Equipped with their new RSV function
(Real Sensorless Vector Control), Mitsubishi
Electric frequency inverters have the ability
to control the speed and torque of a
single-phase a.c. motor without an encoder. The result is maximum performance
across the full speed range in terms of
dynamic response, precision and control.
The motor thus sustains optimum dynamic
speed characteristics, smooth rotation and
Frequency inverters in the FR-A700 range
monitor their own operational reliability.
The innovative diagnosis and maintenance
functions monitor all the components
which are subject to wear and issue prior
warning when due. Precautions are therefore in place to prevent failure and long
downtimes.
Clear user interface layout with project navigator
for rapid programmiung
Another tuning process (easy gain tuning)
simplifies optimisation of the speed regula-
Network-capable
1200
1000
Speed
FR-A700: The wide power zone, of 0.4 to 630 kW’s, is covered by range of conveniently sized units.
800
600
400
200
1
Time t
2
3
Without tuning (blue line) there are significant variations in the setpoint speed, whereas there is a great reduction in overshoot with tuning (green line).
tor. The sequential response of the motor is
automatically detected and the control
parameters adjusted for optimum performance. Labour-intensive manual tuning of
the control parameters is a thing of the past.
쐽 Economy-rate positioning
The FR-A700 can also be used for positioning in conjunction with the “Closed Loop
Vector Control”. The control in this case is
taken care of by a sequencer, digital inputs
or a network.
All the frequency inverters in the FR-A700
series can be used with servo drives within
a motion system. Connection is simple
using Plug and Play via SSCNET III. The
FR-A700 can even work as a leading axis
drive. As such, there is no reason why the
drives cannot be integrated further in
existing control concepts.
Self-diagnosis for
easy maintenance
쐽 Autotuning
Precise motor data forms the basis for optimum control of the vector drive without an
encoder. The new generation of inverters
comes with an autotuning function which
identifies all the parameters required for
the motor model in less than one minute,
even if the motor is not running.
Sufficient memory is available to store data
records for up to two motors. Online autotuning offers the facility to automatically
record and offset changes to the data in
operation, e.g. caused by changes in
temperature.
Integration in
positioning systems
The FR-A700 is highly versatile in terms of
communication options. It is supplied as
standard with an integrated USB port and a
link to Modbus RTU. Other optional network connections include Profibus/DP,
CC-Link, Ethernet and CANopen right
through to the motion control network
SSCNET III.
Many protective mechanisms and overload functions guarantee fault-free operation and therefore supreme availability
and operational reliability.
Extended
service life
Mitsubishi Electric frequency inverters are
noted for their durability. The FR-A700 also
sets the benchmark in terms of product
life. It is designed to last for over 10 years
giving an investment which pays time after
time.
Tuning made simple
Convenient
operation
The FR-DU07 parameterising unit, complete with digital dial and 7-segment LED
display, is supplied with the product for
manual access to all parameters and operating modes. Other parameter units can be
supplied on request.
The FR Configurator parameter setting
software provides a number of handy
functions. These include a graphical
machine analysis tool for optimising the
drive system or an automatic conversion
tool for a smooth changeover from a previous model to the latest generation of
machines.
The FR-A700 has an integrated USB interface for connecting a PC or notebook.
Fourfold overload
capacity
Many manufacturers of frequency inverters have specified various overload rating
classes for their products - but rarely more
than two. The FR-A700 is designed for no
less than four overload ranges! This makes
it easier to select the best frequency inverter for any application.
Suspended loads can be positioned accurately thanks
to motor and encoder feedback.
8
9
FR-F700 – The power saving inverter /// FR-F700 – The power saving inverter /// FR-E500 – The compact inverter /// FR-E500 – The compact inverter /// FR-E500 – The compact invert
FR-F700 –
The power saving inverter
User-friendly
operation
The inverters in the FR-E500 series are
all-rounders and miniature masterpieces
given their compact size.
The built-in “digital dial” permits the efficient input of all the necessary drive parameters, cutting down on both
programming and start-up time.
Small and powerful
Long service life
The FR-F700 can lay claim to a 10-year service life thanks to advanced capacitors and
ventilators. These features, along with its
simple maintenance and automatic warning signals, make the FR-F700 one of the
most reliable inverters on the market.
Pump systems in industry - one domain of the FR-F700 frequency inverters
The frequency inverters in the FR-F700
range have been specially designed for
pump and fan applications including heating, ventilation and air-conditioning
installations. Besides their protection
ratings IP00/IP20 (FR-F740) and IP54
(FR-F746), the outstanding features of
these power-saving frequency inverters
include their simple but safe operation and
start-up, perfect control management and
optional network-capability.
Effective
energy savings
Economic powerhouse: the FR-F700
Pumps and fans are particularly good targets for great reductions in energy consumption. Energy costs can be slashed by
up to 60%, notably in the lower speed or
light load range of such applications.
Additional energy savings are effected by
the cutting-edge “OEC technology” developed by Mitsubishi Electric. It supplies the
motor with the optimum magnetic flux at
any given time, thereby reducing losses.
The result is maximum motor performance
teamed with supreme efficiency.
FR-E500 –
The compact inverter
FR-F740/746
at a glance
Power range
FR-F740: 0.75 – 630 kW
FR-F746: 0.75 – 55 kW
Input
380 – 480/500* V AC 3ph (50/60 Hz)
Output frequency
0 – 400 Hz
Protection
FR-F740: up to 30 kW IP20,
from 37 kW IP00
FR-F746: IP54
Control
V/f, OEC, SMFV
Integrated interfaces
Modbus RTU, RS485
Optional extras
Analogue + digital I/Os
Network links
CC-Link, Ethernet, Profibus/DP, LonWorks,
DeviceNet, Siemens FLN, Metasys N2
These inverters continue to prove their
worth in many applications, from textile
machinery, conveying and handling systems, door and gate opening mechanisms
right through to fans and pumps. Featuring
Mitsubishi Electric’s advanced vector control they can reach a torque of 150% at a
frequency of just one hertz. Even with
highly variable motor characteristics this is
still possible thanks to the autotuning
function. This means as much power as you
could possibly want, in any operating environment and even at the lowest speeds.
Intelligent
control
Thanks to the integrated PID control these
inverters can be used, for example, to control pump flow or for temperature control
without any additional expense.
Precision movement of products and goods with an FR-E500, even over long distances.
Minimum
running noise
The FR-E500 line has a “Soft PVM” function,
representing an advancement from the
conventional noise reduction functions. If
this function is selected there is a considerable reduction in running noise and disturbance voltage, even with low timing
frequencies. With frequency jumps programmed to be released at specific times,
the operating noise is comparable to a
gentle rush of water.
Network-capable
Never taller than 150 mm and yet up to 7.5 kW in output: the FR-E500
The FR-E500 can be connected to open
field bus systems like Profibus/DP, DeviceNet and CC-Link. Further communication
facilities, such as the integrated RS485
interface enable multi-drop applications,
with up to 32 stations, and permit links to
PCs and visual display systems.
FR-E500
at a glance
Power range
FR-E520S EC: 0.4 – 2.2 kW
FR-E540 EC: 0.4 – 7.5 kW
Input
FR-E520S EC: 200-240 V AC 1ph (50/60 Hz)
FR-E540 EC: 380-480 V AC 3ph (50/60 Hz)
Output frequency
0 – 400 Hz
Protection
IP 20
Control
V/f, Vector Control
Integrated interfaces
RS 485
Network links
Profibus/DP, CC-Link, DeviceNet,
CANopen
*Depends on performance class
10
11
FR-F700 – The power saving inverter /// FR-F700 – The power saving inverter /// FR-E500 – The compact inverter /// FR-E500 – The compact inverter /// FR-E500 – The compact invert
FR-F700 –
The power saving inverter
User-friendly
operation
The inverters in the FR-E500 series are
all-rounders and miniature masterpieces
given their compact size.
The built-in “digital dial” permits the efficient input of all the necessary drive parameters, cutting down on both
programming and start-up time.
Small and powerful
Long service life
The FR-F700 can lay claim to a 10-year service life thanks to advanced capacitors and
ventilators. These features, along with its
simple maintenance and automatic warning signals, make the FR-F700 one of the
most reliable inverters on the market.
Pump systems in industry - one domain of the FR-F700 frequency inverters
The frequency inverters in the FR-F700
range have been specially designed for
pump and fan applications including heating, ventilation and air-conditioning
installations. Besides their protection
ratings IP00/IP20 (FR-F740) and IP54
(FR-F746), the outstanding features of
these power-saving frequency inverters
include their simple but safe operation and
start-up, perfect control management and
optional network-capability.
Effective
energy savings
Economic powerhouse: the FR-F700
Pumps and fans are particularly good targets for great reductions in energy consumption. Energy costs can be slashed by
up to 60%, notably in the lower speed or
light load range of such applications.
Additional energy savings are effected by
the cutting-edge “OEC technology” developed by Mitsubishi Electric. It supplies the
motor with the optimum magnetic flux at
any given time, thereby reducing losses.
The result is maximum motor performance
teamed with supreme efficiency.
FR-E500 –
The compact inverter
FR-F740/746
at a glance
Power range
FR-F740: 0.75 – 630 kW
FR-F746: 0.75 – 55 kW
Input
380 – 480/500* V AC 3ph (50/60 Hz)
Output frequency
0 – 400 Hz
Protection
FR-F740: up to 30 kW IP20,
from 37 kW IP00
FR-F746: IP54
Control
V/f, OEC, SMFV
Integrated interfaces
Modbus RTU, RS485
Optional extras
Analogue + digital I/Os
Network links
CC-Link, Ethernet, Profibus/DP, LonWorks,
DeviceNet, Siemens FLN, Metasys N2
These inverters continue to prove their
worth in many applications, from textile
machinery, conveying and handling systems, door and gate opening mechanisms
right through to fans and pumps. Featuring
Mitsubishi Electric’s advanced vector control they can reach a torque of 150% at a
frequency of just one hertz. Even with
highly variable motor characteristics this is
still possible thanks to the autotuning
function. This means as much power as you
could possibly want, in any operating environment and even at the lowest speeds.
Intelligent
control
Thanks to the integrated PID control these
inverters can be used, for example, to control pump flow or for temperature control
without any additional expense.
Precision movement of products and goods with an FR-E500, even over long distances.
Minimum
running noise
The FR-E500 line has a “Soft PVM” function,
representing an advancement from the
conventional noise reduction functions. If
this function is selected there is a considerable reduction in running noise and disturbance voltage, even with low timing
frequencies. With frequency jumps programmed to be released at specific times,
the operating noise is comparable to a
gentle rush of water.
Network-capable
Never taller than 150 mm and yet up to 7.5 kW in output: the FR-E500
The FR-E500 can be connected to open
field bus systems like Profibus/DP, DeviceNet and CC-Link. Further communication
facilities, such as the integrated RS485
interface enable multi-drop applications,
with up to 32 stations, and permit links to
PCs and visual display systems.
FR-E500
at a glance
Power range
FR-E520S EC: 0.4 – 2.2 kW
FR-E540 EC: 0.4 – 7.5 kW
Input
FR-E520S EC: 200-240 V AC 1ph (50/60 Hz)
FR-E540 EC: 380-480 V AC 3ph (50/60 Hz)
Output frequency
0 – 400 Hz
Protection
IP 20
Control
V/f, Vector Control
Integrated interfaces
RS 485
Network links
Profibus/DP, CC-Link, DeviceNet,
CANopen
*Depends on performance class
10
11
FR-S500 – The micro inverter /// FR-S500 – The micro inverter /// FR-S500 – The micro inverter /// Peripherals and software /// Peripherals and software /// Peripherals and software /// Per
FR-S500 –
The micro inverter
Peripherals
and software
User friendliness
The inbuilt parameter unit, with digital dial,
allows efficient input of all the necessary
drive parameters. For the user this means
time savings and therefore cost reductions.
An alternative possiblity is to use an optional multilingual alphanumeric parameter
unit with integral copy function.
Rapid installation
Given its compact and neat design, the
FR-S500 is synonymous with ease of installation and rapid start-up. It can also easily be
installed on a DIN rail in the switch cabinet.
FR-S500
at a glance
Revolving doors and gateways are often controlled with FR-S500 frequency converters
The frequency inverters in the FR-S500
series set the benchmark in the microdrive
sector and make it easier to take the first
step into modern variable-speed drive
technology. They are characterised by their
ultra-compact size and an impressive array
of technology functions. The FR-S500 series
is therefore the ideal solution for simple
drive requirements with space constraints.
Small but
high-powered
Compact and user-friendly: the FR-S500
Power range
FR-S520: 0.2 – 1.5 kW
FR-S540: 0.4 – 3.7 kW
Input
FR-S520: 200-240 V AC 1ph (50/60 Hz)
FR-S540: 380-480 V AC 3ph (50/60 Hz)
Output frequency
0 – 120 Hz
Protection
IP 20
Handy parameter
units
The range of functions can be expanded by
optional boards, such as additional analogue/digital inputs/outputs.
For added ease and convenience users may
opt for integrated parameter units
(FR-S500 only) or clip-on parameter units
(for all other inverters). A numeric keypad is
available for direct input of numerical
values. A four-line LCD display provides
plain text information about performance
data, parameter names, status signals and
error messages – in eight languages.
Strong and smart
Configuring the drive via a Windows laptop
The separate Floor Standing Unit (FSU) for
FR-F740 Inverters is a simple way of accommodating a free-standing frequency inverter
system complying with protection class IP20
for installation in an electrical operating area.
The robust base units come pre-assembled
and permit optional integration of a link
reactor, a circuit breaker or – if required – an
additional EMC filter.
User-friendly
set-up software
The user-friendly set-up software runs on
Windows, i.e. the inverters can be configured using standard PCs. Several inverters
can be set up, operated and monitored in
parallel in one network. Connection is
either via an RS458 interface or the
optional SC-FR PC adapter cable.
Parameter units FR-DU07 and FR-PA02-02
Wide range of
expansion options
Optional extras are available to optimise
and expand system capability. Additional
brake components, reactors and filters guarantee operation even in difficult conditions.
Control
V/f, automatic torque boost
FR-A 740 on IP-20 protection class base unit
Integrated interfaces
RS485
Quick and easy setting of the inverter
The FR-S500 series is highly versatile for
applications in craft, trade and industry.
The inverter’s power module allows automatic torque boost if required, as it is designed with up to 200% overload capacity,
which has a substantial stabilising effect on
the drive response. Its range of application
is very broad, due in part to its user-friendliness.
Connector system for time-saving installation
12
13
FR-S500 – The micro inverter /// FR-S500 – The micro inverter /// FR-S500 – The micro inverter /// Peripherals and software /// Peripherals and software /// Peripherals and software /// Per
FR-S500 –
The micro inverter
Peripherals
and software
User friendliness
The inbuilt parameter unit, with digital dial,
allows efficient input of all the necessary
drive parameters. For the user this means
time savings and therefore cost reductions.
An alternative possiblity is to use an optional multilingual alphanumeric parameter
unit with integral copy function.
Rapid installation
Given its compact and neat design, the
FR-S500 is synonymous with ease of installation and rapid start-up. It can also easily be
installed on a DIN rail in the switch cabinet.
FR-S500
at a glance
Revolving doors and gateways are often controlled with FR-S500 frequency converters
The frequency inverters in the FR-S500
series set the benchmark in the microdrive
sector and make it easier to take the first
step into modern variable-speed drive
technology. They are characterised by their
ultra-compact size and an impressive array
of technology functions. The FR-S500 series
is therefore the ideal solution for simple
drive requirements with space constraints.
Small but
high-powered
Compact and user-friendly: the FR-S500
Power range
FR-S520: 0.2 – 1.5 kW
FR-S540: 0.4 – 3.7 kW
Input
FR-S520: 200-240 V AC 1ph (50/60 Hz)
FR-S540: 380-480 V AC 3ph (50/60 Hz)
Output frequency
0 – 120 Hz
Protection
IP 20
Handy parameter
units
The range of functions can be expanded by
optional boards, such as additional analogue/digital inputs/outputs.
For added ease and convenience users may
opt for integrated parameter units
(FR-S500 only) or clip-on parameter units
(for all other inverters). A numeric keypad is
available for direct input of numerical
values. A four-line LCD display provides
plain text information about performance
data, parameter names, status signals and
error messages – in eight languages.
Strong and smart
Configuring the drive via a Windows laptop
The separate Floor Standing Unit (FSU) for
FR-F740 Inverters is a simple way of accommodating a free-standing frequency inverter
system complying with protection class IP20
for installation in an electrical operating area.
The robust base units come pre-assembled
and permit optional integration of a link
reactor, a circuit breaker or – if required – an
additional EMC filter.
User-friendly
set-up software
The user-friendly set-up software runs on
Windows, i.e. the inverters can be configured using standard PCs. Several inverters
can be set up, operated and monitored in
parallel in one network. Connection is
either via an RS458 interface or the
optional SC-FR PC adapter cable.
Parameter units FR-DU07 and FR-PA02-02
Wide range of
expansion options
Optional extras are available to optimise
and expand system capability. Additional
brake components, reactors and filters guarantee operation even in difficult conditions.
Control
V/f, automatic torque boost
FR-A 740 on IP-20 protection class base unit
Integrated interfaces
RS485
Quick and easy setting of the inverter
The FR-S500 series is highly versatile for
applications in craft, trade and industry.
The inverter’s power module allows automatic torque boost if required, as it is designed with up to 200% overload capacity,
which has a substantial stabilising effect on
the drive response. Its range of application
is very broad, due in part to its user-friendliness.
Connector system for time-saving installation
12
13
Increased productivity /// Paper production /// Increased productivity /// Paper production /// Optimum speed /// Conveyor belts /// Optimum speed /// Conveyor belts /// Optim
Increased
productivity
Optimum
speed
This is precisely where top speed and torque response times are required for efficient compensation for sudden changes in
load. Response times of no more than 5 ms
are guaranteed to prevent product congestion and avert any risk to the follow-up
process.
Another feature which helps in this regard
is the power-down braking function which
controls the deceleration of all the drives
after a power failure or an emergency
machine shutdown. All this translates into
maximum productivity and quality.
An advanced version of this control has the
ability to operate up to four motors consecutively in alternate and/or changeover
mode via one single frequency inverter.
Rapid installation
and start-up
Prepared for
the toughest
assignments
High temperatures and high air humidity
are routine conditions in the printing and
paper industry. The capacitors in the
top-of-the-range models, the FR-F700 and
FR-A700, are therefore designed to withstand internal temperatures of 105°C. The
power and control PCBs have two coatings
and the cooling fans are housed in sealed,
specially lubricated industrial bearings.
There is no better way to prepare frequency
inverters to meet human and mechanical
requirements.
Simplified schematic of paper production
Synchronism – the
ultimate priority
Precise synchronism of the drives is synonymous with maximum productivity and
top quality in the printing and paper production industry. The drives need to retain
control of the sheets throughout the entire
printing and production process. The intelligent motor control function in Mitsubishi
frequency inverters processes the actual
values in next to no time and matches the
speed and torque to the specified setpoint.
This prevents the sheets from tearing or
bunching.
14
Customers in the haulage and logistics sector want Plug and Play in order to cut installation and start-up times. Our frequency
inverters are therefore fitted as standard
with an integrated EMC filter and an integrated brake unit. All part of being prepared for anything.
Palletising and warehousing in a high rack stacking system
Rapid response
times essential
Productivity in paper production has one size parameter: tonnes per hour
Conveyor belts and stock logistics systems
need constant speeds and velocities for
rapid and systematic transportation of
products. As such, the dynamic response
generated by the drives needs to be the
same when the conveyor belt is empty
and when it is full. If there are sudden
variations in load, e.g. caused by materials
piling up in an uncontrolled way on the
conveyor belt, then the drives need to
react as quickly as possible in order to
smooth the flow of materials.
Saving where motors never stop, Mitsubishi Electric
inverters work round the clock!
15
Increased productivity /// Paper production /// Increased productivity /// Paper production /// Optimum speed /// Conveyor belts /// Optimum speed /// Conveyor belts /// Optim
Increased
productivity
Optimum
speed
This is precisely where top speed and torque response times are required for efficient compensation for sudden changes in
load. Response times of no more than 5 ms
are guaranteed to prevent product congestion and avert any risk to the follow-up
process.
Another feature which helps in this regard
is the power-down braking function which
controls the deceleration of all the drives
after a power failure or an emergency
machine shutdown. All this translates into
maximum productivity and quality.
An advanced version of this control has the
ability to operate up to four motors consecutively in alternate and/or changeover
mode via one single frequency inverter.
Rapid installation
and start-up
Prepared for
the toughest
assignments
High temperatures and high air humidity
are routine conditions in the printing and
paper industry. The capacitors in the
top-of-the-range models, the FR-F700 and
FR-A700, are therefore designed to withstand internal temperatures of 105°C. The
power and control PCBs have two coatings
and the cooling fans are housed in sealed,
specially lubricated industrial bearings.
There is no better way to prepare frequency
inverters to meet human and mechanical
requirements.
Simplified schematic of paper production
Customers in the haulage and logistics sector want Plug and Play in order to cut installation and start-up times. Our frequency
inverters are therefore fitted as standard
with an integrated EMC filter and an integrated brake unit. All part of being prepared for anything.
Palletising and warehousing in a high rack stacking system
Rapid response
times essential
Precise synchronism of the drives is synonymous with maximum productivity and
top quality in the printing and paper production industry. The drives need to retain
control of the sheets throughout the entire
printing and production process. The intelligent motor control function in Mitsubishi
frequency inverters processes the actual
values in next to no time and matches the
speed and torque to the specified setpoint.
This prevents the sheets from tearing or
bunching.
14
Productivity in paper production has one size parameter: tonnes per hour
Conveyor belts and stock logistics systems
need constant speeds and velocities for
rapid and systematic transportation of
products. As such, the dynamic response
generated by the drives needs to be the
same when the conveyor belt is empty
and when it is full. If there are sudden
variations in load, e.g. caused by materials
piling up in an uncontrolled way on the
conveyor belt, then the drives need to
react as quickly as possible in order to
smooth the flow of materials.
Saving where motors never stop, Mitsubishi Electric
inverters work round the clock!
15
Extreme cost efficiency /// Stirring machine /// Extreme cost efficiency /// Stirring machine /// Potential savings /// Potential savings /// Potential savings /// Potential savings /// Pote
Frequency inverter
Potential savings
Following digitalto-analogue conversion the set rotation
speed of a motor is
relayed to a frequency inverter.
Replacing conventional DC drives with
modern three-phase drives will always
mean one less cost-intensive maintenance
chore. This in turn will mean far fewer drive
failures which at worst bring the entire
mixing or stirring machinery to a standstill.
The temperature is
adjusted to help the
fluid maintain the
correct viscosity.
Analogue-to-digital
conversion helps to
control the flow rate.
Optimum energy efficiency, e.g. in complex pumping
applications
Saving energy when
starting and braking
The conversion of analogue values is an important aspect of automation technology and facilitates process control.
Variable speed and
efficiency
Maximum efficiency is required from each
individual drive in pump and fan applications as well as in mixers and stirrers.
The OEC technology (Optimum Excitation
Control) developed by Mitsubishi Electric
combines maximum drive efficiency with
minimum power consumption. The only
thing supplied to the connected motor is
the magnetic flux which brings about the
optimum degree of efficiency at all times.
This leads to inordinate improvement in
energy efficiency is achieved, particularly in
the acceleration and braking phases.
Too powerful and
too expensive!
Energy costs are rising all the time. Over
half of the power consumed in industry is
accounted for by electric motors. Up to
96% of the life cycle costs of a motor are
accounted for by energy costs. Unfortunately, when analysing costs, it is precisely
this point which is paid precious little attention or is ignored altogether. The biggest
potential source of savings is frequently
disregarded.
For example, in order to guarantee that an
air handling plant will run smoothly even at
full load, which is seldom the case, and to
have spare capacity for expansion the systems fans are often over specified. In some
cases fans in these applications can be operating at an average efficiency of 65% or less.
In addition, in conventional systems the
equipment is usually controlled by mechanical ventilation flaps which slashes efficiency levels, especially with medium loads.
The flap control function can very easily be
replaced by the use of frequency inverters
and the power consumption reduced by 20
to 60%.
Result: wasted
energy
Oversized fan, pump and motor systems
combined with continuous operation at
maximum capacity means many systems
are operated at levels far below ideal in
terms of efficiency. This leads to excess
power consumption which can only really
be explained by ignorance or poor practise.
