Mitsubishi Electric FR-E500 Specifications

Top level of driving performance in compact body
Excellent usability
The inverter became more powerful.
Usability was thoroughly pursued.
(1) High torque 200%/0.5Hz is realized by Advanced magnetic flux vector control (3.7K or less)
By the advancement of General-purpose magnetic flux vector
control to Advanced magnetic flux vector control, top level of
driving performance became possible.
Since V/F control and General-purpose magnetic flux vector
control operations are available, operation after replacement of
the conventional model (FR-E500 series) is ensured.
Advanced auto tuning
Many kinds of three phase induction motors can be optimally
controlled with Mitsubishi's original "non-rotation" auto tuning
function. High precision tuning is enabled even when a test
operation of a machine cannot be performed at parameter
adjustment.
• Outline
According to the desired command sources for start frequency and speed, Pr.79 can be set in simple steps.
Blinking
• Terminal Connection
Load
torque (%)
FR-E720-3.7K (SC) (Advanced magnetic flux vector control)
SF-JR 4P 3.7kW
Press
200%
and
button
simultaneously (0.5s).
100%
3Hz
30Hz
1000
1500
to select
operation method.
79 - 1
External terminal Analog voltage
STF/STR
input
79 - 2
External terminal
STF/STR
79 - 3
Setting dial
RUN button Analog voltage
input
79 - 4
• Terminal Specification
LED
PU
Setting is
completed
EXT
Blinking
PU
EXT
Blinking
PU
EXT
ON
Blinking
PU
EXT
Blinking
ON
and
flicker.
Press
2000
-200%
Speed (r/min)
Advanced magnetic flux vector control is ideal
for a lift in an automated-storage system which
requires high torque at low speed.
Expanded advanced
operability with USB
and FR Configurator
Setting wizard function (example: acceleration/deceleration time setting)
Explanation
• Operation panel
• Parameter unit 20
• FR Configurator
• Parameter List 24
An USB connector (mini-B connector) is provided as standard. The inverter can be easily connected without a USB-RS-485 converter.
Wizard (interactive) function of FR Configurator (inverter setup software) provides setting support.
In addition, a high-speed graph function with USB enables high speed sampling display.
-100%
16
to set.
(3) With a provided USB connector, setting is easily done from
a personal computer using FR Configurator
60Hz
0
500
Turn
Setting dial
Diagram
Blinking
Panel display
7
10
Dimension
Drawings
For the 5.5K to 15K, 150%/0.5Hz torque is realized.
RUN button
6
Specifications
(2) Easy setting mode
Start command Speed command Monitor
• Connection
• Standard
Setting dial is the feature of Mitsubishi inverters.
•Displayed numbers can be jumped by turning the setting dial quickly, and numbers
can be changed one by one by turning it slowly, enabling speedy parameter setting.
• The nonslip setting dial is easier to turn.
Speed/torque characteristics example
1
example
(1) Improved setting dial
Operation method
• Features
• Explanations 31
of Parameters
• Protective
55
Functions
High speed graph function
(2) Short time overload capacity
is increased (200% 3s)
Short time overload capacity is increased to 200% 3s (200% 0.5s
for the conventional model). Overcurrent trip is less likely to occur.
Mini-B
connector
(3) Torque limit/current limit function
Improved torque limit/current limit function provides a machine
protection, load limit, and stop-on-contact operation.
• Option and
Peripheral Devices
Acceleration/deceleration
pattern setting
• Precautions for
Operation/Selection
• Precautions for Peripheral
Inverter
Parameter list display
(4) Enclosure surface operation panel
FR-PA07 (option)
(4) Improved regeneration capability
1
A brake transistor is built-in to the 0.4K to 15K.
Connecting an optional brake resistor increases regeneration
capability.
Using the torque limit function, machine
breakage from overload can be avoided.
For example, edge chipping of a tool can be avoided.
Optional enclosure surface operation panel (FR-PA07)
can be connected.
In addition, an operation panel for conventional model (FRE500 series) can be connected.
The operation panel of the inverter cannot be removed.
A parameter unit connection cable (FR-CB20 ) is
separately required.
67
Device Selection
Acceleration/deceleration
time setting
When a bogie runs over a bump, the impact
can be beared by this function.
56
FR Configurator
USB cable
(5) Parameter unit FR-PU07/
FR-PU07BB(-L) (option)
• Application
72
to Motor
• Main Differences and
Compatibilities with
the FR-E500 Series
76
The FR-PU07/FR-PU07BB(-L), an optional parameter unit, can
be connected as well.
A parameter unit connection cable (FR-CB20 ) is separately
required. (Parameter unit connection cable FR-CB203 (3m) is
enclosed with FR-PU07BB(-L).)
• Warranty
77
•Setting such as direct input method with a numeric keypad,
operation status indication, and help function are useful.
The