A Mitsubishi frequency inverter is a safe investment
Countermeasures
The power consumption of slow running
motors can be reduced if the speed is controlled by changing the frequency. The frequency inverter allows the motor to be
adjusted to the load. Frequency inverters
which generate variable frequencies and
voltage levels save energy, reduce wear on
the motor and minimise wear and tear on
the motor-driven assembly.
They also allow far greater flexibility when it
comes to organising operating prorecedures.
Vent flap (conventional)
100
90
POWER CONSUMPTION (%)
Extreme
cost efficiency
80
70
60
50
40
30
20
Energy
saving
Control via
frequency inverter
10
0
0
40
60
80
100
AIR QUANTITY (%)
Example: A motor controlled by a frequency inverter
(blue line) is using the energy to extract air. The mechanically throttled motor doing the same task but
operated directly on the mains (yellow line) is wasting
a large amount of the energy.
In comparison with mechanical solutions,
frequency inverters developed by Mitsubishi Electric are always able to tap the full
potential when it comes to savings in
energy consumption.
Save on energy costs by investing in the Mitsubishi
Electric family of inverters
16
17
Extreme cost efficiency /// Stirring machine /// Extreme cost efficiency /// Stirring machine /// Potential savings /// Potential savings /// Potential savings /// Potential savings /// Pote
Frequency inverter
Potential savings
Following digitalto-analogue conversion the set rotation
speed of a motor is
relayed to a frequency inverter.
Replacing conventional DC drives with
modern three-phase drives will always
mean one less cost-intensive maintenance
chore. This in turn will mean far fewer drive
failures which at worst bring the entire
mixing or stirring machinery to a standstill.
The temperature is
adjusted to help the
fluid maintain the
correct viscosity.
Analogue-to-digital
conversion helps to
control the flow rate.
Optimum energy efficiency, e.g. in complex pumping
applications
Saving energy when
starting and braking
The conversion of analogue values is an important aspect of automation technology and facilitates process control.
Maximum efficiency is required from each
individual drive in pump and fan applications as well as in mixers and stirrers.
The OEC technology (Optimum Excitation
Control) developed by Mitsubishi Electric
combines maximum drive efficiency with
minimum power consumption. The only
thing supplied to the connected motor is
the magnetic flux which brings about the
optimum degree of efficiency at all times.
This leads to inordinate improvement in
energy efficiency is achieved, particularly in
the acceleration and braking phases.
Too powerful and
too expensive!
Energy costs are rising all the time. Over
half of the power consumed in industry is
accounted for by electric motors. Up to
96% of the life cycle costs of a motor are
accounted for by energy costs. Unfortunately, when analysing costs, it is precisely
this point which is paid precious little attention or is ignored altogether. The biggest
potential source of savings is frequently
disregarded.
For example, in order to guarantee that an
air handling plant will run smoothly even at
full load, which is seldom the case, and to
have spare capacity for expansion the systems fans are often over specified. In some
cases fans in these applications can be operating at an average efficiency of 65% or less.
In addition, in conventional systems the
equipment is usually controlled by mechanical ventilation flaps which slashes efficiency levels, especially with medium loads.
The flap control function can very easily be
replaced by the use of frequency inverters
and the power consumption reduced by 20
to 60%.
Result: wasted
energy
Oversized fan, pump and motor systems
combined with continuous operation at
maximum capacity means many systems
are operated at levels far below ideal in
terms of efficiency. This leads to excess
power consumption which can only really
be explained by ignorance or poor practise.
A Mitsubishi frequency inverter is a safe investment
Countermeasures
The power consumption of slow running
motors can be reduced if the speed is controlled by changing the frequency. The frequency inverter allows the motor to be
adjusted to the load. Frequency inverters
which generate variable frequencies and
voltage levels save energy, reduce wear on
the motor and minimise wear and tear on
the motor-driven assembly.
They also allow far greater flexibility when it
comes to organising operating prorecedures.
Vent flap (conventional)
100
90
POWER CONSUMPTION (%)
Extreme
cost efficiency
80
70
60
50
40
30
20
Energy
saving
Control via
frequency inverter
10
0
0
40
60
80
100
AIR QUANTITY (%)
Example: A motor controlled by a frequency inverter
(blue line) is using the energy to extract air. The mechanically throttled motor doing the same task but
operated directly on the mains (yellow line) is wasting
a large amount of the energy.
In comparison with mechanical solutions,
frequency inverters developed by Mitsubishi Electric are always able to tap the full
potential when it comes to savings in
energy consumption.
Save on energy costs by investing in the Mitsubishi
Electric family of inverters
16
17
Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Au
A world of applications
A world of
automation solutions
Robots
쐽 Leisure
- Multiplex cinema projection
- Animated mechatronics
(museums/theme parks)
Motion control and servos
Inverters
LV circuit protection
쐽 Medical
- Respiration machine testing
- Sterilization
쐽 Pharmaceutical/chemical
- Dosing control
- Pollution measurement systems
- Cryogenic freezing
- Gas chromatography
- Packaging
쐽 Plastics
- Plastic welding systems
- Energy management systems for
injection moulding machines
- Loading/unloading machines
- Blow moulding test machines
- Injection moulding machines
Laser machines
CNC
controllers
HMI and GOTs
쐽 Printing
쐽 Textiles
Mitsubishi frequency inverters are used in a wide range of areas.
Mitsubishi Electric operates eight branches
in Europe, where it has maintained a presence for more than 25 years and developed a constantly growing and
far-extending network comprising links to
other companies and reliable partnerships.
On the technical side, three manufacturing
and automation centres form the basis of
tailored automated solutions, further centres already being planned.
A Europe-wide network, the European Service Group (ESG), provides interfaces to
experienced engineers and offers distributors support throughout every phase of the
project.
Mitsubishi products are found in a variety
of industrial, infrastructure and service sector contexts, ranging from critical applications in the pharmaceuticals industry to
state-of-the-art leisure and entertainment
facilities. Here are just a few examples of
recent applications:
쐽 Agriculture
- Irrigation systems
- Plant handling systems
- Sawmills
쐽 Building management
- Smoke detection monitoring
- Ventilation and temperature control
- Lift (elevator) control
- Automated revolving doors
- Telephone management
- Energy management
- Swimming pool management
쐽 Construction
- Steel bridge manufacturing
- Tunnel boring systems
18
쐽 Food and drink
- Bread manufacture
(mixing/baking)
- Food processing
(washing/sorting/slicing/packaging)
쐽 Transportation
- Sanitation on passenger ships
- Sanitation on rail rolling stock
- Fire tender, pump management
- Waste disposal truck management
쐽 Utilities
- Waste water treatment
- Fresh water pumping
EDM machines
Micro PLCs
Modular PLCs
Mitsubishi offer a wide range of automation equipment from PLCs and HMIs to CNC and EDM machines
A name to trust
Since its beginnings in 1870, some 45
companies use the Mitsubishi name,
covering a spectrum of finance, commerce
and industry.
The Mitsubishi brand name is recognized
around the world as a symbol of premium
quality.
Mitsubishi Electric Corporation represents
space development, transportation,
semiconductors, energy systems,
communications and information
processing, audio visual equipment, home
electronics, building and energy
management and automation systems,
and has 237 factories and laboratories
worldwide in over 121 countries.
This is why you can rely on a Mitsubishi
automation solution – because we know
first hand about the need for reliable,
efficient, easy-to-use automation and
control.
As one of the world’s leading companies
with a global turnover of 3.4 trillion Yen
(approximately $30.8 billion), employing
over 100,000 people, Mitsubishi Electric
has the resource and the commitment to
deliver the ultimate in service and support
as well as the best products.
/// FR-S500E /// FR-E500 /// FR-F700 /// FR-A700 ///
Technical Information Section
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Further Publications within the Industrial Automation Range
MELSERVO and Motion Controller Technical Catalogue
Technical
Catalogues
Product catalogue for servo motors and servo amplifiers of the
MR-J series and Motion Controller with SSCNET connection
MELSEC PLC and HMI Technical Catalogue
Product catalogues for programmable logic controllers, operator
terminals and accessories for the MELSEC PLC series
MELFA Robots Technical Catalogue
Product catalogue for Mitsubishi Electric industrial robots.
Further service supplies
This technical catalogue is designed to give an overview of the extensive range of the Mitsubishi Electric frequency inverters.
If you cannot find the information you require in this catalogue, there are a number of ways you can get further details on
configuration and technical issues, pricing and availability.
For technical issues visit the www.mitsubishi-automation.com website.
Our website provides a simple and fast way of accessing further technical data and up to the minute details on our products and
services. Manuals and catalogues are available in several different languages and can be downloaded for free.
For technical, configuration, pricing and availability issues contact our distributors and partners.
Mitsubishi partners and distributors are only too happy to help answer your technical questions or help with configuration building.
For a list of Mitsubishi Electric partners please see the back of this catalogue or alternatively take a look at the "contact us" section
of our website.
This catalogue is a guide to the range of products available. For detailed configuration rules, system building, installation and configuration
the associated product manuals must be read. You must satisfy yourself that any system you design with the products in this catalogue
is fit for purpose, meets your requires and conforms to the product configuration rules as defined in the product manuals.
Specifications are subject to change without notice. All trademarks acknowledged.
© Mitsubishi Electric Europe B.V., Factory Automation - European Business Group, 07/2007, Version A
2
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CONTENTS ///
FREQUENCY INVERTERS
SYSTEM DESCRIPTION
웇
웇
웇
웇
웇
웇
Introduction to the Mitsubishi Electric inverter series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Overview on all inverter series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Intelligent Motor Control Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Communications and networks capability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Operation of the inverters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Maintenance and standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
SPECIFICATIONS
웇
웇
웇
웇
웇
웇
The FR-S500E series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
The FR-E500 series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
The FR-F700 series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
The FR-A700 series. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Parameter overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
General Operating Conditions for all Inverts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
ACCESSORIES
웇
웇
웇
웇
웇
웇
웇
Overview of internal and external options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Noise filters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Chokes and reactors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
External control panels. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Brake units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
External brake resistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
DIMENSIONS
웇
웇
웇
웇
웇
Control panels. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Frequency inverters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
Chokes and reactors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
Brake units and brake resistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
APPENDIX
웇 Index. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
MITSUBISHI ELECTRIC
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/// SYSTEM DESCRIPTION
The great variety of the Mitsubishi Electric
frequency inverter models makes it easy
for the user to choose the optim um
inverter for his application.
There are basically four different inverter
series:
앬 FR-S500E
앬 FR-E500
앬 FR-F700
앬 FR-A700.
The inverters are available with an output
range from 0.2 kW to 630 kW.
Three Phase
Single Phase
INVERTER SERIES
Mitsubishi Electric Frequency Inverters
S520SE
0,2 – 1,5 kW
E520S
0,4 – 2,2 kW
S540E
0,4 – 3,7 kW
E540
0,4 – 7,5 kW
With most Mitsubishi Electric frequency
inverters an overload capacity of 200 % is
standard. This means they deliver double
the performance of the competing inverters with the same rating. Mitsubishi Electric
inverters also have active current limiting.
This provides the perfect response characteristics of the current vector system and
gives you the confidence you need for
demanding drive applications.
The system instantly identifies over currents and limits them automatically with
fast response, allowing the motor to continue operating normally at the current
threshold.
F740
F746
Mitsubishi Electric inverters are also able
to communicate with industry standard
bus systems making it possible to integrate
frequency inverters as part of a complete
automation system.
Mitsubishi Electric inverters are real energy
savers achieving maximum drive capacity
utilisation with minimum power consumption. Flux optimisation ensures that the
connected motor only gets exactly the
amount of magnetic flux required for optimum efficiency. This is particularly important at low speeds as motors are normally
using a voltage/frequency control system.
0,75 – 630 kW
Larger kW ratings available up to 900kW
on request
0,4 – 630 kW
Larger kW ratings available up to 900kW
on request
0,75 – 55 kW
A740
0kW
55kW
630kW
Feature
FR-S500E
FR-E500
FR-F700
FR-A700
Rated motor output range
0.2–3.7 kW
0.4–7.5 kW
0.75–630 kW
0.4–630 kW
Frequency range
0.5–120 Hz
0.2–400 Hz
0.5–400 Hz
0.2–400 Hz
Power supply
Single phase,
200–240 V (-15 %/+10 %)
Three-phase,
380–480 V (-15 %/+10 %)
Single phase,
200–240 V (-15 %/+10 %)
Three-phase,
380–480 V (-15 %/+10 %)
Three-phase,
380–480 or 500 V (-15 %/+10 %)
Three-phase,
380–480 or 500 V (-15 %/+10 %)
Protection
IP 20
IP 20
FR-F700: IP 00 / IP 20
FR-F746: IP54
IP 00 / IP 20
앫Torque control
앫Positon control
앫Real sensorless vector control
앫Closed loop vector control
앫Traverse function
앫Regeneration avoidance function
앫Integrated PLC function
앫Easy gain tuning
앫Life time diagnostics
Refer to page 24
Special functions
앫V/f control
앫V/f control
앫Magnetic flux vector control
앫Traverse function
앫Switch motor to direct mains
operation
앫Advanced PID function
(multi pump function)
앫Regeneration avoidance function
앫Flying start
앫V/f control
앫Simple magnetic flux vector control
앫Life time diagnostics
Specifications
Refer to page 10
Refer to page 14
Refer to page 18
4
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SYSTEM DESCRIPTION ///
FR-S500E Micro Inverters
S500
MITSUBISHI
RUN
PU
PU
EXT
EXT
RUN
STOP
RESET
MITSUBISHI
FR-S500
RUN
SET
MODE
PU
PU
EXT
EXT
RUN
STOP
RESET
MODE
SET
Typical applications include:
앬 Material transport systems such as
앬
앬
앬
앬
conveyor belts, chain conveyors,
feed belts, transport belts and
worm conveyors
Saws, millling cutters, grinding
and drilling machines
Pumps
Fans
Door drives
INVERTER SERIES
The FR-S500E offers advantages such
as the easy to use setting dial and a
RS485 communications interface as
standard. Other features include
automatic restart after power failure,
a maintenance timer and a second
electronic thermal function.
The ultra-compact frequency inverters FR-S500Ecan support numerous
applications.
FR-E500 Compact Inverters
POWER
ALARM
MITSUBISHI
Hz RUN
A MON
PU EXT
RUN
STOP
RESET
MITSUBISHI
Due to its versatility and compact
dimensions, the FR-E500 is a frequency inverter that can solve most
of your individual drive tasks. Its
extensive functions make it a flexible
solution for applications such as:
앬 Textile machines such as spinning
machines, knitting machines,
weaving looms
앬 Material transport systems such as
chain, belt, and screw conveyors
앬 Door and gate drives
앬 Machines for working of metal,
Mitsubishi Electric’s FR-F700 series is
a range of frequency inverters with
truly exceptional power conservation
capabilities. The inverters of the
FR-F740/FR-F746 series are ideal for
pumps, ventilation fans and applications with reduced overload requirements such as:
앬 Air conditioning systems, e.g. in
building management
앬 Air extraction systems
앬 Fans and blowers
앬 Hydraulics systems
앬
앬
앬
앬
앬
Compressors
Sewage and drains systems
Ground water pumps
Heat pumps
Drive systems with high idling
rates
The new FR-A700 frequency inverters
combine innovative functions and
reliable technology with maximum
power, economy and flexibility.
The FR-A740 is the appropriate inverter for demanding drive tasks
with requirements for high torque
and excellent frequency precision. Its
extensive functions allow adaption
to many applications. The outstanding drive features of the FR-A740 suit
various needs, like:
앬
앬
앬
앬
앬
앬
앬
앬
앬
Conveyor technology
Chemical machines
Winding machines
Printing machines
Cranes and lifting gear
High-bay warehousing systems
Extruders
Centrifuges
Machine tools
stone, wood, and plastics
앬 Palettisers, material-handling
technology
앬 Pumps and ventilating
FR-F700 Energy Saving Inverters
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
MITSUBISHI
FREQROL-F 700
!
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR–F740–2.2K
FR-A700 High End Inverters
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
MITSUBISHI
FREQROL-F 700
!
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR–F740–2.2K
MITSUBISHI ELECTRIC
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/// SYSTEM DESCRIPTION
Intelligent Motor Control Functions
Compatible with many new
applications
Compatible with numerous I/Os
앬 Multi-speed operation
INVERTER SERIES
앬 PID control
The integrated PID control for example
supports a flow control for pumps.
앬 Torque boost
Torque boost selection is possible.
앬
앬
Comprehensive protection
functions for safe operation
앬
앬 Built-in electronic overcurrent
앬
protection
앬 Selection of the protection function for
automatic retry after alarm occurence.
Flexible 5-point V/f curve
The integrated flexible 5-point V/f curve
enables you to match the torque curve
perfectly to the characteristics of your
machine.
V/f characteristic
Voltage
V/F5
V/f pattern
V/F2
0
Torque
characteristic
Base frequency
Magnetic flux vector control
The integrated flux vector control (except
FR-S500E) of the inverters system makes it
possible to achieve high torques, even at
low motor speeds.
High accuracy/fast response speed operation by vector control can be performed
with a general-purpose motor without
encoder when the real sensorless vector
control of the FR-A700 inverter series is
used.
When the FR-A7AP is mounterd to the
FR-A700, full-scale vector control operation
can be performed using a motor with encoder. Fast response/high accuracy speed
control (zero speed control, servo lock),
torque control, and position control can be
performed. Vector control offers excellent
control characteristics when compared to
V/F control and other control techniques,
achieving the control characteristics equal
to those of DC machines.
6
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Operating functions and other
convenient functions
In pump and fan applications normal operation can be continued automatically after
brief power failures. The system simply reactivates the coasting motor and automatically accelerates it back up to its setpoint
speed.
The graphic below shows how the frequency inverter can respond to a brief
power outage. Instead of coasting down
completely and stopping, the motor is
automatically “caught” by the frequency
inverter and re-accelerated back up to its
previous speed.
앬 Frequency jumps (three points) to avoid
the machine's resonant frequency
앬 Fast acceleration/deceleration mode
앬 Full monitoring capabilities for monitor-
ing actual operating time and much
more
앬 Switch between two sets of motor
characteristics by means of a second
parameter function
앬 Zero current detection
Power supply
IPF
Output frequency
Deceleration
Restart
acceleration
Second electronic thermal function
V/F4
V/F3
V/F1
(15 different pre-selected speeds
are available)
0/4 to 20 mA and 0 to 5 V DC /
0 to 10 V DC control input
Multi-input terminals: selection of
different input functions
Multi-output terminals: selection of
different output functions
24 V external power supply output
(permissible values: 24 V DC/0.1 A)
Automatic restart after
instantaneous power failures
This function is used to rotate two motors
of different rated currents individually by a
single inverter.
Regeneration avoidance function
Maintenance timer
The maintenance timer function (except
FR-E500) can be used to monitor the
service life of different components.
The regeneration avoidance function of
the FR-F700 and FR-A700 can prevent the
inverter from being shut down by regenerative overvoltages when strong regenerative loads cause power to be released into
the frequency inverter (for example when
braking the motor or with loads that
actively drive the motor).
The inverter can automatically increase the
output frequency or disable the braking
ramp when a programmed threshold
value is reached. The response sensitivity,
dynamics and working range are all
adjustable.
For example, this function can prevent
a shutdown with an overvoltage error
when the speed of a fan controlled by the
inverter is increased by the draft from another fan operating in the same ventilation
duct. The function then temporarily increases the output frequency above the
setpoint value.
This function can also be used to brake
loads with the DC bus voltage, without
using braking modules.
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SYSTEM DESCRIPTION ///
Communication
Support for integration in larger
networks
The following I/Os are included as standard
equipment on the inverters. The number
of I/Os depends on the inverter model.
앬 Contact inputs
앬 Analog inputs
앬 Open collector outputs
앬 Relay outputs
앬 Analog outputs
The contact inputs, open collector outputs
and relay outputs can all be used for a
wide range of functions.
The switching status of the input and
output terminals can be displayed on
the control panel.
In addition the FR-A700 is equipped with
a pulse input for positioning.
Open communications with standard industrial bus systems can be implemented
easily with optional expansion cards
(except FR-S500).
This makes it possible to integrate the frequency inverter in large-scale automation
systems.
The following networks are supported by
the inverters:
앬 CC-Link
앬 LON Works (FR-F700/FR-A700)
앬 Profibus/DP
앬 DeviceNet
앬 CANopen (FR-E500/FR-A700)
앬 RS485
앬 Modbus RTU as standard
(FR-F700/FR-A700)
앬 USB (FR-A700)
앬 SSCNET III (FR-A700)
앬 Ethernet (FR-F700/FR-A700)
Air conditioner
PC for network
management
Pump
FR-F700
FR-F700
Remote I/Os
MON P.RUN
Hz
A PU EXT NET
FWD
V REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
MON P.RUN
Hz
A PU EXT NET
FWD
V REV
FR-DU07
Instead of using the remote I/Os of a PLC
you can use a network connection to
both read out the status of the frequency
inverter’s inputs and set its outputs (only
FR-F700 and FR-A700).
INVERTER SERIES
Extended I/O for additional control
functions
!
!
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
MITSUBISHI
MITSUBISHI
FREQROL-F 700
FREQROL-F 700
FR-A7NL
and electric shock
DANGER: Risk of injury follow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
!
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR-A7NL
400V
FR–F740–2.2K
FR–F740–2.2K
Expansion slot
LONWORKS
The frequency inverter has up to 3 expansion slot (except FR-S500) that can be used
to install an I/O expansion module or a
network module. These modules are cards
that are installed by plugging them into
the slot in the inverter.
NETWORK
Open network
topology
Lighting
Security system
Communications capability as a
standard function
An RS485 interface for data communications is standard equipment of all inverters.
The interface serves for data exchange for
example with a personal computer.
FR-A700
FR-F700
MON P.RUN
Hz
NET
A
PU EXT
FWD
V REV
MON P.RUN
Hz
NET
A
PU EXT
FWD
V REV
PLC system
(e.g. Mitsubishi Electric
REV
FWD
SET
STOP
RESET
!
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
FR-DU07
!
1
PU
EXT
MODE
MITSUBISHI
MITSUBISHI
FREQROL-F 700
FREQROL-F 700
Up to 42
inverters
and electric shock
DANGER: Risk of injury follow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
!
!
and electric shock
DANGER: Risk of injury follow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
400V
FR–F740–2.2K
FR–F740–2.2K
FR-A7NC
FR-A7NC
CC-Link Network
PROFIBUS/DP
DeviceNet
RS485
Modbus RTU
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/// SYSTEM DESCRIPTION
User-friendly Operation
INVERTER SERIES
Easy configuration with control
panel or software
A control panel is included as standard
equipment with the inverters FR-F700 and
FR-A700. The FR-S500 is equipped with a
integrated control panel. All these three
panels use a digital dial for making the
settings. For the FR-E500 the operation
panel PA02-02 is optional.
The control panel makes operation of the
inverter simple and intuitive and displays
operating parameters and alarm messages. The integrated digital dial control
provides fast and efficient access to all key
drive parameters.
and
conThe optional
trol panels features a long-life LC-display
with a backlight and integrated numeric
keypad for direct entry of operating parameters. The user interface can be displayed in eight different languages. This
panels are designed as a remote unit that
is connected to the inverter with a cable.
For FR-F700/FR-A700 inverters a fixed installation is also possible.
It also supports definition of user groups
with which you can implement editable
parameter sets that can then be selected
as required for specific applications.
Hz
A
V
8.8.8.8.
One-touch operation
Simple and intuitive configuration and
operation save both time and money.
The control panel’s jog shuttle “digital dial”
control provides much faster access to all
key drive parameters than would be possible with conventional buttons and keys.
You can also use the dial to continuously
adjust the speed of the connected motor.
FWD
50 0 0 Hz
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
- - - STOP EXT
FR-DU07
In addition to control panel operation the
frequency inverter can also be connected
to a standard PC via an RS-485 port and
operated from the PC with the optional VFD
setup software package or FR-Configurator.
Using this software you can configure,
operate and monitor multiple frequency
inverters, either in a network or directly
from a single PC or notebook computer.
78
6
4
PU
MON
PrSET
EXT
FUNC
SHIFT
ESC
7
8
9
4
5
6
FWD
1
2
3
REV
0
READ
WRITE
STOP
RESET
FR-PU07
Alarm log
The control panel stores an alarm log
for up to 8 alarm messages that can be
displayed and checked on the panel. The
alarm details in the log include frequency,
current, voltage and cumulative operating
time at the time of the alarm.
3
2
1
Hz
A
V
ALARM
POWER
FR-DU07
5
PARAMETER UNIT
FR-PU07
NET
EXT
REV
User-friendly
In addition to allowing you to enter and
display configuration and control parameters the integrated control panel can also
be used to monitor and display current
operating data and alarm messages.
The information is output on a 4-digit LED
display.
You can monitor all the current status
parameters of both the inverter itself and
the connected motor. Problems and
malfunctions are indicated by error codes.
MITSUBISHI
MON P.RUN
PU
MON P.RUN
PU
EXT
REV
NET
FWD
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
Switch between direct and external
control
The frequency inverter can be controlled
directly via the control panel (PU mode) or
via external signals (EXT mode).
FR-DU07
MON P.RUN
PU
Removable panel with parameter
copy function
The control panel (except for FR-S500)
is removable and can also be connected
installed remotely, for example in the door
of a switchgear cabinet. It also features a
useful copy function with which you can
copy the parameter settings of one frequency
inverter to another.
EXT
REV
U
Hz
A
V
NET
FWD
REV
FW
MON P.RUN
PU
EXT
REV
NET
FWD
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
8
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SYSTEM DESCRIPTION ///
Maintenance and Standards
Easy access to cooling fans
Service timer
The easily accessible cooling fans can be
replaced quickly and easily, if required.
The integrated cooling fan can be switched
OFF automatically in stand-by operation to
increase its lifetime significantly.
The frequency inverters of the FR-F700 and
FR-A700 series all have an integrated
service timer that automatically triggers
an alarm after a set number of operating
hours. This feature can be used for monitoring the frequency inverter itself or a
peripheral component. The values of the
mean output current and the service timer
can also be output as analog signals.
Easy installation and maintenance
Since the control and power terminal block
is easy of access, the installation and maintenance of the inverter is also very easy.
All connection points are designed as
screw terminals. The housing includes a
cable routing facility which can be
removed for installing.
Modern diagnostics functions
further extend service life
The ageing of the main circuit capacitors,
the control circuit power capacitor, the internal cooling fans and the inrush current
limiter circuit can be checked with the
monitoring functions (FR-A700 and
FR-F700). If the inrush resistor overheats an
alarm is displayed.
The alarms for the main circuit capacitors,
control circuit capacitor, inrush current
limiter and internal fans can all be output
to a network or via the optional FR-A7AY
module.
This makes it possible to prevent malfunctions by configuring diagnostics alarms to
be triggered when the end of the service
life is reached.
The inverter also has an internal program
that can evaluate the ageing of the main
circuit capacitors. This feature is only available when a motor is connected to the
inverter.
Environment-Friendly and International Compliance
Electromagnetic compatibility
Latest technologies have been used to
significantly reduce the interference levels
generated by this frequency inverter.
Regarding its electromagnetic compatibility the frequency inverters complies with
the European EMC directives.
To meet these standards noise filters have
been developed for each performace
range.
The FR-F700 and FR-A700 conform to the
strict electromagnetic compatibility regulations of the European Union (EMC Directive, Environment 2, EN 61800-3). In order
to meet these standards the inverters are
fitted with a new, integrated interference
suppression filter, which can easily be
deactivated with a jumper if necessary.
You can also further limit the make current
and reduce network interference by fitting
the input of the inverter with an optional
AC reactor and a DC reactor, which is connected to special terminals on the inverter
unit.
Circuit boards with two coats of
protective varnish
The frequency inverters with the E1 designation (standard, type 01800 and above)
have circuit boards with two coats of
protective varnish.
This feature is available as an option for the
models up to type 01160. The twin coating
on the internal PCBs provides even better
protection against environmental influences.
This is particularly important in applications
sewage plants where the switchgear cabinets are exposed to aggressive fermentation gases that can reduce the service life
of the equipment.
International standards
The inverters are designed so that they can
be used worldwide without any additional
modifications or certifications.
앬 The units conform to the international
standardsCE, UL, cUL, Gost, CCC, ISO
9001 and ISO 14001. In addition the
series FR-F700 and FR-A700 conformt
o the standards DNV standards.
앬 User-selectable positive or negative
switching logic. Users can select positive or negative switching logic for
input and output signals, enabling flexible and simple adaptation of the units
for varying world market requirements.
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앬 Multilingual programming/control unit
(optional)
앬 Support for a variety of international
industrial bus systems
앬 Internationally standardised, frequency
inverter configuration software package
for MS Windows, with multilingual user
interface
These features make the inverters a truly
international product that meets all relevant
standards and can be easily adjusted for
national requirements.
9
INVERTER SERIES
Simplified Maintenance
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/// SPECIFICATIONS FR-S500E
The FR-S500E Series
The FR-S500E with V/f voltagefrequency
control is a pace-setter in the miniature
drive system class. It features ultracompact
dimensions, simple and secure operation
and a wide range of technology functions.
The integrated jog shuttle control gives the
user fast, direct access to all important
drive parameters.
S500
MITSUBISHI
RUN
PU
PU
EXT
EXT
RUN
STOP
RESET
MITSUBISHI
FR-S500
RUN
MODE
PU
SET
PU
EXT
EXT
RUN
STOP
RESET
SPECIFICATIONS
MODE
SET
Output range:
0.2 – 3.7 kW,
200 – 240 V / 380 – 480 V
Available accessories:
Optional control units, versatile options
and useful accessories are available
for this frequency inverter.
Please refer to page 34 for details.
Technical Details FR-S500E
FR-S520SE
FR-S540E
Product line
-0.2 k
Applicable motor capacity*
�
Rated motor capacity
Output
Input
-0.4 k
-0.75 k
-1.5 k
0.75
1.5
0.4
0.75
1.5
2.2
3.7
1.6
2.8
0.9
1.6
2.7
3.7
5.9
A 1.4
2.5
4.1
7.0
1.2 (1.3)*
2.3 (2.5)*
3.7 (4.1)*
5.3 (5.8)*
7.7 (8.5)*
5.5
9.5
200 % of rated motor capacity for 0.5 s; 150 % for 1 min. (ambient temperature not higher than 50 °C)
3phase, 0 V up to power supply voltage
Power supply voltage
1phase, 200–240 V AC, -15 % / +10 %
3phase, 380–480 V AC, -15 % /+10 %
Voltage range
170–264 V AC at 50 / 60 Hz
325–528 V AC at 50 / 60 Hz
Frequency range
50 / 60 Hz ±5 %
kVA 0.9
50 / 60 Hz ±5 %
1.5
2.5
4.4
1.5
2.5
Sinusoidal PWM, Soft PW
PWM switching frequency
Frequency range
kHz 0.7 – 14.5, user adjustable
Hz 0.5 – 120
Analog
From terminals 2–5: 1/500 of maximum set frequency(input 5 V DC); 1/1000 (input 10 V, 20 mA DC)
Digital
0.1 Hz (less than 100 Hz), 1 Hz (100 Hz or higher)
Frequency precision
±1 % of max. output frequency (temperature range 25 °C±10 °C) during analog input;
±0.5 % of max. output frequency during digital input (set via Digital Dial)
Voltage /
frequency characteristics
Base frequency adjustable from 0 to 120 Hz
Possible starting torque
³ 150 % / 5 Hz (with automatic torque boost)
Torque boost
Manual torque boost; selectable between 0–30 %
Acceleration / deceleration time
0, 0.1 to 999 s (may be set individually for acceleration and deceleration)
Acceleration / deceleration characteristics
Linear or S-pattern acceleration/deceleration mode selectable
Regenerative
0.2 k: 150 %; 0.4 k and 0.75 k: 100 %; 1.5 k: 50 %; 2,2 k and 3,7 k: 20 %
DC braking
Braking time and braking moment adjustable,
Operating frequency: 0–120 Hz, operating time: 0–10 s, voltage: 0–15 % (externally adjustable)
Current stall prevention
operation level
Operation current level setting 0–200 %, user adjustable
High-response current restriction level
Operation level is fixed, enable/disable selection
Motor protection
Electronic motor protection relay (rated current user adjustable)
Frequency
setting signal
Operation functions
4.5
V/f control or automatic torque boost control
Modulation method
Braking
torque �
-3.7 k
0.4
Voltage �
Frequency
resolution
-2.2 k
1.0
Control method
Control
signals
for
operation
-1.5 k
kW 0.2
�
Rated input capacity �
Control
specifications
-0.75 k
kVA 0.5
Rated current*
*Overload capacity
-0.4k
Analog input
0–5 V DC, 0–10 V DC, 0/4–20 mA
Digital input
From control panel (parameter unit), RS-485 or network
Maximum and minimum frequency setting, frequency jump operation, external thermal input selection, instantaneous power failure restart operation, forward run/reverse run prevention, slip compensation, operation mode selection, PID control, computer link or open network operation
* The values in brackets indicate the values for an ambient temperature up to 40 °C without restriction of PWM.
10
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SPECIFICATIONS FR-S500E ///
FR-S520SE
FR-S540E
Product line
-0.4 k
-0.75 k
-1.5 k
-2.2 k
-3.7 k
Up to 15 speeds can be preset in the range of 0–120 Hz.
The current speed can be adjusted during operation via the control panel.
2nd function
Selects 2nd function (acceleration time, deceleration time, torque boost, base frequency, electronic overcurrent protection)
Selection of
current input
Frequency setting via current input signal 0/4 to 20 mA DC (terminal 4)
External
thermal input
Stopping the inverter with an externally mounted thermal relay
PU<->External
operation
Switch between the operating modes "PU" and "External"
PID control
Select PID control
Output stop
Instant cutoff of inverter output (frequency and voltage)
Alarm reset
The error indication (alarm signal) is reset with the reset of the protective function.
Operation
status
1 output type (open collector output) selectable: Inverter running, frequency reached, frequency detection, overload warning, zero current detection, output current detection, maximum PID, minimum PID, PID forward run, PID reverse run, operation ready, current average value monitor signal, maintenance timer alarm, minor failure and error.
Instead of the open collector output type 1 relay contact can be selected for the output (230 V AC; 0.3 A / 30 V DC; 0.3 A).
Analog signal
One of the following output types can be selected:
Output frequency, motor current, analog output (0–5 V DC with 1mA full scale).
Displayed on
integrated
control panel
Operating state
Output voltage, motor current, frequency setting value, operation speed
Alarm display
Error messages are displayed after a protective function has been activated. Up to 4 error codes can be stored.
Additional
displays on
parameter unit
FR-PU04
Operating state
Signal status of input and output terminals
Interactive
operating guide
Interactive guide for operation and troubleshooting via help function
Output
signals
Others
-1.5 k
Multi-speed selection
Control
signals
for
operation
Protection
-0.75 k
Start signal
Input
signals
Display
option
-0.4k
Overcurrent cutoff (during acceleration, deceleration, constant speed), regenerative overvoltage cutoff (during acceleration, deceleration, constant
speed), overload cutoff (motor/inverter), fin overheating, fan error � , overcurrent cut off, ground fault during start �, external motor protection
signal �, PU connection error, number of retries, communications error, CPU error, undervoltage 햺
Functions
Protective structure
IP 20
Cooling
Self-cooling
Self-cooling
Self-cooling
Fan cooling
Self-cooling
Self-cooling
Fan cooling
Fan cooling
Fan cooling
Stray power
(W) 20
45
50
85
40
50
80
110
170
Weight
(kg) 0.6
0.8
1.0
1.5
1.5
1.5
1.5
1.6
1.7
158460
158461
158462
158463
158464
158465
158466
158467
Order information
Order no. 158459
Remarks:
햲 The specifications of the rated motor capacity are related to a motor voltage of 230 V for 1phase output and 440 V for 3phase output (max. ambient temperature of 50 °C).
햳 The overload capacity indicated in % is the ratio of the overload current to the inverters rated current. For repeated duty, allow time for the inverter and motor to return to or below the temperature and
100% load.
햴 The maximum output voltage cannot exceed the input voltage. The maximum output voltage may be programmed individually, but it must be input voltage.
햵 The input capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
햶 The braking torque indicated is short-duration average torque (which varies with motor loss) when the motor alone is decelerated from 50Hz in the shortest time and is not a continuous regenerative torque.
When the motor is decelerated from the frequency higher than the base frequency, the average deceleration torque will reduce. Since the inverter does not contain a brake resistor, use the optional
brake resistor when regenerative energy is large. A brake unit (e.G. BU-UFS) may also be used.
햷 Only valid for frequency inverters equipped with a cooling fan.
햸 To activate the function, set parameter 40 to "1".
햹 The input OH is activated by the parameters on the function assignment of the input terminals (Pr. 60 to Pr. 63).
햺 When undervoltage or instantaneous power failure has occurred, alarm display or alarm output is not provided but the inverter itself is protected. Overcurrent, regenerative overvoltage, or other protection
may be activated at power restoration according to the operating condition.
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11
SPECIFICATIONS
-0.2 k
Individual selection of forward / reverse run
Start signal self retaining input
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/// SPECIFICATIONS FR-S500E
Block Diagram FR-S500E (Source Logic)
Converter
Motor
Power supply
U
V
W
SPECIFICATIONS
fig. shows
1phase connection only
Input signal
circuits
24 V DC Output (max. 100 mA)
Forward rotation start
Error output
Reverse rotation start
High speed
Middle speed
Low speed
Common
10
Analog output
2
5
(+)
(-)
12
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4
Operating
state output
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SPECIFICATIONS FR-S500E ///
Function
Terminal
Terminal name
Description
Forward rotation start
The motor rotates forward, if a signal is applied to terminal STF. If the signals STF and STR are applied simultaneously,
the STOP command is executed.
Reverse rotation start
The motor rotates reverse, if a signal is applied to terminal STR.If the signals STF and STR are applied simultaneously,
the STOP command is executed.
Multi-speed selection
Up to 15 different output frequencies can be preset; for the speed commands the following priorities apply:
Jog, speed selection (RH, RM, RL, RX) and AU.
Common sink for contact
input/reference potential
A determined control function is activated, if the corresponding terminal is connected to the terminal SD. The SD terminal
is isolated from the digital circuits via optocouplers.
When connecting the transistor output (open collector output), such as a programmable controller (PLC), connect the negative external power supply for transistor output to this terminal to prevent a malfunction caused by undesirable currents. When source logic
has been selected, connect this terminal with 0V of the external power supply.
+24VDC output and common
source for contact
input/reference potential
24 V DC / 0.1 A output via PC-SD
In sink logic, when activated by open collector transistors (e.g. PLC) the positive pole of an external power supply has to be
connected to the PC terminal.
In source logic, the PC terminal serves as common reference point for the control inputs.
10
Voltage output for
potentiometer
Output voltage 5VDC. Max. output current 10mA
Recommended potentiometer: 1 kW, 2 W linear (multi-turn potentiometer)
2
Input for frequency
setting value signal
The voltage setting value 0–5 (10) V is applied to this terminal. The voltage range is preset to 0–5 V.
The input resistance is 10 kW. The maximum permitted voltage is 20 V.
5
Reference point for frequency
setting value signal
Terminal 5 is the reference point for all analog setting values and for the analog output signal AM.
The terminal is not isolated from the reference potential of the control circuit and should not be earthed for reasons of noise immunity.
4
Input for current
setting value signal
0/4–20mADC
The current setting value signal (4–20m A DC) is applied to this terminal. The input is active only if the AU signal is set.
The function of the AU signal is assigned via parameters 60 to 63. The input resistance is 250W.,
the maximum permitted current is 30 mA.
By default, this signal is set to 0 Hz at 4 mA and 50 Hz at 20 mA.
Potential free
alarm output
The alarm is output via relay contacts (C-B = Normally Open, C-A = Normally Closed).
The maximum contact load is 230 V AC / 0.3 A or 30 V DC / 0.3 A.
Signal output for
motor operation
The output is switched low (that means, that the voltage of terminal SE is output), if the inverter output frequency is equal to or higher than the starting frequency.
The output is switched high, if no frequency is output or the DC brake is in operation.
The maximum contact load is 24 V DC / 0.1 A. (The voltage drop is 3.4 V maximum, when the signal is on.)
SE �
Reference potential for
signal outputs
Reference potential for the signal RUN. This terminal is isolated from the reference potential of the control circuit 5 and SD.
AM
Analog output
The output can be used for external frequency output or motor current output. The functions are determined by parameters.
A DC voltmeter can be connected. The output signal across terminals AM-5 is factory set to about 5 V DC at 50 Hz and is proportional
to the corresponding output frequency. The max. output voltage is 5 V. The maximum permitted output current is 1 mA.
—
Connection of
control panel (RS485)
Communications via RS485
I/O standard: RS485, Multi-drop operation, max. 19200 Baud
STF
Control
connection
�
STR
RH, RM, RL
SD
�
PC
�
�
Common
Setting value
specification
A, B, C
RUN
Signal
outputs
Interface
��
��
Remarks:
햲
The terminals PC and SD must not be connected to each other nor to the protective earth terminal. In source logic, the terminal PC serves as common reference point for the control inputs.
In sink logic, the terminal SD serves as common reference point for the control inputs.
햳
Low indicates that the open collector output transistor is on (conducts). High indicates that the transistor is off (does not conduct).
햴
The following function assignments of the input terminals are supported: RL, RM, RH, RT, AU, STOP, MRS, OH, REX, JOG, RES, X14, X16 und (STR).
햵
The following function assignments of the output terminals are supported: RUN, SU, OL, FU, RY, Y12, Y13, FDN, FUP, RL,Y93, Y95, LF und ABC.
햶
To be compliant with the European directive (Low Voltage Directive), the operating capacity of relay outputs (A, B, C) should be 30 V DC 0.3 A.
햷
When source logic has been selected, connect this terminal with the positive pole of the external power supply.
Assignment of Main Circuit Terminals
Funkction
Main circuit
connection
Terminal
Terminal name
Description
L1, N
Power supply 1phase
Power supply of the inverter types FR-S520SE (200–240 V AC, 50/60 Hz)
L1, L2, L3
Power supply 3phase
Power supply of the inverter types FR-S540E (380–480 V AC, 50/60 Hz)
+, -
External brake unit
connection
An external brake unit can be connected to the terminals + and - .
P1, +
DC reactor connection
An optional DC reactor can be connected to the terminals P1 and +.
Before connecting the DC reactor, disconnect the jumper from terminals P1 and +.
U, V, W
Motor connection
Voltage output of the inverter (3phase, 0 V up to input voltage, 0.5–120 Hz)
PE
Protective earth connection of inverter
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13
SPECIFICATIONS
Assignment of Signal Terminals
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/// SPECIFICATIONS FR-E500
The FR-E500 Series
The FR-E500 with SLV control sets new
standards for compact vector-controlled
drive systems. The inverters of the FR-E500
series are packed with advanced features,
including the Soft PWM system for reducing motor noise, powerful torque control
and fast-response current control for
motor acceleration and deceleration.
POWER
ALARM
MITSUBISHI
Hz RUN
A MON
PU EXT
RUN
STOP
RESET
SPECIFICATIONS
MITSUBISHI
Output range:
0.4 – 7.5 kW,
200 – 240 V / 380 – 480 V
Available accessories:
Optional control units, versatile options
and useful accessories are available for
this frequency inverter.
Please refer to page 34 for details.
Technical Details FR-E500
FR-E520S
FR-E540
Product line
0.4 k
0.75k
1.5 k
2.2 k
0.4 k
0.75 k
1.5 k
2.2 k
3.7k
5.5 k
7.5 k
1.1
2.2
3
0.75
1.1
2.2
3
4
7.5
11
0.75
1.5
2.2
0.4
0.75
1.5
2.2
4
5.5
7.5
150%Overloadcapacity � 3.6
5
9.6
12
1.8
3
4.9
6.7
9.5
14
21
200%Overloadcapacity � 2.5
4
7
10
1.6 (1.4)
2.6 (2.2)
4 (3.8)
6 (5.4)
9.5 (8.7)
12
17
1.5
2.7
3.8
1.2
2.0
3.0
4.6
7.2
9.1
13.0
9
12
17
�
150%Overloadcapacity
0.75
Ratedmotor
capacity[kW] � 200%Overloadcapacity � 0.4
Rated current
[A] �
Output
Rated output capacity
Overload
capacity �
Input
kVA 0.95
�
150 % of rated motor capacity for 0.5 s; 120 % for 1 min. (max. ambient temperature = 50 °C)
�
200 % of rated motor capacity for 0.5 s; 150 % for 1 min. (max. ambient temperature = 50 °C)
Voltage �
3-phase, 0 V up to power supply voltage
Power supply voltage
1-phase, 200–240 V AC, -15 % / +10 %
3-phase, 380–480 V AC, -15 % / +10 %
Voltage range
170–264 V AC at 50 / 60 Hz
323–528 V AC at 50 / 60 Hz
Frequency range
50 / 60 Hz ± 5 %
Rated input capacity �
kVA 1.5
Control method
50 / 60 Hz ± 5 %
4.0
Modulation control
Sine evaluated PWM, Soft PW
Carrier frequency
0.7–14.5 kHz (user adjustable)
Frequency
resolution
5.2
1.5
2.5
4.5
0.2–400 Hz
Analog
From terminals 2-5: 1/500 of maximum set frequency (input 5 V DC); 1/1000 (input 10 V, 20 mA DC)
Digital
0.01 Hz / 50 Hz
Frequency precision
±0.5 % of max. output frequency (temperature range 25 °C±10 °C) during analog input;
±0.01 % of max. output frequency during digital input
Voltage /
frequency characteristics
Base frequency adjustable from 0 to 400 Hz;
constant torque or variable torque selectable
Possible starting torque
³ 150 % / 1 Hz, ³ 200 % / 3Hz (for vector control oder slip compensation)
Torque boost
Manual torque boost; selectable between 0–30 %
Acceleration / deceleration time
0.01; 0.1 to 3600 s individual settings
Acceleration / deceleration characteristics
Linear or S-form course, user selectable
Braking torque
5.5
Extended flux vector control with online auto tuning of motor data or V/f control
Frequency range
Control
specifications
2.3
Regenerative �
0.4 k and 0.75 k: 100 % or more; 1.5 k: 50 % or more; 2.2 k to 7.5 k: 20 % or more
DC braking
Braking time and braking moment adjustable,
Operating frequency: 0–120 Hz, operating time: 0–10 s, voltage: 0–30 %
Current stall prevention operation level
Operation current level setting possible (0–200 % variable), enable/disable selection
Voltage stall prevention operation level
Operation level is fixed, enable/disable selection
High-response current restriction level
Operation level is fixed, enable/disable selection
Motor protection
Electronic motor protection relay (rated current user adjustable)
Remarks:
Explanation for 햲 to 햹 see next page.
14
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SPECIFICATIONS FR-E500 ///
FR-E520S
FR-E540
Product line
0.4 k
Input
signals
Control
signals for
operation
Others
2.2 k
0.4 k
0.75 k
1.5 k
2.2 k
3.7k
5.5 k
7.5 k
From control panel (parameter unit), RS-485 or network
Starting signal
Individual selection of forward / reverse run
Starting signal self retaining input
Multi-speed selection
Up to 15 set speeds (each speed can be set between 0 and 400 Hz; speed can be changed via control panel or during operation)
2nd function
Selects 2nd function (acceleration time, deceleration time, torque boost, base frequency, electronic overcurrent protection)
Selection of
current input
Frequency setting via current input signal 0/4 to 20 mA DC
External
thermal input
Stopping the inverter with an externally mounted thermal relay
PU<->external
operation
Switch over between the operating modes "PU" and "External"
V/F<->flux vector
control
External switching between V/F control and general-purpose flux vector control
Output stop
Instant cutoff of inverter output (frequency and voltage)
Error reset
The error indication (alarm signal) is reset with the reset of the protective function
Maximum and minimum frequency setting, frequency jump operation, external thermal input selection, instantaneous power failure restart
operation, forward run/reverse run prevention, slip compensation, operation mode selection, off-line auto tuning function, PID control,
computer link operation (RS485), open network operation
Operation
status
2 output types (open collector output) can be selected: inverter running, frequency reached, frequency detection, overload warning, zero return
detection, output current detection, maximum PID, minimum PID, PID forward run, PID reverse run, operation ready, minor failure and error.
1 relay contact can be selected for the output (230 V AC; 0.3 A / 30 V DC; 0.3 A)
Analog signal
One of the following output types can be selected:
output frequency, motor current, output voltage, analog output (0–10 V DC).
Displayed on
control panel
(FR-PU04/
FR-PA02-02)
Operating state
Outputfrequency,motorcurrent,outputvoltage,frequencysettingvalue,operationspeed
Alarm display
Error messages are displayed after a protective function is activated. Up to 4 error codes can be stored.
Additional
displays on
control panel
FR-PU04
Operating state
Signal status of input and output terminals
Interactive
operating guide
Interactive guide for operation and troubleshooting via help function
Output
signals
Protection
1.5 k
Digital input
Operation functions
Display
option
0.75k
0–5 V DC, 0–10 V DC, 0/4–20 mA
SPECIFICATIONS
Frequency
setting values
Analog input
Functions
Overcurrent cutoff (during acceleration, deceleration, constant speed), regenerative overvoltage cutoff,undervoltage � , instantaneous power failure �, overload cutoff (electronic thermal relay), brake transistor error, ground fault overcurrent, output short circuit,
stall prevention, overload warning, brake transistor overheating, fin overheating, fan error � ,
option error, parameter error, PU connection error, output phase error
Protection rating
IP 20
Cooling
Power loss (kW)
Self-cooling
45
50
85
100
45
50
85
100
160
285
390
Weight (kg)
1.9
1.9
2.0
2.0
1.9
1.9
2.0
2.1
2.1
3.8
3.8
102939
102940
102941
69197
69198
69200
69201
69204
102942
102943
Order information
Order no. 102938
Fan cooling
Self-cooling
Fan cooling
Remarks:
�
The specifications of the rated motor capacity are related to a motor voltage of 230 V resp. 400 V.
�
The overload capacity indicated in % is the ratio of the overload current to the inverters rated current. For repeated duty, allow time for the inverter and motor to return to or below the temperature and 100 % load.
�
The maximum output voltage cannot exceed the power supply voltage. The maximum output voltage may be set as desired below the power supply voltage.
�
The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
�
�
�
�
The rated output current in the parentheses applies when low acoustic noise operation is to be performed at an ambient temperature higher than 40 °C with the parameter 72 (PWM frequency selection)
value set to 2 kHz or higher.
When undervoltage or instantaneous power failure has occurred, alarm display or alarm output is not provided but the inverter itself is protected. Overcurrent, regenerative overvoltage, or other protection
may be activated at power restoration according to the operating condition.
The braking torque indicated is short-duration average torque (which varies with motor loss) when the motor alone is decelerated from 50 Hz in the shortest time and is not a continuous regenerative
torque. When the motor is decelerated from the frequency higher than the base frequency, the average deceleration torque will reduce. Since the inverter does not contain a brake resistor, use the
optional brake resistor when regenerative energy is large. A brake unit BU may also be used.
Not valid for the inverters FR-E540-0.4 k, -0.75 k and FR-E520S-0.1 k to -0.4 k which are not equipped with a cooling fan.
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15
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/// SPECIFICATIONS FR-E500
Block Diagram FR-E500 (Source Logic)
P1
+
PR
Converter
Power supply
Motor
U
V
W
L1
L2
L3
SPECIFICATIONS
fig. shows
3 phase connection only
Input signal
circuits
24 V DC Output (max. 100 mA)
Forward rotation start
Reverse rotation start
High speed
Middle speed
Low speed
Output stop
Reset
Common
PC
STF
STR
RH
RM
RL
MRS
RES
SD
Error output
Analog output
10
+5 V
2
0–5 V DC
5
(+)
(-)
16
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Freitag, 27. Juli 2007 09:58:20
4
0/4–20 mA DC
SE
RUN
FU
Operating
state output
MITSUBISHI ELECTRIC
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SPECIFICATIONS FR-E500 ///
Assignment of Signal Terminals
Control
connection
Terminal
Forward rotation start
STR
Reverse rotation start
The motor rotates reverse, if a signal is applied to terminal STR.
RH, RM, RL
Multi-speed selection
Preset of 15 different output frequencies; programmable.
Signal
outputs
Interface
The motor rotates forward, if a signal is applied to terminal STF.
MRS
Output stop
The signal stops the output frequency without regard to the delay time; programmable.
RES
RESET input
An activated protective circuit is reset, if a signal is applied to the terminal RES (t > 0,1 s).
SD
A determined control function is activated, if the corresponding terminal is connected to the terminal SD. The SD terminal is
Common sink for contact input/
isolated from the digital circuits via optocouplers.
reference potential
Common reference potential (sink logic) for 24 V DC/0.1 A output (PC terminal).
PC
+24 V DC output
24 V DC / 0.1 A output; reference potential for source logic
10
Voltage output for
potentiometer
Output voltage 5 V DC
Max. output current 10 mA
Recommended potentiometer: 1 kW, linear
2
Input for frequency setting
value signal
The voltage setting value 0–5 (10) V is applied to this terminal. The voltage range is preset to 0–5 V.
The input resistance is 10 kW.
5
Reference point for frequency
setting value signal
Terminal 5 is the reference point for all analog setting values and for the analog output signal AM. The terminal is not isolated from
the reference potential of the control circuit and must not be earthed.
4
Input for current
setting value signal
0/4–20 mA DC
The current setting value signal (0/4–20 mA DC) is applied to this terminal. The input resistance is 250W.
A, B, C
Potential free
alarm output
The alarm is output via relay contacts; programmable.
The maximum contact load is 230 V AC / 0,3 A or 30 V DC / 0,3 A.
RUN
Signal output for
motor operation
The output is switched low, if the inverter output frequency is equal to or higher than the starting frequency.
The output is switched high, if no frequency is output or the DC brake is in operation. (programmable)
FU
Signal output for
monitoring output frequency
The output is switched low once the output frequency exceeds a value preset in parameter 42 (or 43). Otherwise the FU output is
switched high. (programmable)
SE
Reference potential for
signal outputs
Reference potential for the signals RUN and FU. This terminal is isolated from the reference potential of the control
circuit PC/SD.
AM
Analog output
One of 3 monitoring functions can be selected, e.g. external frequency output.
The functions are determined by parameters.
A DC voltmeter can be connected. The max. output voltage is 10 V.
—
Connection of
control panel (RS485)
Communications via RS485
I/O standard: RS485, Multi-Drop operation, max. 19200 Baud
Common
Setting value
specification
Description
STF
Assignment of Main Circuit Terminals
Function
Main circuit
connection
Terminal
Terminal name
Description
L1, L2, L3*
Power supply 1phase
Power supply of the inverter types FR-E520S (200–240 V AC, 50/60 Hz)
L1, L2, L3
Power supply 3phase
Power supply of the inverter FR-E540 (380–480 V AC, 50/60 Hz)
+, -
External brake unit connection
An external brake unit can be connected to the terminals + and - .
+, PR
Optional external brake resistor
connection
An optional external brake resistor can be connected to the terminals + and PR.
P1, +
DC reactor connection
An optional DC reactor can be connected to the terminals P1 and +.
Disconnect the jumper from terminals P1 and + before.
U, V, W
Motor connection
Voltage output of the inverter (3-phase, 0 V up to power supply voltage, 0.2–400 Hz)
PE
Protective earth connection of inverter
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17
SPECIFICATIONS
Function
Farbprofil: Deaktiviert
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/// SPECIFICATIONS FR-F700
The FR-F700 Series
The FR-F700 is distinguished by its high
energy-conservation potential. Major energy savings are achieved especially in the
important lower speed ranges and during
the run-up and braking phases. At an initial
frequency of 35 Hz, for instance, the energy savings come to 57 % when compared with conventional concepts. The
OEC (Optimum Excitation Control) technology effects an additional 10 % energy saving. It provides the ideal flux to the motor
at all times.
MON P.RUN
Hz
A
V
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
MITSUBISHI
SPECIFICATIONS
FREQROL-F 700
!
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
Output range:
0.75 – 630 kW, 380 – 480 V
(Typ 01800: 380 – 500 V)
Available accessories:
Optional control units, versatile options
and useful accessories are available for
this frequency inverter.
Please refer to page 34 for details.
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR–F740–2.2K
Technical Details FR-F740-00023 to -01160
FR-F740
Series
Rated motor
capacity �
[kW]
Rated
current
[A] 햷
Output
Input
Output
capacity
[kVA]
150% overload capacity (LD)
00023
00038
00052
00083
00126
00170
00250
00310
00380
00470
00620
00770
00930
01160
0.75
1.5
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
0.75
1.5
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
120%
overload
capacity
(SLD) 햶
I rated 햷
I max.60 s
I max.3 s
2.3
3.8
5.2
8.3
12.6
17
25
31
38
47
62
77
93
116
2.5
4.2
5.7
9.1
13.9
18.7
27.5
34.1
41.8
51.7
68.2
84.7
102.3
127.5
2.8
4.6
6.2
10
15.1
20.4
30
37.2
45.6
56.4
74.4
92.4
111.6
139.2
150%
overload
capacity
(LD)
I rated 햷
I max.60 s
I max.3 s
2.1
3.5
4.8
7.6
11.5
16
23
29
35
43
57
70
85
106
2.5
4.2
5.8
9.1
13.8
19.2
27.6
34.8
42
51.6
68.4
84
102
127.2
3.1
5.2
7.2
11.4
17.2
24
34.5
43.5
52.5
64.5
85.5
105
127.5
159
SLD 햶
1.8
2.9
4.0
6.3
9.6
13
19.1
23.6
29.0
35.8
47.3
58.7
70.9
88.4
LD
1.6
2.7
3.7
5.8
8.8
12.2
17.5
22.1
26.7
32.8
43.4
53.3
64.8
80.8
Overload current SLD
rating �
LD
120 % of rated motor capacity for 3s; 110 % for 1 min. (max. ambient temperature 40 °C) – typical for pumps and fans
Voltage �
3-phase AC, 0 V to power supply voltage
Frequency range
0.5–400 Hz
Control method
V/f control, optimum excitation control or simple magnetic flux vector control
150 % of rated motor capacity for 3s; 120 % for 1 min. (max. ambient temperature 50 °C) – typical for conveyor belts and centrifuges
Modulation control
Sine evaluated PWM, Soft PWM
Carrier frequency
0.7 kHz–14.5 kHz (user adjustable)
Power supply voltage
3-phase, 380–480 V AC, -15% / +10%
Voltage range
323–528 V AC at 50 / 60 Hz
50 / 60 Hz ±5%
Power supply frequency
Rated input
capacity �
[kVA]
Others
120%overloadcapacity(SLD) 햶
SLD 햶
LD
2.8
5.0
6.1
10
13
19
22
31
37
45
57
73
88
110
2.5
4.5
5.5
9
12
17
20
28
34
41
52
66
80
100
1.51
Cooling
Self cooling
Protective structure
IP20 햸
Power loss
[kW]
Fan cooling
IP00
SLD 햶
0.06
0.08
0.1
0.16
0.19
0.24
0.34
0.39
0.49
0.58
0.81
1.0
1.17
LD
0.05
0.08
0.09
0.14
0.18
0.22
0.31
0.35
0.44
0.52
0.71
0.93
1.03
1.32
3.5
3.5
3.5
3.5
3.5
6.5
6.5
7.5
7.5
13
13
23
35
35
Frequency inverter weight [kg]
Frequency Inverters 156569 156570 156571 156572 156573 156594 156595 156596 156597 156598 156599
Order information 햹
Input Power Frame
169827 169828 169829
Control Card FR-CF70-EC
189878 189878 189878
Remarks:
Explanation for 햲 to 햹 see next page.
18
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SPECIFICATIONS FR-F700 ///
Technical Details FR-F740-01800 to -12120
FR-F740
Series
Rated
current
[A] 햷
Output
Output
capacity
[kVA]
120%overloadcapacity(SLD) 햶 90
110
132
160
185
220
250
280
315
355
400
450
500
560
630
150% overload capacity (LD)
75
90
110
132
160
185
220
250
280
315
355
400
450
500
560
120%
overload
capacity
(SLD) 햶
I rated 햷
180
216
260
325
361
432
481
547
610
683
770
866
962
1094
1212
I max.60 s
I max.3 s
198
238
286
357
397
475
529
602
671
751
847
953
1058
1203
1333
216
259
312
390
433
518
577
656
732
820
924
1039
1154
1313
1454
150%
overload
capacity
(LD)
I rated 햷
I max.60 s
I max.3 s
144
180
216
260
325
361
432
481
547
610
683
770
866
962
1094
173
216
259
312
390
433
518
577
656
732
820
924
1039
1154
1313
216
270
324
390
487
541
648
721
820
915
1024
1155
1299
1443
1641
SLD 햶
137
165
198
248
275
329
367
417
465
521
587
660
733
834
924
LD
110
137
165
198
248
275
329
367
417
465
521
587
660
733
834
Overload current SLD
rating �
LD
Input
120 % of rated motor capacity for 3s; 110 % for 1 min. (max. ambient temperature 40 °C) – typical for pumps and fans
150 % of rated motor capacity for 3s; 120 % for 1 min. (max. ambient temperature 50 °C) – typical for conveyor belts and centrifuges
Voltage �
3-phase AC, 0 V to power supply voltage
Frequency range
0.5–400 Hz
Control method
V/f control, optimum excitation control or simple magnetic flux vector control
Modulation control
Sine evaluated PWM, Soft PWM
Carrier frequency
0.7 kHz–6 kHz (user adjustable)
Power supply voltage
3-phase, 380–500 V AC, -15% / +10%
Voltage range
323–550 V AC at 50 / 60 Hz
50 / 60 Hz ±5%
Power supply frequency
Rated input
capacity �
[kVA]
SLD 햶
LD
Cooling
Power loss
[kW]
165
198
248
275
329
367
417
465
520
587
660
733
834
924
110
137
165
198
248
275
329
367
417
465
520
587
660
733
834
3.96
4.8
5.55
6.6
7.5
8.4
9.45
10.65
12.0
13.5
15.0
16.8
18.9
Fan cooling
Protective structure
Others
137
IP00
SLD 햶
2.7
LD
3.3
2.25
2.7
3.3
3.96
4.8
5.55
6.6
7.5
8.4
9.45
10.65
12.0
13.5
15.0
16.8
Frequency inverter weight [kg]
37
50
57
72
72
110
110
220
220
220
260
260
370
370
370
Reactor weight [kg]
20
22
26
28
29
30
35
38
42
46
50
57
67
85
95
Frequency Inverters
Order information
Input Power Frame 169830 169831 169832 169833 169834 169835 169836 169837 169838 169839 169840 169841 169842 169843 169844
Control Card FR-CF70-ECT 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879 189879
Remarks:
햲 The performance figures at the rated motor capacity are based on a motor voltage of 400 V.
햳 The overload capacity in % is the ratio of the overload current to the inverter’s rated current in the respective operating mode. For repeated duty cycles allow sufficient time for the inverter and the motor to
cool below the temperature reached at 100 % load. The waiting periods can be calculated using the r.m.s. current method (I² × t), for which knowledge of the duty.
햴 The maximum output voltage cannot exceed the power supply voltage. The output voltage can be varied over the entire power supply voltage range.
햵 The rated input capacity varies depending on the impedance values on the power supply side of the inverter (including the cables and input reactor).
햶 When the load curve with 120 % overload capacity is selected the maximum permitted ambient temperature is 40°C.
햷 When operating with carrier frequencies ³ 2.5 kHz this value is reduced automatically as soon as the frequency inverter exceeds 85% of the rated output current.
햸 When the cable bushing for the optional expansion cards is broken out the unit has an IP 00 protection rating.
햹 The inverter types FR-F740-02160 and above are all delivered with PCBs with two coats of protective varnish. For types FR-F740 00023 through 01800 varnished PCBs are standard. The double-coated version
is available as an option.
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19
SPECIFICATIONS
01800 02160 02600 03250 03610 04320 04810 05470 06100 06830 07700 08660 09620 10940 12120
Rated motor
capacity �
[kW]
Farbprofil: Deaktiviert
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/// SPECIFICATIONS FR-F700
Technical Details FR-F746-00023 to -01160
FR-F746
Series
Rated motor
capacity �
[kW]
SPECIFICATIONS
Rated
current
[A]
Output
Input
Others
Output
capacity
[kVA]
햶
00023
00038
00052
00083
00126
00170
00250
00310
00380
00470
00620
00770
00930
01160
5.5
7.5
11
15
18.5
22
30
37
45
55
0.75
1.5
2.2
3.7
150% overload capacity (LD)
0.75
1.5
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
햷
120%overload I rated
capacity
I max.60 s
(SLD) 햶
I max.3 s
2.3
3.8
5.2
8.3
12.6
17
25
31
38
47
62
77
93
116
2.5
4.2
5.7
9.1
13.9
18.7
27.5
34.1
41.8
51.7
68.2
84.7
102.3
127.5
2.8
4.6
6.2
10
15.1
20.4
30
37.2
45.6
56.4
74.4
92.4
111.6
139.2
2.1
3.5
4.8
7.6
11.5
16
23
29
35
43
57
70
85
106
2.5
4.2
5.8
9.1
13.8
19.2
27.6
34.8
42
51.6
68.4
84
102
127.2
3.1
5.2
7.2
11.4
17.2
24
34.5
43.5
52.5
64.5
85.5
105
127.5
159
SLD 햶
1.8
2.9
4.0
6.3
9.6
13
19.1
23.6
29.0
35.8
47.3
58.7
70.9
88.4
LD
1.6
2.7
3.7
5.8
8.8
12.2
17.5
22.1
26.7
32.8
43.4
53.3
64.8
80.8
120%overloadcapacity(SLD)
I rated 햷
150% overload
capacity
I max.60 s
(LD)
I max.3 s
Overload current SLD
rating �
LD
Voltage �
Frequency range
Control method
Modulation control
Carrier frequency
Power supply voltage
Voltage range
Power supply frequency
SLD 햶
Rated input
capacity �
LD
[kVA]
Cooling
Protective structure
SLD 햶
Power loss
[kW]
LD
120 % of rated motor capacity for 3s; 110 % for 1 min. (max. ambient temperature 30 °C) – typical for pumps and fans
150 % of rated motor capacity for 3s; 120 % for 1 min. (max. ambient temperature 40 °C) – typical for conveyor belts and centrifuges
3-phase AC, 0 V to power supply voltage
0.5–400 Hz
V/f control, optimum excitation control or simple magnetic flux vector control
Sine evaluated PWM, Soft PWM
0.7 kHz–14.5 kHz (user adjustable)
3-phase, 380–480 V AC, -15% / +10%
323–528 V AC at 50 / 60 Hz
50 / 60 Hz ± 5 %
0.06
0.08
0.1
0.16
0.19
0.24
0.34
0.39
0.49
0.58
0.81
1.0
1.17
1.51
0.05
0.08
0.09
0.14
0.18
0.22
0.31
0.35
0.44
0.52
0.71
0.93
1.03
1.32
Frame size
Frequency inverter weight [kg]
C
12.5
12.5
12.5
12.5
12.5
D
18.5
18.5
E
21.5
21.5
F
30
30
G
30
H
42
42
Order information
2.8
5.0
6.1
10
13
19
22
31
37
45
57
73
88
110
2.5
4.5
5.5
9
12
17
20
28
34
41
52
66
80
100
Fan cooling
IP54
163796 163797 163798 163799 163800 163801 163802 163803 163804 163805 163806 163807 163808 163809
Remarks:
햲 The performance figures at the rated motor capacity are based on a motor voltage of 400 V.
햳 The overload capacity in % is the ratio of the overload current to the inverter’s rated current in the respective operating mode. For repeated duty cycles allow sufficient time for the inverter and the motor to
cool below the temperature reached at 100% load. The waiting periods can be calculated using the r.m.s. current method (I² × t), for which knowledge of the duty.
햴 The maximum output voltage cannot exceed the power supply voltage. The output voltage can be varied over the entire power supply voltage range.
햵 The rated input capacity varies depending on the impedance values on the power supply side of the inverter (including the cables and input reactor).
햶 When the load curve with 120% overload capacity is selected the maximum permitted ambient temperature is 30°C.
햷 When operating with carrier frequencies ³ 2.5 kHz this value is reduced automatically as soon as the frequency inverter exceeds 85% of the rated output current.
20
Inverter_2007_GB_Druck.prn
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Freitag, 27. Juli 2007 09:58:50
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SPECIFICATIONS FR-F700 ///
Common Specifications FR-F700
Description
0.015 Hz / 0–50 Hz (terminal 2, 4: 0–10 V / 12 bit)
Frequency
Analog input
0.03 Hz / 0–50 Hz / (terminal 2, 4: 0–5 V / 11 bit, 0–20 mA / 11 bit, terminal 1: -10–+10 V / 12 bit)
setting
0.06 Hz / 0–50 Hz (terminal 1: 0–±5 V / 11 bit)
resolution
Digital input
0.01 Hz
±0.2 % of the maximum output frequency (temperature range 25° ±10 °C) via analog input;
Frequency accuracy
±0.01 % of the set output frequency (via digital input)
Base frequency adjustable from 0 to 400 Hz;
Control
Voltage / frequency characteristics
selection between constant torque, variable torque or optional flexible 5-point V/f characteristics
specifiStarting torque
120 % (3 Hz) when set to simple magnetic flux vector control and slip compensation
cations
Acceleration / deceleration time
0; 0.1 to 3600 s (can be set individually)
Acceleration / deceleration characteristics
Linear or S-form course, user selectable
Operating frequency (0–120 Hz), operating time ( 0–10 s) and operating voltage (0–30 %) can be set individually.
DC injection brake
The DC brake can also be activated via the digital input.
Stall prevention
Respones threshold 0–150%, user adjustable, also via analog input
Motor protection
Electronic motor protection relay (rated current user adjustable)
Terminal 2, 4: 0–5 V DC, 0–10 V DC, 0/4–20 mA
Analog
input
Frequency
Terminal 1: 0–±5 V DC, 0–±10 V DC
setting values
Digital input
Operation panel or optional expansion board
Start signal
Available individually for forward rotation and reverse rotation. Start signal automatic self-holding input (3-wire input) can be selected.
Any of 12 signals can be selected using parameters 178 to 189 (input terminal function selection):
multi speed, second parameter function, terminal 4 input, JOG operation, automatic restart after instantaneous power failure, external thermal relay
input, FR-HC connection (inverter operation enable signal) and FR-HC connection (instantaneous power failure detection), control panel operaInput signals
tion/external interlock signal, External DC injection brake operation start, PID control, control panel operation, control panel<->external operation,
output stop, start self-holding, traverse function selection, forward/reverse rotation command, inverter reset, PTC thermistor input, PID forward/reverse operation switchover, control panel<->NET, NET<->external operation, command source switchover
Any of 7 signals can be selected using parameter 190 to 196 (output terminal function selection):
Frequency control status, instantaneous power failure (under voltage), overload warning, output frequency detection, second output frequency
Control
detection, regenerative brake with pre-alarm (01800 and above), electronic thermal relay function with pre-alarm, control panel operation
signals for
mode, inverter operation ready, output current detection, zero current detection, PID lower limit, PID upper limit, PID forward rotation/reverse
operation
Operating state
rotation, commercial power supply-inverter switchover, direct mains operation motor 1-4, frequency inverter operation motor 1-4, inverter running start command ON, deceleration at an instantaneous power failure, PID control activated, re-start, PID output suspension, life time alarm,
alarm output 3 (OFF signal), power savings average value update timing, current average monitor, alarm output2, maintenance timer alarm,
remote outputs, minor failure output, alarm output, traverse operation, open-collector outputs (5 outputs), relay outputs (2 outputs), alarm
Output
code outputs (4 bits via open-collector)
signals
In
addition to the above operating modes parameters 313-319 (function selection for the additional 7 output terminals) can also be used to
When using the
the following four signals: control circuit capacitor life, main circuit capacitor life, cooling fan life, inrush current limit circuit life
FR-A7AY, FR-A7AR option assign
(Only positive logic can be set for extension terminals of the FR-A7AR)
You can also use parameter 54 (assign analog current output) and 158 (assign analog voltage output) to assign the following displays to one or
both outputs: output frequency, motor current (steady or peak), output voltage, frequency setting value, motor running speed, converter output
Analog output
voltage (steady or peak), electronic thermal relay function load factor, input voltage, output voltage, load meter, reference voltage output,
motor load factor, energy saving effect, regenerative brake circuit duty (01800 and above), PID set point, PID process value
Output frequency, motor current (steady or peak value), output voltage, alarm indication, frequency setting, motor running speed, converter
output voltage (steady or peak value), electronic thermal load factor, input power, output power, road meter, cumulativeenergization time,
Operating state
actual operation time, motor load factor, watt-hours meter, power saving effect, cumulative saving power, regenerative brake circuit duty
Control unit
(01800 and above), PID set point, PID process value, PID deviation monitor, I/O terminal monitor, optional input terminal monitor (FR-DU07
display
Display
only), optional output terminal monitor (FR-DU07 only), option fitting state monitor (FR-PU07 only), terminal assignment state (FR-PU07 only)
(FR-PU07/
FR-DU07)
Alarm definition is displayed when the protective function is activated, the output voltage/current/frequency/cumulativeenergization time right
Alarm definition
before the protection function was activated and the past 8 alarm definitions are stored.
Interactive guidance
Operation guide/trouble shooting with a help function (FR-PU07 only)
Overcurrent cutoff (during acceleration, deceleration or at constant speed), overvoltage cutoff (during acceleration, deceleration or at constant
speed), inverter protection thermal operation, motor protection thermal operation, heatsink overheat, instantaneous power failure occurence,
under voltage, input phase failure, motor overload, output short circuit, ground fault overcurrent, output phase failure, external thermal relay
operation, PTC thermistor operation, option alarm, parameter error, control unit disconnection, retry count excess, CPU alarm, power supply
Protection Protective
short for control panel, 24 V DC power output short, output current detection value over, inrush resistance overheat, communication error
functions
(frequency inverter), analog input alarm, internal circuit alarm (15 V DC power supply), fan fault,overcurrent stall prevention, overvoltage stall
prevention, electronic thermal pre-alarm, control unit stop, maintenance timer alarm (FR-DU07 only), MT-BU5 external brake module overload
(01800 and above), parameter write error, copy error, operation panel lock, parameter copy error
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
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21
SPECIFICATIONS
FR-F740 / FR-F746
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// SPECIFICATIONS FR-F700
CN8*
Intermediate circuit connections
Control circuit mains
supply connection
Motor
U
V
W
L1
L2
L3
3phase AC
power supply
L11
L21
ON
*The CN8 connector is provided with the inverter 01800 or
more.
Jumper for activating the
integrated interference
suppression filter
OFF
Main circuit
Protective earth
SPECIFICATIONS
N/-
P1
P/+
Block Diagram FR-F700
High speed
Middle speed
Low speed
Second function selection
Jog mode
Output stop
Current input selection / PTC
Selection of automatic restart
Common
Frequency setting
inputs
Reset
AU
PTC
PCT
Frequency setting
potentiometer
0,5 W 1 kW
Relay output 2
AM
CA
5
Running (Motor operation)
frequency setting value/current
value comparison
Instantaneous power failure
Overload
Frequency detection
Power supply for OC outputs
Analog signal output (0 – 10 V DC / 1 mA)
Analog signal output (0/4 – 20 mA)
Analog output common
2
5
(+)
(-)
1
Current input (+)
4
Auxiliary input
A2
B2
C2
RUN
SU
IPF
OL
FU
SE
PU Connector
10E
10
Relay output 1
(Alarm output)
Open collector
outputs
Start self-retaining selection
Multi-speed
selection
A1
B1
C1
TXD+
Data transmission
TXDRXD+ Data reception
RXDSG GND (Ground)
RS-485
terminal
Control input signals
Reverse rotation start
PC
STF
STR
STOP
RH
RM
RL
RT
JOG
MRS
AU
CS
SD
RES
SINK
Forward rotation start
SOURCE
24 V DC Output (max. 100 mA)
Relay outputs
Control circuit
(-)
VCC
5 V (max. 100 mA)
Connector/Slot for one
plug-in option connection
* Input area can be set
via parameters.
Assignment of Main Circuit Terminals
Function
Main circuit
connection
Terminal
Designation
Description
L1, L2, L3
Mains supply connection
Mains power supply of the inverters (380–480 V AC, 50/60 Hz); (380-500 V for FR-F700- 01800 and above)
P/+, N/-
External brake unit connection
An optional external brake resistor can be connected to the terminals P and N or you can connect a optional high power factor
converter.
P1, P/+
DC reactor connection
An optional DC reactor can be connected to the terminals P1 and P/+. The jumper on terminals P1 and P/+ must be removed when
this optional choke coil is used on frequency inverter models 01160 and below. The DC reactor supplied with the unit must be installed
on frequency inverter models 01800 and above.
U, V, W
Motor connection
Voltage output of the inverter (3-phase, 0 V up to power supply voltage, 0.5–400 Hz)
L11, L21
Control circuit mains supply connecTo use external power for the control circuit connect the mains power to L11/L21 (and remove jumpers L1 and L2).
tion
CN8
22
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 09:59:04
Ext. brake transistor control
Control connection for the MT-BU5 external brake module (for FR-F700-01800 or above)
PE
Protective earth connection of inverter
MITSUBISHI ELECTRIC
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Komposit Standardbildschirm
SPECIFICATIONS FR-F700 ///
Function
Terminal
Designation
Description
STF
Forward rotation start
The motor rotates forward, if a signal is applied to terminalSTF.
STR
Reverse rotation start
The motor rotates reverse, if a signal is applied to terminal STR.
STOP
Start self-retaining selection
The start signals are self-retaining, if a signal is applied to terminal STOP.
RH, RM, RL
Control
connection
(programmable)
Multi-speed selection
Preset of 15 different output frequencies
JOG
Jog mode selection
The JOG mode is selected, if a signal is applied to terminal JOG (factory setting). The inverters FR-A 540L-G 375 k and 450 k are not
equipped with a JOG terminal. The start signals STF and STR determine the rotation direction.
RT
Second parameter settings
A second set of parameter settings is selected, if a signal is applied to terminal RT.
MRS
Output stop
The inverter lock stops the output frequency without regard to the delay time. You can select a make or break signal for the controller
inhibit function by changing parameter 17.
RES
RESET input
An activated protective circuit is reset, if a signal is applied to the terminal RES (t > 0,1 s).
Current input selection
The 0/4–20mA signal on terminal 4 is enabled by a signal on the AU terminal.
PTC input
If you connect a PTC temperature sensor you must assign the PTC signal to the AU terminal and set the slide switch on the control circuit board to the PTC position.
CS
Automatic restart after
instantaneous power failure
The inverter restarts automatically after a power failure, if a signal is applied to the terminal CS.
SD
Reference potential (0V) for the
PC terminal (24V)
When “sink” control logic is selected by setting the control signal jumper a specific control function is triggered when the
corresponding control terminal is connected to the SD terminal.
When “source” control logic is selected and you are using external 24V power you must connect the 0V of the external power supply
to terminal SD. The SD terminal is isolated from the digital electronics withoptocouplers.
PC
24 V DC output
Internal power supply 24 V DC/0,1 A output
AU
Common
10 E
Voltage output for
potentiometer
10
Setting value
specification
Signal output
(programmable)
Output voltage 10 V DC.
Max. output current 10 mA.
Recommended potentiometer: 1 kW, 2 W linear
Output voltage 5 V DC.
Max. output current 10 mA.
Recommended potentiometer: 1 kW, 2 W linear
2
Input for frequency setting
value signal
The setting value 0–10 V or 0/4–20 mA is applied to this terminal. You can switch between voltage and currentsetpoint values with
parameter 73. The input resistance is 10 kW.
5
Frequency setting common and
analog outputs
Terminal 5 provides the common reference potential (0V) for all analog set point values and for the analog output signals CA (current)
and AM (voltage). The terminal is isolated from the digital circuit’s reference potential (SD). This terminal should not be grounded.
1
Auxiliary input for frequency
setting value signal
0–±5 (10) V DC
An additional voltage setting value signal of 0–±5 (10) V DC can be applied to terminal 1.
The voltage range is preset to 0–±10 V DC. The input resistance is 10 kW.
4
Input for setting value signal
The setting value 0/4–20 mA or 0–10 V is applied to this terminal. You can switch between voltage and currentsetpoint values with
parameter 267. The input resistance is 250 W.
The current setting value is enabled via terminal function AU.
A1, B1, C1
Potential free
Relay output 1 (Alarm)
The alarm is output via relay contacts. The block diagram shows the normal operation and voltage free status. If the protective
function is activated, the relay picks up.The maximum contact load is 200 V AC / 0.3 A or 30 V DC / 0.3 A.
A2, B2, C2
Potential free
Relay output 2
Any of the available 42 output signals can be used as the output driver.
The maximum contact load is 230 V AC / 0.3 A or 30 V DC / 0.3 A.
RUN
Signal output for motor operation
The output is switched low, if the inverter output frequency is equal to or higher than the starting frequency.
The output is switched high, if no frequency is output or the DC brake is in operation.
SU
Signal output for frequency set- The SU output supports a monitoring of frequency setting value and frequency current value. The output is switched low, once the
ting value/current value compar- frequency current value (output frequency of the inverter) approaches the frequency setting value (determined by the setting value
ison
signal) within a preset range of tolerance.
IPF
Signal output for instantaneous
power failure
OL
The OL is switched low, if the output current of the inverter exceeds the current limit preset in parameter 22 and the stall prevention
Signal output for overload alarm is activated. If the output current of the inverter falls below the current limit preset in parameter 22, the signal at theOL output is
switched high.
FU
Signal output for monitoring
output frequency
The output is switched low once the output frequency exceeds a value preset in parameter 42 (or 43). Otherwise the FU output is
switched high.
SE
Reference potential for signal
outputs
The potential that is switched via open collector outputs RUN, SU, OL, IPF and FU is connected to this terminal.
CA
Current output 0–20 mA
One of 18 monitoring functions can be selected, e.g. external frequency output. CA and AM output can be used simultaneously.
The functions are determined by parameters.
An amperemeter can be connected (measuring range: 0–20 mA).
AM
Analog output 0–10 V
(1 mA)
One of 18 monitoring functions can be selected, e.g. external frequency output. CA and AM output can be used simultaneously.
The functions are determined by parameters.
A DC voltmeter can be connected. The max. output voltage is 10 V.
—
Connection of control panel
(via RS485 terminal)
Communications via RS485
I/O standard: RS485, Multi-Drop operation, 4,800 – 38,400 Baud (overall length: 500 m)
—
RS484 terminal
(via RS485 terminal)
Communications via RS485
I/O standard: RS485, Multi-Drop operation, 300 – 38,400 Baud (overall length: 500 m)
Interface
MITSUBISHI ELECTRIC
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Freitag, 27. Juli 2007 09:59:09
The output is switched low for a temporary power failure within a range of 15 ms£ tIPF £ 100 ms or for under voltage.
23
SPECIFICATIONS
Assignment of Signal Terminals
Farbprofil: Deaktiviert
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/// SPECIFICATIONS FR-A700
The FR-A700 Series
Hz
A
V
The FR-A700 series is pure high technology. This new generation of Mitsubishi
Electric inverters combine innovative functions and reliable technology with maximum power, economy and flexibility.
Among many other features it enables
Online Autotuning for outstanding speed
constancy, excellent smooth running
performance for wear-free operation of a
synchronous motors, controlled shut down
after emergency stops and a large number
of digital inputs and outputs.
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
Hz
A
V
MON P.RUN
PU
EXT
NET
FWD
REV
PU
EXT
REV
FWD
MODE
SET
STOP
RESET
FR-DU07
MITSUBISHI
SPECIFICATIONS
FREQROL-F 700
!
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
Output range:
0.4 – 630 kW, 380 – 480 V
(as typ 01800: 380 – 500 V)
Available accessories:
Optional control units, versatile options
and useful accessories are available for
this frequency inverter.
Please refer to page 34 for details.
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR–F740–2.2K
Technical Details FR-A740-00023 to -01160
FR-A740
Series
00023 00038 00052 00083 00126 00170 00250 00310 00380 00470 00620 00770 00930 01160 01800
Rated motor
capacity �
[kW]
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
90
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
75
1.5
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
0.4
0.75
1.5
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
3.8
5.2
8.3
12.6
17
25
31
38
47
62
77
93
116
180
150% overload capacity (LD) 2.1
200% overload capacity (ND) 1.5
3.5
4.8
7.6
11.5
16
23
29
35
43
57
70
85
106
144
2.5
4
6
9
12
17
23
31
38
44
57
71
86
110
250% overload capacity (HD) 0.8
SLD
1.8
1.5
2.5
4
6
9
12
17
23
31
38
44
57
71
86
2.9
4.0
6.3
9.6
13.0
19.1
23.6
29.0
35.8
47.3
58.7
70.9
88.4
137
LD
1.6
2.7
3.7
5.8
8.8
12.2
17.5
22.1
26.7
32.8
43.4
53.3
64.8
80.8
110
ND
1.1
1.9
3.0
4.6
6.9
9.1
13.0
17.5
23.6
29.0
33.5
43.4
54.1
65.5
100
HD
0.6
1.1
1.9
3.0
4.6
6.9
9.1
13.0
17.5
23.6
29.0
33.5
43.4
54.1
80
SLD
110% of rated motor capacity for 60 s; 120% for 3 s (max. ambient temperature 40 °C) – inverse time characteristics
Overload current LD
rating �
ND
120% of rated motor capacity for 60 s; 150% for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
HD
200% of rated motor capacity for 60 s; 250% for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
Output
capacity �
[kVA]
150% of rated motor capacity for 60 s; 200% for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
Control method
Others
2.2
2.2
0.75
Voltage �
Frequency range
Input
1.5
1.5
250% overload capacity (HD) 0.25
120% overload capacity (SLD) 2.3
Rated
current
[A] �
Output
120% overload capacity (SLD) 0.75
150% overload capacity (LD) 0.75
200% overload capacity (ND) 0.4
Regenerative braking torque
Power supply voltage
Voltage range
Power supply frequency
SLD
Rated input
LD
capacity �
ND
[kVA]
HD
Cooling
Protective structure �
SLD
LD
ND
HD
Frequency inverter weight [kg]
Power loss
[kW]
3-phase AC, 0 V to power supply voltage
0.2 – 400 Hz
Soft-PWM control/high carrier frequency PWM control
(selectable from among V/f control, advanced magnetic flux vector control and real sensorless vector control)
100 % torque / 2 % ED
20 % torque / continuous �
20 % torque / continuous
3-phase, 380–480 V AC, -15% / +10%
323–528 V AC at 50 / 60 Hz
50 / 60 Hz ±5%
4.5
5.5
9
17
20
28
34
41
52
66
80
100
137
2.1
4
1.5
2.5
0.8
1.5
Self cooling
IP20 �
2.5
4.8
4.5
2.5
8
11.5
5.5
9
4.5
5.5
Fan cooling
12
16
12
9
20
17
12
27
20
17
32
28
20
37
34
28
47
41
34
60
52
41
73
66
52
91
80
66
110
100
80
0.06
0.082
0.98
0.15
0.21
0.28
0.39
0.4
0.55
0.69
0.97
1.18
1.36
1.78
2.65
0.05
0.05
0.043
3.8
0.08
0.065
0.05
3.8
0.09
0.075
0.06
3.8
0.14
0.1
0.075
3.8
0.18
0.15
0.1
3.8
0.22
0.2
0.146
7.1
0.31
0.25
0.18
7.1
0.35
0.29
0.21
7.5
0.44
0.4
0.29
7.5
0.52
0.54
0.4
13
0.71
0.65
0.54
13
0.93
0.81
0.65
23
1.03
1.02
0.74
35
1.32
1.3
1.02
35
2.0
1.54
1.14
37
IP00
Frequency Inverters 169826 169797 169798 169799 169800 169801 169802 169803 169804 169805 169806
Input Power Frame
169827 169828 169829 169830
Control Card FR-CA70-EC
169877 169877 169877 169877
Order information
Remarks:
Explanation for 햲 to 햺 see next page.
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SPECIFICATIONS FR-A700 ///
Technical Details FR-A740-01800 to -12120
FR-A740
Series
02160
Rated motor
capacity �
[kW]
03250
03610
04320
04810
05470
06100
06830
07700
08660
09620
10940
12120
132
160
185
220
250
280
315
355
400
450
500
550
630
150% overload capacity (LD)
132
160
185
220
250
280
315
355
400
450
500
560
90
110
132
160
185
220
250
280
315
355
400
450
500
250% overload capacity (HD) 55
75
90
110
132
160
185
220
250
280
315
355
400
450
120% overload capacity (SLD) 216
260
325
361
432
481
547
610
683
770
866
962
1094
1212
150% overload capacity (LD)
180
216
260
325
361
432
481
547
610
683
770
866
962
1094
200% overload capacity (ND) 144
180
216
260
325
361
432
481
547
610
683
770
866
962
250% overload capacity (HD) 110
144
180
216
260
325
361
432
481
547
610
683
770
866
SLD
165
198
248
275
329
367
417
465
521
587
660
733
834
924
LD
137
165
198
248
275
329
367
417
465
521
587
660
733
834
ND
110
137
165
198
248
275
329
367
417
465
521
587
660
733
HD
84
110
137
165
198
248
275
329
367
417
465
521
587
660
SLD
110 % of rated motor capacity for 60 s; 120 % for 3 s (max. ambient temperature 40 °C) – inverse time characteristics
LD
Overload
current rating � ND
120 % of rated motor capacity for 60 s; 150 % for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
HD
200 % of rated motor capacity for 60 s; 250 % for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
Output
capacity �
[kVA]
Voltage
150 % of rated motor capacity for 60 s; 200 % for 3 s (max. ambient temperature 50 °C) – inverse time characteristics
�
3-phase AC, 0 V to power supply voltage
Frequency range
0.2 – 400 Hz
Control method
Soft-PWM control/high carrier frequency PWM control
(selectable from among V/f control, advanced magnetic flux vector control and real sensorless vector control)
Regenerative braking torque
(nax. value / permissible duty)
20 %
torque / 10 % torque / continuous
cont.
Power supply voltage
3-phase, 380–500 V AC, -15 % / +10 %
Voltage range
323–550 V AC at 50 / 60 Hz
Power supply frequency
50 / 60 Hz ±5 %
Input
Rated input
capacity
[kVA]
SLD
165
198
247
275
329
366
416
464
520
586
660
733
833
924
LD
137
165
198
247
275
329
366
416
464
520
586
659
733
833
ND
110
137
165
198
248
275
329
367
417
465
521
587
660
733
HD
84
110
137
165
198
248
275
329
367
417
465
521
587
660
Cooling
Fan cooling
Protective structure
Others
90
SPECIFICATIONS
110
200% overload capacity (ND) 75
Rated
current [A] �
Output
02600
120% overload capacity (SLD) 110
IP00
SLD
2.9
3.57
3.8
4.2
5.02
5.5
6.4
7.2
8.19
8.6
10.37
11.5
13.2
14.94
LD
2.4
2.9
3.0
3.8
4.2
5.1
5.5
6.4
7.2
8.0
8.6
10.2
11.5
13.20
ND
1.9
2.4
2.5
3.0
4.0
4.2
5.0
5.5
6.5
7.0
7.3
8.1
9.3
10.5
HD
1.44
1.9
1.97
2.5
2.57
4.0
4.2
5.0
5.5
6.5
7.0
6.91
8.1
9.3
Frequency inverter weight [kg]
50
57
72
72
110
110
175
175
175
260
260
370
370
370
Reactor weight [kg]
22
26
28
29
30
35
38
42
46
50
57
67
85
95
Power loss [kW]
Frequency Inverters
Input Power Frame 169831 169832 169833 169834 169835 169836 169837 169838 169839 169840 169841 169842 169843 169844
Order information
Control Card FR-CA70-ECT 190051 190051 190051 190051 190051 190051 190051 190051 190051 190051 190051 190051 190051 190051
Remarks:
햲 The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi Electric 4-pole standard motor.
햳 The rated output capacity indicated assumes that the output voltage is 440 V.
햴 When operating the inverter of 75K (type 02160) or more with a value larger than 2 kHz set in Pr. 72 PWM frequency selection, the rated output current is max. 85 %.
햵 The % value of the overload current rating indicates the ratio of the overload current to the inverter's rated output current. For repeated duty, allow time forthe inverter and motor to return to or below the
temperatures under 100 % load.
햶 The maximum output voltage does not exceed the power supply voltage. The maximum output voltage can be changed within the setting range. However,the pulse voltage value of the inverter output side
voltage remains unchanged at about Ö2 that of the power supply
햷 For the 11K to 22K capacities (type 00310 to 00620), using the dedicated external brake resistor (FR-ABR) will achieve the performance of 100 % torque/6 % ED.
햸 The power supply capacity varies with the value of the power supply side inverter impedance (including those of the input reactor and cables).
햹 When the hook of the inverter front cover is cut off for installation of the plug-in option, the inverter changes to an open type (IP00).
햺 FR-DU07: IP40 (except for the PU connector)
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/// SPECIFICATIONS FR-A700
Common Specifications FR-A700
FR-A740
Description
Soft-PWM control/high carrier frequency PWM control (selectable from among V/F control, advanced magnetic flux vector control and real
sensorless vector control) / vector control (when used with option FR-A7AP) �
Control method
SPECIFICATIONS
Frequency
setting
resolution
Control
specifications
Analog input
Digital input
0.01 Hz
Frequency accuracy
±0.2 % of the maximum output frequency (temperature range 25° ± 10 °C) via analog input;
±0.01 % of the set output frequency (via digital input)
Voltage / frequency characteristics
Base frequency adjustable from 0 to 400 Hz;
selection between constant torque, variable torque or optional flexible 5-point V/f characteristics
Starting torque
200 % 0.3 Hz (0.4 K to 3.7 K), 150 % 0.3 Hz (5.5 K or more) (under real sensorless vector control or vector control)
Torque boost
Manual torque boost
Acceleration / deceleration time
0; 0.1 to 3600 s (can be set individually),
linear or S-pattern acceleration/deceleration mode, backlash measures acceleration/deceleration can be selected.
Acceleration / deceleration characteristics
Linear or S-form course, user selectable
DC injection brake
Operating frequency (0–120 Hz), operating time ( 0–10 s) and operating voltage (0–30 %) can be set individually.
The DC brake can also be activated via the digital input.
Stall prevention operation level
Operation current level can be set (0 to 220 % adjustable), whether to use the function or not can be selected
Motor protection
Electronic motor protection relay (rated current user adjustable)
Torque limit level
Torque limit value can be set (0 to 400 % variable)
Frequency
setting values
Analog input
Terminal 2, 4: 0–5 V DC, 0–10 V DC, 0/4–20 mA
Terminal 1: 0–±5 V DC, 0–±10 V DC
Digital input
Input using the setting dial of the operation panel or parameter unit
Four-digit BCD or 16 bit binary (when used with option FR-A7AX)
Start signal
Available individually for forward rotation and reverse rotation. Start signal automatic self-holding input (3-wire input) can be selected.
Common
Any of 12 signals can be selected using parameters 178 to 189 (input terminal function selection):
from among multi speed selection, remote setting, stop-on-contact, second function selection, third function selection, terminal 4 input selection, JOG operation selection, selection of automatic restart after instantaneous power failure, flying start, external thermal relay input, inverter
operation enable signal (FR-HC/FR-CV connection), FR-HC connection (instantaneous power failure detection), PU operation/external inter lock
signal , external DC injection brake operation start, PID control enable terminal, brake opening completion signal, PU operation/external operation switchover, load pattern selection forward rotation reverse rotation boost, V/F switching, load torque high-speed frequency, S-pattern acceleration/deceleration C switchover, pre-excitation, output stop, start self-holding selection, control mode changing, torque limit selection,
start-time tuning start external input, torque bias selection 1, 2 햲, P/PI control switchover, forward rotation command, reverse rotation command, inverter reset, PTC thermistor input, PID forward reverse operation switchover, PU-NET operation switchover, NET-external operation
switchover, and command source switchover
Pulse train input
100 kpps
Operating status
Any of 7 signals can be selected using parameter 190 to 196 (output terminal function selection):
from among inverter running, up-to-frequency, instantaneous power failure/undervoltage, overload warning, output frequency (speed) detection, second output frequency (speed) detection, third output frequency (speed) detection, regenerative brake prealarm, electronic thermal relay function pre-alarm, PU operation mode, inverter operation ready, output current detection, zero current detection, PID lower limit, PID upper
limit, PID forward rotation reverse rotation output, commercial power supply-inverter switchover MC1, commercial power supply-inverter
switchover MC2, commercial power supply-inverter switchover MC3, orientation completion 햲, brake opening request, fan fault output,
heatsink overheat pre-alarm , inverter running/start command on, deceleration at an instantaneous power failure, PID control activated, during
retry, PID output interruption, life alarm, alarm output 1, 2, 3 (power-off signal), power savings average value update timing, current average
monitor, maintenance timer alarm, remote output, forward rotation output 햲, reverse rotation output*1, low speed output, torque detection,
regenerative status output 햲, start-time tuning completion, in-position completion 햲, minor failure output and alarm output. Open collector
output (5 points), relay output (2 points) and alarm code of the inverter can be output (4 bit) from the open collector
Input signals
Control
signals for
operation
Output
signals
Display
0.015 Hz / 0–50 Hz (terminal 2, 4: 0–10 V / 12 bit)
0.03 Hz / 0–50 Hz / (terminal 2, 4: 0–5 V / 11 bit, 0–20 mA / 11 bit, terminal 1: -10–+10 V / 12 bit)
0.06 Hz / 0–50 Hz (terminal 1: 0–±5 V / 11 bit)
Control unit
display
(FR-PU07/
FR-DU07)
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In addition to the above operating modes parameters 313-319 (function selection for the additional 7 output terminals) can also be used to
When using the
the following four signals: control circuit capacitor life, main circuit capacitor life, cooling fan life, inrush current limit circuit life
FR-A7AY, FR-A7AR option assign
(Only positive logic can be set for extension terminals of the FR-A7AR)
Pulse train output
50 kpps
Analog output
You can select any signals using Pr. 54 FM terminal function selection (pulse train output) and Pr. 158 AM terminal function selection (analog
output) from among output frequency, motor current (steady or peak value), output voltage, frequency setting, operation speed, motor torque,
converter output voltage (steady or peak value), electronic thermal relay function load factor, input power, output power, load meter, motor
excitation current, reference voltage output, motor load factor, power saving effect, regenerative brake duty ,PID set point, PID measured value,
motor output, torque command, torque current command, and torque monitor.
Operating state
Output frequency, motor current (steady or peak value), output voltage, frequency setting, running speed,motor torque, overload, converter
output voltage (steady or peak value), electronic thermal relay function load factor, input power, output power, load meter, motor excitation
current, cumlative energization time, actual operation time, motor load factor, cumulative power, energy saving effect, cumulative saving
power, regenerative brake duty, PID set point, PID measured value, PID deviation, inverter I/O terminal monitor, input terminal option monitor
햳
, output terminal option monitor 햳, option fitting status 햴, terminal assignment status 햴, torque command, torque current command, feed
back pulse 햲, motor output
Alarm definition
Alarm definition is displayed when the protective function is activated, the output voltage/current/frequency/cumulativeenergization time
right before the protection function was activated and the past 8 alarm definitions are stored.
Interactive guidance
Operation guide/trouble shooting with a help function 햴
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SPECIFICATIONS FR-A700 ///
Description
Protection Protective
functions
Overcurrent during acceleration, overcurrent during constant speed, overcurrent during deceleration, overvoltage during acceleration,
overvoltage during constant speed, overvoltage during deceleration, inverter protection thermal operation, motor protection thermal operation,
heatsink overheat, instantaneous power failure occurrence, undervoltage, input phase failure, motor overload, output side earth (ground) fault
overcurrent, output short circuit, main circuit element overheat, output phase failure, external thermal relay operation, PTC thermistor operation, option alarm, parameter error, PU disconnection, retry count excess, CPU alarm, operation panel power supply short circuit, 24VDC power
output short circuit, output current detection value excess, inrush current limit circuit alarm, communication alarm (inverter), USB error, opposite rotation deceleration error, analog input error, fan fault, overcurrent stall prevention, overvoltage stall prevention, regenerative brake
prealarm, electronic thermal relay function prealarm, PU stop, maintenance timer alarm 햳, brake transistor alarm, parameter write error, copy
operation error, operation panel lock, parameter copy alarm, speed limit indication, encoder no-signal 햲, speed deviation large 햲, overspeed
햲
, position error large 햲, encoder phase error 햲
SPECIFICATIONS
FR-A740
Remarks:
햲 Only when the option (FR-A7AP) is mounted
햳 Can be displayed only on the operation panel (FR-DU07).
햴 Can be displayed only on the parameter unit (FR-PU07/FR-PU04).
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/// SPECIFICATIONS FR-A700
P1
P/+
PX
PR
N/CN8*
Block Diagram FR-A700
L1
L2
L3
3phase AC
power supply
Control circuit mains
supply connection
L11
L21
ON
Motor
U
V
W
R
*The CN8 connector is provided with the inverter 01800 or
more.
Jumper for activating the
integrated interference
suppression filter
OFF
Main circuit
Protective earth
SPECIFICATIONS
Intermediate circuit connections
High speed
Middle speed
Low speed
Second function selection
Jog mode
Output stop
Current input selection / PTC
Selection of automatic restart
Common
Frequency setting
inputs
Reset
AU
PTC
PCT
Frequency setting
potentiometer
0,5 W 1 kW
Relay output 2
AM
CA
5
Running (Motor operation)
frequency setting value/current
value comparison
Instantaneous power failure
Overload
Frequency detection
Power supply for OC outputs
Analog signal output (0 – 10 V DC / 1 mA)
Analog signal output (0/4 – 20 mA)
Analog output common
2
5
(+)
(-)
1
Current input (+)
4
Auxiliary input
A2
B2
C2
RUN
SU
IPF
OL
FU
SE
PU Connector
10E
10
Relay output 1
(Alarm output)
Open collector
outputs
Start self-retaining selection
Multi-speed
selection
A1
B1
C1
TXD+
Data transmission
TXDRXD+ Data reception
RXDSG GND (Ground)
RS-485
terminal
Control input signals
Reverse rotation start
SINK
PC
STF
STR
STOP
RH
RM
RL
RT
JOG
MRS
AU
CS
SD
RES
Forward rotation start
SOURCE
24 V DC Output (max. 100 mA)
Relay outputs
Control circuit
(-)
VCC
* Input area can be set
via parameters.
5 V (max. 100 mA)
Connector/Slot for up to three
plug-in option connections
Assignment of Main Circuit Terminals
Function
Terminal
Description
L1, L2, L3
Mains supply connection
Mains power supply of the inverters (380–480 V AC, 50/60 Hz); (380-500 V – 01800 and above)
P/+, PR
Brake resistor connection
An optional brake resistor (FR-ABR) can be connected across these terminals. The PR terminal is provided only for type 00023 – 00620.
P/+, N/-
A brake unit (FR-BU and BU, MT-BU5), power regeneration common converter (FR-CV) or regeneration common converter (MT-RC) and high
power factor converter (FR-HC, MT-HC) can be connected to these terminals.
An optional DC reactor can be connected to the terminals P1 and P/+. The jumper on terminals P1 and P/+ must be removed when this opDC reactor connection
tional choke coil is used on frequency inverter models 01160 and below. The DC reactor supplied with the unit must be installed on frequency
inverter models 01800 and above.
the jumper is connected across terminals PR and PX (initial status), the built-in brake reactor circuit is valid. The PX terminal is provided
Built-in brake circuit connection When
only for type 00023 – 00250.
P/+, P1
Main circuit
connection
Designation
PR, PX
Brake unit connection
U, V, W
Motor connection
Voltage output of the inverter (3-phase, 0 V up to power supply voltage, 0.5–400 Hz)
L11, L21
Power supply for control circuit
To use external power for the control circuit connect the mains power to L11/L21 (and remove jumpers L1 and L2).
Ext. brake transistor control
Control connection for the MT-BU5 external brake module
PE
Protective earth connection of inverter
CN8
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SPECIFICATIONS FR-A700 ///
Function
Terminal
STF
The motor rotates forward, if a signal is applied to terminalSTF.
STR
Reverse rotation start
The motor rotates reverse, if a signal is applied to terminal STR.
Start self-retaining selection
The start signals are self-retaining, if a signal is applied to terminal STOP.
JOG
RT
Multi-speed selection
Preset of 15 different output frequencies according to the combination of the RH, RM and RL signals.
Jog mode selection
The JOG mode is selected, if a signal is applied to this terminal (factory setting). The start signalsSTF and STR determine the rotation
direction.
Pulse train input
The JOG terminal can be used as pulse train input terminal (parameter 291 setting needs to be changed)
Second parameter settings
A second set of parameter settings is selected, if a signal is applied to terminal RT.
MRS
Output stop
The inverter lock stops the output frequency without regard to the delay time.
RES
RESET input
An activated protective circuit is reset, if a signal is applied to the terminal RES (t > 0,1 s).
Current input selection
The 0/4–20mA signal on terminal 4 is enabled by a signal on the AU terminal.
PTC input
If you connect a PTC temperature sensor you must assign the PTC signal to the AU terminal and set the slide switch on the control circuit board to the PTC position.
AU
Common
Description
STOP
RH, RM, RL
Control
connection
(programmable)
Designation
Forward rotation start
CS
Automatic restart after instantaThe inverter restarts automatically after a power failure, if a signal is applied to the terminal CS.
neous power failure
SD
Reference potential (0V) for the
PC terminal (24V)
When “sink” control logic is selected by setting the control signal jumper a specific control function is triggered when the corresponding control terminal is connected to the SD terminal.
When “source” control logic is selected and you are using external 24V power you must connect the 0V of the external power supply
to terminal SD. The SD terminal is isolated from the terminals 5 and SE withoptocouplers.
PC
24 V DC output
Internal power supply 24 V DC/0,1 A output
10 E
Voltage output for
potentiometer
10
Setting value
specification
Input for frequency setting
value signal
The setting value 0 to 5 V DC (or 0–10 V, 0/4–20 mA) is applied to this terminal. You can switch between voltage and current
setpoint values with parameter 73. The input resistance is 10 kW.
5
Frequency setting common and
analog outputs
Terminal 5 provides the common reference potential (0V) for all analog set point values and for the analog output signals CA (current)
and AM (voltage). The terminal is isolated from the digital circuit’s reference potential (SD). This terminal should not be grounded.
1
Auxiliary input for frequency setAn additional voltage setting value signal of 0–±5 (10) V DC can be applied to terminal 1.
ting value signal
The voltage range is preset to 0–±10 V DC. The input resistance is 10 kW.
0–±5 (10) V DC
4
Input for setting value signal
The setting value 0/4–20 mA or 0–10 V is applied to this terminal. You can switch between voltage and currentsetpoint values with
parameter 267. The input resistance is 250 W. The current setting value is enabled via terminal function AU.
A1, B1, C1
Potential free
relay output 1 (Alarm)
The alarm is output via relay contacts. The block diagram shows the normal operation and voltage free status. If the protective
function is activated, the relay picks up.The maximum contact load is 200 V AC / 0.3 A or 30 V DC / 0.3 A.
A2, B2, C2
Potential free
relay output 2
Any of the available 42 output signals can be used as the output driver.
The maximum contact load is 230 V AC / 0.3 A or 30 V DC / 0.3 A.
Signal output for motor
operation
The output is switched low, if the inverter output frequency is equal to or higher than the starting frequency.
The output is switched high, if no frequency is output or the DC brake is in operation.
SU
IPF
OL
FU
SE
FM
Signal output for frequency set- The SU output supports a monitoring of frequency setting value and frequency current value. The output is switched low, once the
ting value/current value compar- frequency current value (output frequency of the inverter) approaches the frequency setting value (determined by the setting value
ison
signal) within a preset range of tolerance.
Signal output for instantaneous
The output is switched low for a temporary power failure within a range of 15 ms£ tIPF £ 100 ms or for under voltage.
power failure
The OL is switched low, if the output current of the inverter exceeds the current limit preset in parameter 22 and the stall prevention
Signal output for overload alarm is activated. If the output current of the inverter falls below the current limit preset in parameter 22, the signal at theOL output is
switched high.
Signal output for monitoring
The output is switched low once the output frequency exceeds a value preset in parameter 42 (or 43). Otherwise the FU output is
output frequency
switched high.
Reference potential for signal
outputs
Connection for measuring
instrument
Open collector output
Interface
Output voltage 5 V DC.
Max. output current 10 mA.
Recommended potentiometer: 1 kW, 2 W linear
2
RUN
Signal
output
(programmable)
Output voltage 10 V DC.
Max. output current 10 mA.
Recommended potentiometer: 1 kW, 2 W linear
The potential that is switched via open collector outputs RUN, SU, OL, IPF and FU is connected to this terminal.
Output item: output frequency (initial setting),
permissible load current 2 mA, 1440 pulses/s at 60 Hz
One of 18 monitoring functions can be selected, e.g.
external frequency output. FM and AM output can be Signals can be output from the open collector terminals by setting
used simultaneously. The functions are determined by parameter 291 (max. output pulse 50 kpulses/s)
parameters.
Output item: output frequency (initial setting), output signal 0 to 10 V DC,
permissible load current 1 mA (load impedance >10 kW), 8 bit
AM
Analog signal output
0–10 V DC (1 mA)
—
PU connector
A parameter unit can be connected. Communications via RS485
I/O standard: RS485, Multi-Drop operation, 4,800 – 38,400 Baud (overall length: 500 m)
—
RS484 terminal
(via RS485 terminal)
Communications via RS485
I/O standard: RS485, Multi-Drop operation, 300 – 38,400 Baud (overall length: 500 m)
—
USB connector
This USB interface is used to connect the inverter to a peronal computer (conforms to USB1.1)
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SPECIFICATIONS
Assignment of Signal Terminals
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/// SPECIFICATIONS ALL INVERTERS
Parameter Overview
For simple variable-speed operation of the
inverter, the initial setting of the parameters may be used as they are.
Set the necessary parameters to meet the
load and operational specifications.
The following list is an overview on the
capabilities and functions of each inverter.
For details of parameters, refer to the
appropriate instruction manual see
www.mitsubishi-automation.de.
FR-S500E
FR-E 500
FR-F700
FR-A700
Basic parameters
쏹
쏹
쏹
쏹
Parameters for standard drive operation
쏹
쏹
쏹
쏹
Settings of control outputs
쏹
쏹
쏹
쏹
Automatic torque boost
쏹
—
—
—
Function
SPECIFICATIONS
Parameter setting, change and check can
be made from the operation panel or by
the Software FR-Configurator (see page 42
for more details).
2nd parameter settings
쏹
쏹
쏹
쏹
3nd parameter settings
—
—
—
쏹
Display functions
쏹
쏹
쏹
쏹
Restart
쏹
쏹
쏹
쏹
Operation settings
쏹
쏹
쏹
쏹
Vector control
—
쏹
쏹
쏹
Adjustable 5 points V/F
—
—
쏹
쏹
Orientation control
—
—
—
쏹
Encoder feedback
—
—
—
쏹
Pulse train input
—
—
—
쏹
Conditional position feed function
—
—
—
쏹
Torque command
—
—
—
쏹
Torque limit
—
—
—
쏹
Torque bias
—
—
—
쏹
Speed limit
—
—
—
쏹
Easy gain tuning
—
—
—
쏹
Adjustment function
—
—
—
쏹
Control system functions
—
—
—
쏹
Communication functions
쏹
쏹
쏹
쏹
PLC function
—
—
—
쏹
PID control
쏹
쏹
쏹
쏹
Commercial power supply switch-over
—
—
쏹
쏹
Backlash
—
—
쏹
쏹
Display
쏹
쏹
쏹
쏹
Variable current limiting
—
—
쏹
쏹
Output current detection
쏹
쏹
쏹
쏹
Auxiliary function
쏹
쏹
쏹
쏹
Restart
쏹
쏹
쏹
쏹
Cumulative monitor clear
—
쏹
쏹
쏹
User functions
—
쏹
쏹
쏹
Terminal functions selection
쏹
쏹
쏹
쏹
Multi-speed setting
쏹
쏹
쏹
쏹
Help functions
—
쏹
쏹
쏹
Slip compensation
쏹
쏹
쏹
쏹
30
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Function
FR-S500E
FR-E 500
FR-F700
FR-A700
Life check
—
—
쏹
쏹
Special functions
—
—
쏹
쏹
Power failure stop
—
—
쏹
쏹
Load torque high speed frequency control
—
—
—
쏹
Stop-on contact control
—
—
—
쏹
Brake sequence function
—
—
—
쏹
Droop control
—
—
—
쏹
Other functions
—
—
쏹
쏹
Remote outputs
—
—
쏹
쏹
Maintenance functions
쏹
—
쏹
쏹
Current average monitor
쏹
—
쏹
쏹
PID Sleep function
—
—
쏹
—
Advanced PID control
—
—
쏹
—
Traverse function
—
—
쏹
쏹
Regeneration avoidance function
—
—
쏹
쏹
Free parameter
—
—
쏹
쏹
Energy saving monitor
—
—
쏹
쏹
Calibration function
쏹
쏹
쏹
쏹
Analog current output calibration function
—
—
쏹
쏹
Help functions
쏹
쏹
쏹
쏹
SPECIFICATIONS
SPECIFICATIONS ALL INVERTERS ///
Setting parameters (example)
Select parameter
Parameter setting mode
approx. 2 s
Display the current setting
Parameter and a setting value
flicker alternately
Parameter clear
Parameter all clear
Alarm clear
Parameter copy
MITSUBISHI ELECTRIC
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31
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/// SPECIFICATIONS ALL INVERTERS
General Operating Conditions for all Inverters
Specifications
Ambient temperature in operation
Storage temperature 햴
Ambient humidity
Altitude
SPECIFICATIONS
Protective structure
Shock resistance
Vibration resistance
Ambient conditions
Approvals
FR-S500E
-10 °C to +50 °C
(non-freezing)
FR-E500
FR-F700
FR-A700
-10 °C to +50 °C
(non-freezing) 햲
FR-F740: -10 °C to +50 °C;
FR-F746: -10 °C to +40 °C
(non-freezing) 햳
-10 °C to +50 °C
(non-freezing)
-20 to +65 °C
-20 to +65 °C
-20 to +65 °C
-20 to +65 °C
Max. 90 % (non-condensing)
Max. 90 % (non-condensing)
Max. 90 % (non-condensing)
Max. 90 % (non-condensing)
Max. 1000 m above sea level.
Max. 1000 m above sea level.
IP 00 / IP 20
Max. 1000 m above sea level.
햵
Max. 1000 m above sea level.
햵
Enclosed type IP 20
Enclosed type IP 20
FR-F740: IP 00 / IP 20 햶
FR-F746: IP 54
10 G (3 times each in 3 directions)
10 G (3 times each in 3 directions)
10 G (3 times each in 3 directions)
10 G (3 times each in 3 directions)
Max. 0.6 G
(2.9m/s² or less for the 04320 or
more.)
Max. 5.9 m/s² or less
(2.9 m/s² or less for the models from
FR-A740-04320 or above)
For indoor use only, avoid environments containing corrosive gases,
install in a dust-free location.
0.6 G: resistance to vibrations from
0.6 G: resistance to vibrations from
10 to 55 Hz for 2 hours along all 3 axes 10 to 55 Hz for 2 hours along all 3 axes
For indoor use only, avoid environments containing corrosive gases,
install in a dust-free location.
For indoor use only, avoid environments containing corrosive gases,
install in a dust-free location.
For indoor use only, avoid environments containing corrosive gases,
install in a dust-free location.
UL / CSA / CE / EN / GOST / CCC
UL / CSA / CE / EN / GOST / CCC
FR-F740: CE/UL/cUL/DNV/GOST;
FR-F746: CE/GOST / CCC
CE/UL/cUL/DNV/GOST / CCC
Remarks:
햲 For selection of the load characteristics with variable torque the max. temperature is 40 °C.
햳 For selection of the load characteristics with a 120 % overload rating the max. temperature is 40 °C (F740) and 30 °C (F746).
햴 The product may only be exposed to the full extremes of this temperature range for short periods (e.g. during transportation).
햵 After that derate by 3 % for every extra 500 m up to 2500 m.
햶 When the cable bushing for the optional expansion cards is broken out the unit has an IP 00 protection rating.
32
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ACCESSORIES OVERVIEW ///
Internal and External Options
Option
Internal
options
Description
The internal options comprise input
and output extensions as well as
communications options supporting
the operation of the inverter within a
network or connected to a personal
computer or PLC.
External Options
In addition to the FR-PU07 control
panel that enables interactive operation of the frequency inverter the
available external options also include additional EMC noise filters,
reactors for improving efficiency and
brake units with brake resistors.
FR-S500E
FR-E500
FR-F700
FR-A700
Digital input
Input of the frequency setting via BCD or binary code
—
—
쏹
쏹
Digital output
Selectable standard output signals of the inverter can be output at
the open collector.
—
—
쏹
쏹
Expansion analog output
Selectable additional signals can be output and indicated at the
analog output.
—
—
쏹
쏹
Relay output
Selectable standard output signals of the inverter can be output
through relay terminals.
—
—
쏹
쏹
Orientation control,
Encoder feedback contro (PLG),
Vector control
This option is used for position control and precise speed control.
—
—
—
쏹
SSCNET
Integration of a frequency inverter into a SSCNET.
—
—
—
쏹
Profibus/DP
Integration of a frequency inverter into a Profibus/DP network.
—
쏹
쏹
쏹
DeviceNet TM
Integration of a frequency inverter into a DeviceNet.
—
쏹
쏹
쏹
CC-Link
Integration of a frequency inverter into a CC-Link network.
—
쏹
쏹
쏹
LonWorks
Integration of a frequency inverter into a LonWorks network.
—
—
쏹
—
CANopen
Integration of a frequency inverter into a CANopen network.
—
쏹
—
쏹
Ethernet
Integration of a frequency inverter into a Ethernet network.
—
—
쏹
쏹
Communications
Option
External
options
Internal options
FR-S500E
FR-E500
FR-F700
FR-A700
Control panel (8 languages)
Interactive control panel with LCD display.
Description
쏹
쏹
쏹
쏹
FR-Configurator software
Parameterization and setup software for the Mitsubishi Electric
inverter series.
쏹
쏹
쏹
쏹
EMC noise filter
Noise filter for compliance with EMC directives.
쏹
쏹
쏹
쏹
Brake unit
For an improvement of the brake capacity. For high inertia loads and
active loads. Used in combination with a resistor unit.
쏹
쏹
쏹
쏹
External brake resistor
To improve the brake capacity of the inverter. Depending on the
inverter type it is used in combination with a brake unit.
쏹
쏹
쏹
쏹
DC reactor
AC chokes
For increased efficiency, reduction of mains feedback and compensation of voltage fluctuations.
쏹
쏹
쏹
쏹
Floor standing unit FSU
IP 20 physical contact protection in a freely-locatable floorstanding unit. Detailed information on request.
—
—
쏹
쏹
MITSUBISHI ELECTRIC
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33
ACCESSORIES
1
A large number of options allows an
individual adoption of the inverter to
the according task. The options can
be installed quickly and easily. Detailed information on installation and
functions is included in the manual
of the options.
The options can be divided into two
major categories:
앬 Internal options
앬 External options
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/// ACCESSORIES OVERVIEW
Overview Internal Options
Internal options
Description
Remarks/Specifications
Type
Applicable
inverter
Art. no.
16-bit digital input
Interface for the input of the frequency setting via 4-digit BCD
or 16-bit binary code, setting of gain and bias supported.
Input: 24 V DC; 5 mA; open collector
or switching signal, sink or source logic
FR-A7AX
FR-F700
FR-A700
156775
Digital output
Selectable of 43 standard output signals of the inverter can
be output at the open collector. The outputs are isolated with optocouplers.
Output load: 24V DC; 0.1 A,
sink or source logic
FR-A7AY
FR-F700
FR-A700
156776
Expansion analog output
Selectable 2 of 18 additional signals (e.g. output frequency, output voltage, out- Output: max. 0–10 V DC; 0–20 mA;
put current) can be output and indicated at the analog output.
Resolution: 3 mV at voltage output,
Display on measuring gauge: 20 mA DC or 5 V (10 V) DC
1 mA at current output, accuracy: ±10%
Relay output
Selectable 3 of 43 standard output signals of the inverter can be output through Switching load: 230 V AC/0.3 A,
relay terminals.
30 V DC/0.3 A
FR-A7AR
FR-F700
FR-A700
156777
FR-A7AP
FR-A700
166133
FR-E5NC
FR-E500
104558
FR-A7NC
FR-F700
FR-A700
156778
OI-FR-E5NCO
FR-E500
139378
FR-A7NCA
FR-A700
141403
Vector control with encoder can be performed.
ACCESSORIES
Vector control and
orientation/encoder
5 V TTL differential
The main spindle can be stopped at a fixed position (orientation) in combination 1024–4096 pulse
with a pulse encoder. The motor speed is sent back and the speed is maintained 11 – 30 V HTL complimentary
constant.
CC-Link
Option board for the integration of a frequency inverter into a CC-Link network.
The operation, display functions, and parameter settings can be controlled by a
PLC.
Maximum transfer distance:
1200 m (at 156 kBaud)
CAN Open
Option board for integration of a frequency inverter in a CAN Open network.
Operation, display functions and parameter settings can be controlled by a
computer (PC etc.) or a PLC.
Maximum transfer rate: 1 MBaud
Ethernet
Option board for integration of a frequency inverter in a Ethernet network.
Operation, display functions and parameter settings can be controlled by a
computer (PC etc.) or a PLC.
Only NA version
FR-A7NE
FR-A700
on request
LonWorks
Option board for integration of a frequency inverter in a LonWorks network.
Operation, display functions and parameter settings can be controlled by a
computer (PC etc.) or a PLC.
Connection of up to 64 inverters
supported. Maximum transfer rate: 78 kBaud
FR-A7NL
FR-F700
FR-A700
156779
Connection of up to 126 inverters supported.
Maximum transfer rate: 12 MBaud
Option board for the integration of a frequency inverter into a Profibus/DP network. The operation, display functions, and parameter settings can be controlled D-Sub9 connection adapter for FR-A7NP
by a computer (PC etc.) or a PLC.
FR-A7NP
FR-F700
FR-A700
158524
FR-D-Sub9
FR-F700
FR-A700
191751
FR-E5NP
FR-E500
104556
FR-A7ND
FR-F700
FR-A700
158525
FR-E5ND
FR-E500
104557
FR-A7NS
FR-A700
141403
Communications
Profibus/DP
Connection of up to 42 inverters supported.
DeviceNet TM
Option board for the integration of a frequency inverter into a DeviceNet.
The operation, display functions, and parameter settings can be controlled by
a computer (PC etc.) or a PLC.
SSCNET III
Option board for the integration of a frequency inverter into the Mitsubishi Electric servo system network SSCNET III. The operation and display functions can be Maximum transfer rate: 50 MBaud
controlled by Motion Controller (Q172H CPU, Q173H CPU).
Maximum transfer rate: 10 MBaud
Mounting example
of an internal option
FR-A7NL
RUN–
RX–
WINK–
LRUN–
TX–
SERVICE–
®
LONWORKS
NET_B
CON2
FG
3
D199K3C
1
NET_A
Interface
ECHELON
FTT-10A
50051
T0121B
1
FR-A7NL
RUN–
RX–
WINK–
LRUN–
TX–
SERVICE–
®
LONWORKS
34
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Interface
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ACCESSORIES OVERVIEW ///
Overview External Options
Description
Remarks/Specifications
Type
Applicable
inverter
Art. no.
Interactive standard control panel
Please refer to page 8 for details.
FR-PA02-02
FR-E500
103686
Control panel
(parameter unit)
FR-PU04
All
67735
Interactive control panel with LCD display (8 languages).
Please refer to page 39 for details.
FR-PU07
All
166134
FR-DU07
All
157514
Control panel cover
Cover for the backside of the control panel FR-PA02-02 or FR-PU04
Connection adapter integrated.
FR-ESP
FR-E500
Connection cable for
remote control panel
Cable for a remote connection of the control panel FR-PU04 or FR-PU07.
Adapter
Connection adapter for FR-DU07
Interface cable
Communications cable for RS232 or RS485 interface to connect
an external personal computer
USB-RS232 converter
Port converter adapter cable from RS-232 to USB
VFD setup software
Parameterization and setup software for Mitsubishi Electric inverter.
FR-Configurator
Parameterization and setup software for Mitsubishi Electric inverter.
DIN rail mounting set
Adapter for mounting frequency inverters on a DIN rail.
125323
FR-A5 CBL
All
1 m: 70727
2.5m:70728
5 m: 70729
Required for remote connection of the
FR-ADP
FR-DU07 with FR-A5CBL
Length 3 m; can be used for example with the SC-FR PC
setup/configuration software
USB-RS232
USB specification 1.1, 0.35 m long
All
157515
All
88426
Available length: 1; 2.5 and 5 m
FR-F700
155606
All 500 series
159746
—
All 700 series
190586
FR-UDA 01
FR-S500
(<0.75 k)
130833
FR-UDA 02
FR-S500
(>1.5 k)
130832
—
Please refer to page 42 for details.
When using the DIN rail adapters, filters can
not be footprint mounted.
EMC noise filter
Noise filter for compliance with EMC directives.
Please refer to page 36 for details.
FFR -첸 첸, All
FR-, FN -첸 첸
AC chokes
For increased efficiency, reduction of mains feedback and compensation
of voltage fluctuations.
Please refer to page 38 for details.
FR-BAL-B
FR-E500,
FR-A700,
FR-F700
refer to
page 38
DC reactor 햲
DC reactor for compensation of voltage fluctuations.
Please refer to page 39 for details.
MT-HEL 햲
FR-A700
FR-F700
refer to
page 39
Brake units
For an improvement of the brake capacity. For high inertia loads and active
loads. Used in combination with a resistor unit.
Please refer to page 40 for details.
MT-BU 5,
BU-UFS
FR-A700
FR-F700
refer to
page 40
External brake resistors
To improve the brake capacity of the inverter;
is used in combination with a brake unit
Please refer to page 41 for details.
MT-BR 5,
RUFC
FR-E500
refer to
page 41
햲
refer to
page 36
A DC reactor is included as standard equipment with frequency inverters FR-F740-01800 through 12120 and FR-A740-01800 through 12120. These reactors are essential for operation and must be installed.
Installing an EMC noise filter
on an FR-F700
Installing an EMC noise filter
on an FR-E540
LINE
PE
!
E
L3
L2
L1
MON P.RUN
Hz
NET
A PU EXT
FWD
V REV
PU
EXT
REV
MODE
SET
FWD
CE
FR-DU07
NOISE FILTER
FR-E5NF-H3.7K
Hz RUN
A MON
PU EXT
CE
LO
MITSUBISHI
RUN
STOP
RESET
MITSUBISHI
L1’
L2’
L3’
E
!
!
and electric shock
ons before use.
DANGER: Risk of injury
follow the safety instructi
Read the manual and wait 10 minutes before removing this cover.
Isolate from supply and
on
Ensure proper earth connecti
CAUTION: Risk of fire
a non-combustible surface.
on
inverter
the
Mount
400V
FR–F740–2.2K
MITSUBISHI ELECTRIC
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35
ACCESSORIES
External options
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/// NOISE FILTERS
왎 Noise Filters for FR-S520/540
Noise filters for FR-S500 series
!
L1
N1
For complying with the EMC directives
of the European Community regarding
the electromagnetic compatibility, the
FR-S500E inverter has to be equipped
with a noise filter across the input circuit.
Additionally it has to be installed and
wired according to the EMC directives.
PE
Frequency inverter
Filter
FFR-S520S-14A-RF1 햲
ACCESSORIES
To ensure a proper and safe operation of
the components follow the points below:
앬 For the selection of a ground fault protective switch or relay take the leakage
current of the filter into account.
앬 Ensure a perfect grounding of the filter,
if you do not intend to use a protective
switch or relay across the input circuit.
햳
Power
loss [W]
Rated
current
[A]
6.5
14
FR-S520SE-0.2 k–0.75 k
Weight
Leakage
[kg]
current [mA]
<7
0.8
Art no.
152736
FR-S520SE-1.5 k
12
20
< 10
1.0
152740
FFR-S540-8A-RF100 햴
FR-S540E-0.4–1.5 k
5.1
8
< 10
0.8
138425
FFR-S540-13A-RF100 햴
FR-S540E-2.2–3.7 k
7.1
13
< 10
0.9
138423
FFR-S520S-20A-RF1
햲
햳
햴
The filters can provide conformity with the limits for: Environment 1 (unrestricted distribution) with motor cable lenght of up to 30 m,
Environment 1 (restricted distribution) with motor cable lenght of up to 75 m, 100 A limits of Environment2 with motor cable lengths
of up to 75 m.
The filters can provide conformity with the limits for: Environment 1 (unrestricted distribution) with motor cable lenght of up to 30 m,
Environment 1 (restricted distribution) with motor cable lenght of up to 100 m, 100 A limits of Environment2 with motor cable lengths
of up to 100 m.
The filters can provide conformity with the limits for: Environment 1 (unrestricted distribution) with motor cable lenght of up to 20 m,
Environment 1 (restricted distribution) with motor cable lenght of up to 100 m, 100 A limits of Environment2 with motor cable lengths
of up to 100 m.
왎 Noise Filters for FR-E520/540
Noise filters for FR-E500 series
앬 Ground the filter prior to applying the
MEU-MAT-NO.
126654
LINE
For complying with the EMC directives of
the European Community regarding the
electromagnetic campatibility, the FR-E500
inverter has to be equipped with a noise
filter across the input circuit.
Additionally it has to be installed and
wired according to the EMC directives.
The filters are designed to reduce conducted noise voltages to comply with the
limits defined for Environments 1 and 2.
To ensure a proper and safe operation of
the components follow the points below:
LOAD
FFR-E540-4,5A-SF1
SCHAFFNER
Fs5710 - 4,5 - 0,7
3x480VAC/50 - 60Hz
4,5A@50°C / 25/085/21
Type SF-1
power supply.
앬 For the selection of a ground fault pro-
tective switch or relay take the leakage
current of the filter into account.
앬 Ensure a perfect grounding of the filter,
if you do not intend to use a protective
switch or relay across the input circuit.
Power
loss [W]
Leakage
current [mA]
Weight [kg]
Art. no.
FR-E520SE-0.2 k–0.75 k
11
< 30
1.3
152727
FFR-E520S-26A-SC1
FR-E520SE-1.5 k – 2.2 k
17
< 30
1.3
152730
FFR-E540-4.5A-SF1
FR-E540E-0.4 k–0.75 k
4
< 30
1.3
126654
FFR-E540-15A-SF1
FR-E540E-1.5 k–3.7 k
12
< 30
1.45
126655
FFR-E540-27A-SF1
FR-E540E-5.5 k–7.5 k
25
< 30
1.7
126656
Filter
Frequency inverter
FFR-E520S-14A-SC1
The filters can provide conformity with the limits for Environment 1 (unrestricted distribution) with motor cable lengths of up to 20 m
(shielded) and for Environment 1 (restricted distribution) with motor cable lengths of up to 100 m (shielded), and thus also with the 100 A
limits of Environment 2 with motor cable lengths of up to 100 m.
36
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NOISE FILTERS ///
왎 Noise Filters for FR-A/F740-00023 to FR-A/F740-01800
Noise filters conforming to EN 61800-3 and EN 55011
L2
L3
E
They meet the emission requirements of
EN 61800-3, Category C3 with 5m motor
power supply cables (shielded) at a carrier
frequency of 2kHz.
The filters listed here are thus only necessary for these inverters in special cases.
Th FFR-BS-첸첸첸첸-첸첸첸A-SF첸첸첸 filters
are configured for “footprint” installation,
which means that the base plate of the
frequency inverter is bolted onto the filter
unit, so that the entire assembly can then
be bolted onto the mounting plate in a
switchgear cabinet.
L1’ L2’ L3’ E
Power loss
[W]
Leakage
current
[mA]
Rated
current [A]
Weight
[kg]
Art. no.
FR-A/F 740-00023–00126
11.5
< 30
18
1.25
193677
FFR-BS-00250-30A-SF100
FR-A/F 740-00170–00250
15.8
< 30
30
1.8
193678
FFR-BS-00380-55A-SF100
FR-A/F 740-00310–00380
27.1
< 30
55
2.42
193679
FFR-BS-00620-75A-SF100
FR-A/F 740-00470–00620
43.9
< 30
75
4.25
193680
FFR-BS-00770-95A-SF100
FR-A/F 740-00770
45.8
< 30
95
6.7
193681
FFR-BS-00930-120A-SF100 FR-A/F 740-00930
44.9
< 30
120
10.0
193682
FFR-BS-01800-180A-SF100 FR-A/F 740-00170–00250
60.7
< 30
180
12.0
193683
Filter
Frequency inverter
FFR-BS-00126-18A-SF100
왎 Noise Filters for FR-A/F740-02160 to FR-A/F740-12120
Noise filters conforming to EN 61800-3
The extremely compact line of FN 3359
filters provides the user with an efficient
noise suppression at low room requirements.
The FN 3359 filters can be used to conform
to the requirements of EN 61800-3 and can
maintain the required noise emission levels
in Environment 1 (restricted distribution)
with motor power cables up to 100m long
Power loss
[W]
Leakage
current
[mA]
FR-A/F 740-02160–02600
38
<6
250
7
104663
FR-A/F 740-03250–04320
51
<6
400
10.5
104664
FR-A/F 740-04810–06100
65
<6
600
11
104665
FR-A/F 740-06830–09620
84
<6
1000
18
104666
FR-A/F 740-10940–12120
130
<6
1600
27
130229
Filter
Frequency inverter
FN 3359-250-28
FN 3359-400-99
FN 3359-600-99
FN 3359-1000-99
FN 3359-1600-99
(shielded), and thus also the requirements
for Environment 2 up to the same motor
cable length.
“Footprint” installation on the frequency
inverter base plate is not possible with the
FN3359-첸첸첸-28/99 filters. These units
must be installed next to the frequency
inverter.
Rated curWeight [kg]
rent [A]
Art. no.
These filters enable compliance with the requirements for Environment 1 (restricted distribution) with shielded motor cables up to 100m
length, and thus also with the requirements of Environment 2 with the same cable lengths.
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
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Freitag, 27. Juli 2007 10:01:02
37
ACCESSORIES
L1
The noise filters listed below make it possible to comply with the requirements for
Environment 1 (category C1, unrestricted
distribution) with shielded motor cables up
to 20m long and the requirements of Environment 1 (category C2, restricted distribution) with shielded motor cables up to
100m long. This also provides compliance
with the 100A limits for Environment 2
with shielded cables up to 100m long.
The frequency inverters of the
FR-F740/FR-A740 series are fitted with an
integrated EMC noise filter for industrial
environments (Environment 2).
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// NOISE FILTERS AND AC CHOKES
왎 Noise Filters for FR-F746-00023 to FR-F746-01160
Noise Filters conforming to EN 61800-3
ACCESSORIES
The noise filters listed below make it possible to comply with the requirements for
Environment 1 (unrestricted distribution)
with shielded motor cables up to 20 m
long and the requirements of Environment
1 (restricted distribution) with shielded
motor cables up to 100 m long. This also
provides compliance with the 100 A limits
for Environment 2 with shielded cables up
to 100 m long.
They meet the emission requirements of
EN 61800-3, Category C1 and EN 55011,
Class B with 5m motor power supply
cables (shielded).
The frequency inverters of the FR-F746
series are fitted with an integrated EMC
noise filter for industrial environments
(Environment 2). They meet the emission
requirements of EN 61800-3, Category C3
with 5 m motor power supply cables
(shielded) at a clock frequency of 2 kHz.
Power
loss
[W]
Leakage
current
[mA]
Rated
current [A]
Weight
[kg]
Art. no.
< 30
21
3.2
201551
< 30
44
4.4
201552
62
5.4
201553
98
7.7
201554
117
10.6
201555
172
16
201556
Filter
Frequency inverter
FFR-AF-IP54-21A-SM2
FR-F746-00023 – FR-F746-00126
9.26
FFR-AF-IP54-44A-SM2
FR-F746-00170 – FR-F746-00250
20.3
FFR-AF-IP54-62A-SM2
FR-F746-00310 – FR-F746-00380
23
< 30
FFR-AF-IP54-98A-SM2
FR-F746-00470 – FR-F746-00620
51.8
< 30
FFR-AF-IP54-117A-SM2 FR-F746-00770
61.6
< 30
FFR-AF-IP54-172A-SM2 FR-F746-00930 – FR-F746-01160
128.7
< 30
햲
Power dissipation at 20 °C and rated current with copper cables
왎 AC Chokes for Three-Phase FR-E500, FR-F700 and FR-A700
Three-phase mains supply chokes
The three-phase mains supply chokes
FR-BAL-B-첸첸k for the frequency inverters
FR-A740 compensate voltage fluctuations
and simultaneously increase the
efficiency.
Applying the appropriate power choke
an overall efficiency of up to 90% can be
achieved.
38
Inverter_2007_GB_Druck.prn
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The use of a power choke is especially
recommended for mains circuits where
high capacities are switched, for example,
via thyristors.
Power loss
Weight [kg]
[W]
Choke
Frequency inverter
L [mH]
Current [A]
Art. no.
FR-BAL-B-4.0 k
FR-E540-0.4 k – 4.0 k,
FR-F740-00023–00083
FR-A740-00023–00126
2.340
12
31
3.0
87244
FR-BAL-B-5.5k
FR-E540-5.5 k,
FR-F740-00126
FR-A740-00170
1.750
16
44
3.7
87245
FR-BAL-B-7.5 k
FR-E540-7.5 k,
FR-F740-00170
FR-A740-00250
1.220
23
59
5.5
87246
FR-BAL-B-11k/-15 k
FR-F740-00250–00310
FR-A740-00310–00380
0.667
42
68
10.7
71053
FR-BAL-B-22 k
FR-F740-00380–00470
FR-A740-00470–00620
0.483
58
77
11.2
87247
FR-BAL-B-30 k
FR-F740-00620 / FR-A740-00770
0.369
76
86
11.6
87248
FR-BAL-B-37 k
FR-F740-00770 / FR-A740-00930
0.295
95
113
18.6
87249
FR-BAL-B-45 k
FR-F740-00930 / FR-A740-01160
0.244
115
118
21.4
71054
FR-BAL-B-55 k
FR-F740-01160 / FR-A740-01800
0.191
147
120
22.6
87250
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DC REACTORS AND CONTROL PANELS ///
왎 DC Reactors for FR-F700 / FR-A700
DC link reactors
The DC link reactor is included as standard
equipment with inverter models
FR-F740-01800 and above. This reactor is
essential for the operation of the inverter
and must be installed.
The reactors listed below are available as
optional equipment for frequency inverter
models FR-F740-00023 through 01160.
Power loss [W]
Weight [kg]
Reactor
Art. no.
at 120%
at 150%
FR-A/F 740-01800
FR-HEL-H90K
128
121
20
FR-A/F 740-02160
FR-HEL-H110K
138
128
22
FR-A/F 740-02600
FR-HEL-H132K
140
138
26
FR-A/F 740-03250
FR-HEL-H160K
162
140
28
FR-A/F 740-03610
FR-HEL-H185K
245
162
29
FR-A/F 740-04320
FR-HEL-H220K
265
245
30
FR-A/F 740-04810
FR-HEL-H250K
285
265
35
FR-A/F 740-05470
FR-HEL-H280K
315
285
38
FR-A/F 740-06100
FR-HEL-H315K
350
315
42
FR-A/F 740-06830
FR-HEL-H355K
400
350
46
FR-A/F 740-07700
FR-HEL-H400K
460
400
50
FR-A/F 740-08660
FR-HEL-H450K
540
460
57
FR-A/F 740-09620
FR-HEL-H500K
635
540
67
FR-A/F 740-10940
FR-HEL-H560K
770
635
85
FR-A/F 740-12120
FR-HEL-H630K
960
770
95
The DC link reactor MT-HEL
is included as standard
equipment with the respective frequency
inverter.
Note:
The AC supply choke can also be used as an alternative to the DC link reactor on frequency inverter models FR-F740-01160 and below.
왎 Control Panels
MITSUBISHI
FR-PU07
PARAMETER UNIT
50 0 0 Hz
- - - STOP EXT
POWER
ALARM
MON
PrSET
FUNC
SHIFT
ESC
7
8
9
4
5
6
1
2
3
0
READ
PARAMETER UNIT
FR-PU-04
PU
EXT
50 0 0 Hz
- - - STOP EXT
FWD
MON
REV SET
STOP
WRITE
HELPRESET SHIFT
EXT
ESC
Control panel
Application
Description
Art. no.
FR-PA02-02
FR-E500
Interactive control panel with LCD display
103686
FR-DU07
All inverters
Interactive control panel with LCD display
157514
REV
FR-DU07-IP54
All inverters
Interactive control panel with LCD display
207067
STOP
FR-PU04
All (with limitations)
Interactive control panel with LCD display
67735
FR-PU07
FR-F700 / FR-A700
Interactive control panel with LCD display
166134
7
9
4
5
6
FWD
2
3
0
WRITE
READ
MITSUBISHI ELECTRIC
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FR-PU07 displays and monitors 21 different
values (like frequency, current, voltage,
etc.) and states in total.
The control units FR-PU04 and FR-PU07 are
used instead of the standard control units
FR-DU04 and FR-DU07 and can be replaced by this after use.
The control panel FR-PU07 conforms to the
protection rating IP40.
PU
8
1
The control panels FR-PU04 and FR-PU07
with extended functions provide a 10-key
keypad for a direct entering of numerical
values. A 4-row LC display returns operational data, parameter names or status and
error messages in uncoded text.
The control panels displays text in the
following selectable languages:
English, German, French, Spanish,
Swedish, Italian, Finnish, and Japanese.
In addition to the functions of the
standard control panel the FR-PU04 and
RESET
39
ACCESSORIES
Application
(inverter)
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// BRAKE UNITS
왎 Brake Units BU-UFS
For a braking torque higher than 20 % or a
duty cycle higher than 30 % an external
brake unit including the adequate brake
resistors has to be installed.
The brake units BU-UFS listed below are
cascadeable so that the optimum size can
always be achieved.
Frequency inverter
ACCESSORIES
FR-S520SE ,
FR-E520S
FR-S540E , FR-E540 ,
FR-F740-00023 – 00250,
FR-A740-00023 – 00250
FR-F740-00250 – 00470,
FR-A740-00250 – 00470
FR-F740-00470 – 01160,
FR-A740-00470 – 01160
The brake units here are not fitted with
brake resistors, which must be ordered
separately (see below).
The configurations in the table are only
general recommendations. Please consult
Mitsubishi Electric Electric for advice on
matching the correct brake modules and
brake resistors for your application.
Max. instanMax. duty
taneous
cycle
power [kW]
Brake unit
Rated
voltage
Max. peak
current [A]
BU-UFS22J
230 V
34
12.7
10%
127962
BU-UFS22
400 V
34
25
10%
127947
BU-UFS40
400 V
55
41
10%
127948
BU-UFS110
400 V
140
105
5%
127950
Art. no.
왎 Brake Resistors for Brake Unit BU-UFS
The brake resistors RUFC are designed for
the exclusive use in combination with a
brake unit BU-UFS.
Please note that the specifications for the
allowed duty cycle (ED max.) included in
the instruction manual for the brake unit.
Regenerative
brake duty
Resistance [W]
Capacity
[W]
Art. no.
Type
Application
RUFC22
BU-UFS 22
10%
1 x 24
2000
129629
RUFC40 (Set)
BU-UFS 40
10%
2 x 6.8
2000
129630
RUFC110 (Set)
BU-UFS 110
10%
4 x 6.8
2000
129631
왎 Brake Unit MT-BU5 for FR-F700/FR-A700
The MT-BU5 external brake units can be
used with frequency inverter models
FR-F740-01800 and above. These inverters
are fitted with a connector via which the
MT-BU5 brake unit is controlled directly.
This connection also makes it possible for
the FR-F740 to handle the protection of
the MT-BU5 against thermal overloads.
FREQROL
400V series
Brake resistors must be chosen in accordance with your application’s requirements. The configurations in the table are
only general recommendations. Please
consult Mitsubishi Electric for advice on
matching the correct brake modules and
brake resistors for your application.
RESET
BRAKE OPTION
BU - H15K
BRAKE
40
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Brake unit
Frequency inverter
Number of required units
Braking torque
Art. no.
MT-BU5-H75 k
FR-F740/FR-A740-01800
1 x MT-BR5-H75 k
100%, 10% ED
125700
125701
MT-BU5-H150 k
FR-F740/FR-A740-02160 – 03250
2 x MT-BR5-H75 k
100%, 10% ED
MT-BU5-H220 k
FR-F740/FR-A740-03250 – 04320
3 x MT-BR5-H75 k
100%, 10% ED
125702
MT-BU5-H280 k
FR-F740/FR-A740-04320 – 05470
4 x MT-BR5-H75 k
100%, 10% ED
125703
MT-BU5-H375 k
FR-F740/FR-A740-05470 – 07700
5 x MT-BR5-H75 k
100%, 10% ED
125705
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
BRAKE UNITS ///
왎 External Brake Resistor MT-BR5 for Brake Unit MT-BU5
The brake resistor MT-BR5 for the frequency inverters FR-F740 /E1 is used exclusively
in combination with a brake unit.
Brake resistor
Regenerative brake duty
Resistance [W]
Art. no.
MT-BR5-H75 k
6%
6.5
125699
왎 External Brake Resistors FR-ABR-(H)첸첸k for FR-E500 and FR-A700
Among the capacity range of 0.4 k to 7.5 k
(FR-E500) or 00023 to 00620 (FR-A700) the
inverter is equipped with an internal brake
chopper as standard.
An improvement of the brake duty is
achieved by the use of an external brake
resistor with a higher rated capacity.
Frequency inverter
Brake resistor
FR-ABR-0.4 k
FR-ABR-0.75 k
FR-E520S
FR-ABR-2.2 k
MITSUBISHI ELECTRIC
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Freitag, 27. Juli 2007 10:01:37
The duty cycle is selectable via parameter
30 and can, according to the inverter, be
specified to up to 10 % respectively 30 %
via parameter 70.
Regenerative brake duty
Resistor [W]
Art. no.
10 % (ED)
200
46788
10 % (ED)
100
46602
10 % (ED)
60
46787
FR-ABR-H 0.4 k
FR-E540-0.4 k,
FR-A740-00023
10 % (ED)
1200
46601
FR-ABR-H 0.75 k
FR-E540-0.75 k,
FR-A740-00038
10 % (ED)
700
46411
FR-ABR-H 1.5 k
FR-E540-1.5 k,
FR-A740-00052
10 % (ED)
350
46603
FR-ABR-H 2.2 k
FR-E540-2.2 k,
FR-A740-00083
10 % (ED)
250
46412
FR-ABR-H 3.7 k
FR-E540-3.7 k,
FR-A740-00126
10 % (ED)
150
46413
FR-ABR-H 5.5 k
FR-E540-5.5 k,
FR-A740-00170
10 % (ED)
110
50045
FR-ABR-H 7.5 k
FR-E540-7.5 k,
FR-A740-00250
10 % (ED)
75
50049
FR-ABR-H 11 k
FR-A740-00310
6 % (ED)
52
191577
FR-ABR-H 15 k
FR-A740-00380
6 % (ED)
2 x 18 seriel
191578
FR-ABR-H 22 k
FR-A740-00470 – 00620
6 % (ED)
2 x 52 parallel
191579
41
ACCESSORIES
NP
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// SOFTWARE
ACCESSORIES
왎 Setup Software
The Setup Software VFD-Setup and
FR-Configurator are powerful tools for the
operation of your frequency inverter.
The software runs under all versions of MS
Windows and therefore allows the inverter
operation via any conventional personal
computer. Several frequency inverters can
be set up, operated, and monitored
simultaneously across a network or via a
personal computer or laptop.
The VFD setup software is designed for
the frequency inverters FR-S500, FR-E500,
and FR-F700FR-A700 series.
The FR-Configurator is especially designed
for the FR-A700 series.
The connection between personal computer and inverter is established either
via an RS485 network or directly via an
SC-FR PC adapter cable available separately.
Parameter setting
Display and monitor
MITSUBISHI
FREQROL-F 700
!
!
and electric shock
DANGER: Risk of injuryfollow the safety instructions before use.
Read the manual and
removing this cover.
wait 10 minutes before
Isolate from supply and
Ensure proper earth connection
CAUTION: Risk of fire a non-combustible surface.
Mount the inverter on
400V
FR–F740–2.2K
Benefits
앬 System settings
앬
앬
앬
앬
앬
앬
Due to the network capabilities of the
inverter up to 32 frequency inverters
can be operated simultaneously.
Parameter settings
By means of overall and function related overviews different parameters can
be adjusted easily.
Display functions
The comprehensible display functions
enable data, analog, oscillograph, and
alarm displays.
Diagnostics
The analysis of the inverter status
provides a thorough error correction.
Test operation
The test operation provides a simulation
of the operation and adjustment via the
auto-tuning function.
File management
Parameters can be saved on the
personal computer and printed out.
Help
The extensive online help provides
support concerning all questions
regarding settings and operation.
42
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:01:45
Test operation
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
왎 Control Panel FR-PA02-02 and FR-DU07/FR-DU07-IP54
FR-DU07
Max. 3,2
3
FR-PA02-02
RUN
3
45
44
4
50
11
68
STOP
RESET
72
3
3
16
78
25
81
All dimensions in mm
15
9,7
5x Æ 4mm
125
81,5
46,5
17
72
DIMENSIONS
왎 Control Panel FR-PU04
40
All dimensions in mm
왎 Control Panel FR-PU07/FR-DU07-IP54
25,05
14,2
11,45
50
2,5
83
All dimensions in mm
MITSUBISHI ELECTRIC
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43
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// DIMENSIONS
왎 FR-S520SE-0.2 k to 0.75 k
5
ø5
D
Type
80.5
10
52
FR-S520SE-0.4 k
142.5
42
82
FR-S520SE- 0.75 k
162.5
62
82
18,5
D2
D1
D
All dimensions in mm
왎 FR-S520SE-1.5 k and FR-S540E-0.4 k to 3.7 k
ø5
5
+
5
6
96
108
5
118
-
128
DIMENSIONS
6
56
68
FR-S520SE-0.2 k
4
5
5
6
D2
128
+
118
-
D1
6
D3
18,5
D2
D1
D
D
D1
D2
D3
FR-S500SE-1.5 k
155.5
65
72
8
FR-S540E-0.4 k
129.5
59
52
5
FR-S540E-0.75 k
129.5
59
52
5
FR-S540E-1.5 k
135.5
65
52
8
FR-S540E-2.2 k
155.5
65
72
8
FR-S540E-3.7 k
165.5
65
82
8
Type
All dimensions in mm
44
Inverter_2007_GB_Druck.prn
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Freitag, 27. Juli 2007 10:02:18
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
왎 FR-E540-0.4 k to 3.7 k and FR-E520S-04 k to 2.2 k
150
A1
6
61
11
A
140
A
Type
A1
FR-E540 0.4 k / 0.75 k
116
44
FR-E540 1.5 k / 2.2 k / 3.7 k
136
64
FR-E520S 0.4 k / 0.75 k
136
64
FR-E520S 1.5 k / 2.2 k
156
84
All dimensions in mm
왎 FR-E540-5.5 k and 7.5 k
5
6
208
6
6
150
138
6
2x ø5
73
64
11
148
220
All dimensions in mm
MITSUBISHI ELECTRIC
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Freitag, 27. Juli 2007 10:02:26
45
DIMENSIONS
5
128
6
6
138
6
2x ø5
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// DIMENSIONS
왎 FR-F740 / FR-F746
Bx
2 – ød
Cx
C
Ax
B
Bx
B1
Case type B
Bx
A1
A
Bx
B1
B
Case type A
Ax
DIMENSIONS
A1
Ax
B
B1
Bx
C
Cx
d
Case
type
FR-F740-00023 – 150
FR-F740-00126
125
6
260
245
7.5
140
5
6
A
FR-F740-00170,
FR-F740-00250
220
195
6
260
245
7.5
170
10
8
B
FR-F740-00310,
FR-F740-00380
220
195
6
300
285
7.5
190
10
8
B
FR-F740-00470,
FR-F740-00620
250
230
10
400
380
10
190
10
10
B
FR-F740-00770
325
270
10
550
530
10
195
3.2
10
C
FR-F740-00930,
FR-F740-01160
435
380
12
550
525
15
250
3.2
12
C
FR-F740-01800
435
380
12
550
525
15
250
3.2
12
C
FR-F740-02160,
FR-F740-02600
465
400
620
595
15
300
3.2
12
C
FR-F740-03250,
FR-F740-03610
465
400
740
715
15
360
3.2
12
C
FR-F740-04320 – 498
FR-F740-04810
400
49
1010
984
13
380
3.2
12
C
FR-F740-05470 – 680
FR-F740-06830
600
40
1010
984
13
380
3.2
12
C
FR-F740-07700 – 790
FR-F740-08660
635
80
1330 1300
15
440
3.2
12
C
FR-F740-09620 – 995
FR-F740-12120
900
47.5 1580 1550
15
440
3.2
12
C
FR-F746-00023 – 249
FR-F746-00126
180
7
395
380
7.5
210
2.3
D
FR-F746-00170 – 319
FR-F746-00250
255
7
395
380
7.5
240
2.3
D
FR-F746-00310 – 319
FR-F746-00380
258
10
445
425
10
260
2.3
D
FR-F746-00470,
FR-F746-00620
354
312
10
560
540
10
260
2.3
D
FR-F746-00770
360
300
10
590
570
10
265
3.2
D
FR-F746-00930,
FR-F746-01160
471
411
12
660
635
15
320
3.2
D
Type
A1
A
Cx
C
B1
B
Case type C
Bx
A
Please consider also the dimensions of the corresponding
DC reactors (see pages 48 and 49)
By
Ax
A1
C
B
Bx
B1
Case type D
Bx
A
Ax
A1
Cx
C
All dimensions in mm
A
46
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:02:58
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
왎 FR-A700
Bx
A1
Ax
B
B1
Bx
C
Cx
d
Case
type
FR-A740-00023 – 150
FR-A740-00126
125
6
260
245
7.5
140
5
6
A
FR-A740-00170,
FR-A740-00250
220
195
6
260
245
7.5
170
10
8
B
FR-A740-00310,
FR-A740-00380
220
195
6
300
285
7.5
190
10
8
B
FR-A740-00470,
FR-A740-00620
250
230
10
400
380
10
190
10
10
B
FR-A740-00770
325
270
10
550
530
10
195
3.2
10
C
FR-A740-00930,
FR-A740-01160
435
380
12
550
525
15
250
3.2
12
C
FR-A740-01800
435
380
12
550
525
15
250
3.2
12
C
FR-A740-02160,
FR-A740-02600
465
400
620
595
15
300
3.2
12
C
FR-A740-03250,
FR-A740-03610
465
400
740
715
15
360
3.2
12
C
FR-A740-04320 – 498
FR-A740-04810
400
49
1010
984
13
380
3.2
12
C
FR-A740-05470 – 680
FR-A740-06830
600
40
1010
984
13
380
3.2
12
C
FR-A740-07700 – 790
FR-A740-08660
635
80
1330 1300
15
440
3.2
12
C
FR-A740-09620 – 995
FR-A740-12120
900
47.5 1580 1550
15
440
3.2
12
C
A1
A
Cx
C
Ax
B
Bx
B1
Case type B
Bx
Ax
Bx
B1
B
Case type A
Type
A1
C
Cx
Please consider also the dimensions of the corresponding
DC reactors (see pages 48 and 49)
Ax
A1
By
B1
B
Case type C
Bx
A
A
DIMENSIONS
2 – ød
C
A
All dimensions in mm
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:03:24
47
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// DIMENSIONS
왎 DC Reactors FR-HEL-H90K
Choke
Frequency inverter
FR-HEL-H90K
FR-A/F 740-01800
A
A1
B
B1
C
Weight
[kg]
150
130
340
310
190
20
B
B1
All dimensions in mm
?
A1
A
C
DIMENSIONS
왎 DC Reactors FR-HEL-H110K – 160K
A
A1
B
B1
C
S
S1
Weight
[kg]
FR-HEL-H110K FR-A/F 740-02160
150
130
340
310
195
M6
M6
22
FR-HEL-H132K FR-A/F 740-02600
175
150
405
370
200
M8
M6
26
FR-HEL-H160K FR-A/F 740-03250
175
150
405
370
205
M8
M6
28
A1
Frequency inverter
All dimensions in mm
B
B1
Choke
S
A
C
S1
왎 DC Reactors FR-HEL-H185K – 355K
S2
Frequency inverter A
A1 B B1
C
S
S1 S2 Æ
Weight
[kg]
FR-HEL-H185K FR-A/F 740-03610
175 150 405 370 240 M8 M6 – M12
29
FR-HEL-H220K FR-A/F 740-04320
175 150 405 370 240 M8 M6 M6 M12
30
FR-HEL-H250K FR-A/F 740-04810
190 165 440 400 250 M8 M8 M8 M12
35
FR-HEL-H280K FR-A/F 740-05470
190 165 440 400 255 M8 M8 M8 M16
38
FR-HEL-H315K FR-A/F 740-06100
210 185 495 450 250 M10 M8 M8 M16
42
FR-HEL-H355K FR-A/F 740-06830
210 185 495 450 250 M10 M8 M8 M16
46
B
B1
Choke
All dimensions in mm
A1
A
48
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:03:46
S
S1
C
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
왎 DC Reactors FR-HEL-H400K – 450K
2 - M8
A
C
Weight
[kg]
FR-HEL-H400K FR-A/F 740-07700
235
250
50
FR-HEL-H450K FR-A/F 740-08660
240
270
57
Frequency inverter
500±10
455±10
Choke
All dimensions in mm
û÷
e
75
40
C
195
4 - M10
220
C
A
75
245
40
P
P1
B
C
C1
Weight
[kg]
FR-HEL-H500K FR-A/F 740-09620
345
455
405
67
FR-HEL-H560K FR-A/F 740-10940
360
460
410
85
FR-HEL-H630K FR-A/F 740-12120
360
460
410
95
Choke
Frequency inverter
B
2 - M12
All dimensions in mm
M10
150
C1±10
C±10
215
왎 AC Chokes FR-BAL-B-첸첸k
U1 V1 W1U2 V2 W2
L1 L3
d1
Weight
[kg]
FR-E540-0.4 k – 4.0 k,
FR-BAL-B-4.0 k FR-F740-00023–00083
FR-A740-00023–00126
125 82 130 100 56
5x8
3.0
FR-E540-5.5 k,
FR-BAL-B-5.5 k FR-F740-00126
FR-A740-00170
155 85 145 130 55 8 x 12
3.7
FR-E540-7.5 k,
FR-BAL-B-7.5 k FR-F740-00170
FR-A740-00250
155 100 150 130 70 8 x 12
5.5
FR-BAL-B-11 k FR-F740-00250–00310
FR-A740-00310–00380
155 100 150 130 70 8 x 12
5.5
FR-BAL-B-15 k FR-F740-00250–00310
FR-A740-00310–00380
190 115 210 170 79 8 x 12
10.7
FR-BAL-B-22 k FR-F740-00380–00470
FR-A740-00470–00620
190 115 210 170 79 8 x 12
11.2
FR-BAL-B-30 k FR-F740-00620 / FR-A740-00770 190 118 230 170 79 8 x 12
3.0
FR-BAL-B-37 k FR-F740-00770 / FR-A740-00930 210 128 265 175 97 8 x 12
3.7
H
Choke
d1
L1
L3
B
T
Frequency inverter
B
T
H
FR-BAL-B-45 k FR-F740-00930 / FR-A740-01160 230 165 280 180 122 8 x 12
5.5
FR-BAL-B-55 k FR-F740-01160 / FR-A740-01800 240 140 305 190 97 11 x 12
10.7
All dimensions in mm
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:00
49
DIMENSIONS
왎 DC Reactors FR-HEL-H500K – 630K
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// DIMENSIONS
왎 Noise Filters for FR-S500
10
4,5
M4
Filter
Frequency inverter
A
A1
B
B1
C
FFR-S520S-14A-RF1
FR-S520SE-0,2 k–0,75 k
70
56
168
158
38
FFR-S520S-20A-RF1
FR-S520SE-1,5 k
110
96
168
158
38
FFR-S540-8A-RF100
FR-S540E-0,4–1,5 k
112
96
168
158
40
FR-S540E-2,2–3,7 k
112
96
168
158
45
All dimensions in mm
B
B1
FFR-S540-13A-RF100
A1
A
C
DIMENSIONS
왎 Noise Filters for FR-E520
75
38,5
24,7
Filter
Frequency inverter
A
A1
B
B1
C
FFR-E520S-14A-SC1
FR-E520S EC-0,4 k – 0,75 k
75
—
92
—
38,5
FFR-E520S-26A-SC1
FR-E520S EC-1,5 k – 2,2 k
75
—
92
—
38,5
31
37
4,5
4,5
22
2
8,5
116
104
10
174
92
All dimensions in mm
4,5
45
2
7
5
165 +50
5
34,6
왎 Noise Filters for FR-E540
A
A1
B
B1
C
FR-E540 EC-0,4 k–0,75 k
140
128
210
138
46
FR-E540 EC-1,5 k–3,7 k
140
128
210
138
46
FR-E540 EC-5,5 k–7,5 k
220
208
210
138
55
Filter
Frequency inverter
ø5
FFR-E540-4,5A-SF1
FFR-E540-15A-SF1
FFR-E540-27A-SF1
7
6
A
C
A1
M4
ø9
150
198
B1
B
All dimensions in mm
300-+100
5
350-+100
5
6
W2
10
50
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:15
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
B
B1
왎 Noise Filters for FR-A/F 740-00023 to FR-A/F 740-01800
Filter
Frequency
inverter
FFR-BS-00126-18A-SF100
A
A1
B
B1
C
00023–00126
150
110
315
260
50
FFR-BS-00250-30A-SF100
00170/00250
220
180
315
260
60
FFR-BS-00380-55A-SF100
00310/00380
221,5
180
360
300
80
FFR-BS-00620-75A-SF100
00470/00620
251,5
210
476
400
80
FFR-BS-00770-95A-SF100
00770
340
280
626
550
90
FFR-BS-00930-120A-SF100
00930
450
380
636
550
120
FFR-BS-01800-180A-SF100
00930/01800
450
380
652
550
120
All dimensions in mm
A1
C
A
B
B1
Filter
Frequency
inverter
FN 3359/250/28
FN 3359/400/99
A
A1
B
B1
C
02160–02600
230
205
360
300
125
03250–04320
260
235
386
300
115
FN 3359/600/99
04810–06100
260
235
386
300
135
FN 3359/1000/99
06830–09620
280
255
456
350
170
10940–12120
300
275
586
400
160
FN 3359/1600/99
All dimensions in mm
A1
C
A
왎 Noise Filters for FR-F746-00023 to FR-F746-01160
A
Filter
Frequency
inverter
FFR-AF-IP54-21A-SM 2
B
C
00023 – 00126
248,5
201
186,5
FFR-AF-IP54-44A-SM 2
00170 – 00250
318,5
231
231,5
FFR-AF-IP54-62A-SM 2
00310 – 00380
318,5
251
239,5
FFR-AF-IP54-98A-SM 2
00470 – 00620
350
251
308
FFR-AF-IP54-117A-SM 2
00770
325
185
308
00930 – 01160
464
301,5
481
B
A
FFR-AF-IP54-172A-SM 2
C
All dimensions in mm
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:25
51
DIMENSIONS
왎 Noise Filters for FR-A/F 740-02160 to FR-A/F 740-12120
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// DIMENSIONS
왎 Brake Units BU-UFS
C
Brake unit
A
A’
B
B’
C
Weight [kg]
BU-UFS22J
100
50
250
240
175
2.4
BU-UFS22
100
50
250
240
175
2.5
BU-UFS40
100
50
250
240
175
2.5
BU-UFS110
107
50
250
240
195
3.9
B
B'
220
A
A'
All dimensions in mm
M5 x 15
DIMENSIONS
왎 External Brake Resistor RUFC
A
A’
B
Weight [kg]
RUFC22
310
295
75
4.7
RUFC40
365
350
75
9.4
RUFC110
365
350
75
18.8
B
Brake resistor
A’
A
70
100
Remark: RUFC40 contains a set of two brake resistors, and RUFC110 contains a set of four brake
resistors as shown on the left.
All dimensions in mm
왎 Brake Units MT-BU5
A
P & PR
n x M6
B’
B
A’
NP
A
A’
B
B’
C
Weight [kg]
MT-BU5-H75K
118
90
200
100
256.5
1.5
MT-BU5-H150K
188
160
200
100
256.5
3.0
MT-BU5-H220K
258
230
200
100
256.5
4.5
MT-BU5-H280K
328
300
200
100
256.5
6.0
MT-BU5-H375K
398
370
200
100
256.5
7.5
Brake unit
All dimensions in mm
TM
4 - 7 x 10
C
왎 External Brake Resistor MT-BR5
Brake resistor
A
A’
B
B’
C
C'
Weight [kg]
MT-BR5-H75 k
510
480
885
800
465
300
70
NP
B'
B
All dimensions in mm
A'
C'
A
C
52
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:32
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
DIMENSIONS ///
왎 External Brake Resistors FR-ABR-첸첸k
A
B±1
C
500+20
C
D
E
F
Weight
[kg]
100
75
40
20
2.5
0.2
125
100
40
20
2.5
0.2
215
200
175
40
20
2.5
0.4
240
225
200
50
25
2.0
0.5
A
B
FR-ABR-0.4 k
115
FR-ABR-0.75 k
140
FR-ABR-1.5 k
FR-ABR-2.2 k
Brake resistor
D
F
E
All dimensions in mm
왎 External Brake Resistors FR-ABR-H첸첸k
X+10
A
B
C
D
E
X
Weight
[kg]
FR-ABR-H0.4 k
115
100
75
40
20
500
0.2
FR-ABR-H0.75 k
140
125
100
40
20
500
0.2
FR-ABR-H1.5 k
215
200
175
40
20
500
0.4
FR-ABR-H2.2 k
240
225
200
50
25
500
0.5
FR-ABR-H3.7 k
215
200
175
60
30
500
0.8
FR-ABR-H5.5 k
335
320
295
60
30
500
1.3
FR-ABR-H7.5 k
400
385
360
80
40
500
2.2
FR-ABR-H 11 k
400
—
—
100
50
700
3.2
FR-ABR-H 15 k
300
—
—
100
50
700
2,4 (x2) seriel
FR-ABR-H 22 k
400
—
—
100
50
700
3,3 (x2) parallel
E
D
Brake resistor
DIMENSIONS
A
B±1
C
All dimensions in mm
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:44
53
Farbprofil: Deaktiviert
Komposit Standardbildschirm
/// NOTES
54
Inverter_2007_GB_Druck.prn
Inverter_2007 UK Druck
Freitag, 27. Juli 2007 10:04:45
MITSUBISHI ELECTRIC
Farbprofil: Deaktiviert
Komposit Standardbildschirm
INDEX ///
B
Block diagram
FR-S500E . . . . . . . . .
FR-E500 . . . . . . . . . .
FR-F700 . . . . . . . . . .
FR-A700 . . . . . . . . . .
Brake resistors
Dimensions . . . . . . . .
external brake resistors
for Brake unit BU-UFS .
for Brake unit MT-BU5 .
Brake units
Specifications . . . . . .
Dimensions . . . . . . . .
.
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12
16
22
28
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50
52
40
31
. . . . . . . . . . . . . . . . . . . . . . . 40
. . . . . . . . . . . . . . . . . . . . . . . 52
C
Communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Control panels
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
D
DC Reactors
Specifications . . . . . .
Dimensions . . . . . . . .
Dimensions
AC chokes. . . . . . . . .
Brake resistors . . . . . .
Brake units . . . . . . . .
Control panels . . . . . .
DC reactors . . . . . . . .
External brake resistors
Frequency inverter . . .
Noise filters . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . 39
. . . . . . . . . . . . . . . . . . . . . . . 50
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51
52
52
43
50
53
44
48
E
External Options
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
F
Frequency inverter
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
FR-S500E . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
FR-E500 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
FR-F700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
FR-A700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Functions of Frequency inverter
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Parameter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
FR-Configurator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
M
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Motor control functions . . . . . . . . . . . . . . . . . . . . . . . . . . 6
N
Network options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Networks support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Noise filters
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
O
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Operation conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
P
Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Power chokes for three-phase current
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
S
Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Specifications
AC chokes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Brake units/resistors . . . . . . . . . . . . . . . . . . . . . . . . . 40
Control panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
DC reactors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
FR-S500E . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
FR-E500 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
FR-F700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
FR-A700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Noise filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
System description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
T
Terminal assignment
FR-S500E . . . . .
FR-E500 . . . . . .
FR-F700 . . . . . .
FR-A700 . . . . . .
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13
17
23
29
V
VFD Setup Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
I
Internal options. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
MITSUBISHI ELECTRIC
Inverter_2007_GB_Druck.prn
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MITSUBISHI ELECTRIC
Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Automation solutions /// Au
A world of applications
A world of
automation solutions
Robots
쐽 Leisure
- Multiplex cinema projection
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(museums/theme parks)
Motion control and servos
Inverters
LV circuit protection
쐽 Medical
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Mitsubishi frequency inverters are used in a wide range of areas.
Mitsubishi Electric operates eight branches
in Europe, where it has maintained a presence for more than 25 years and developed a constantly growing and
far-extending network comprising links to
other companies and reliable partnerships.
On the technical side, three manufacturing
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A Europe-wide network, the European Service Group (ESG), provides interfaces to
experienced engineers and offers distributors support throughout every phase of the
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Mitsubishi products are found in a variety
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- Irrigation systems
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- Automated revolving doors
- Telephone management
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- Steel bridge manufacturing
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18
쐽 Food and drink
- Bread manufacture
(mixing/baking)
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(washing/sorting/slicing/packaging)
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- Sanitation on passenger ships
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Mitsubishi offer a wide range of automation equipment from PLCs and HMIs to CNC and EDM machines
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Since its beginnings in 1870, some 45 companies use the Mitsubishi name, covering a
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The Mitsubishi brand name is recognized
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Mitsubishi Electric Corporation represents
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visual equipment, home electronics, building and energy management and automation systems, and has 237 factories and
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This is why you can rely on a Mitsubishi
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As one of the world’s leading companies
with a global turnover of 3.4 trillion Yen
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as well as the best products.
19
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ELECTRIC
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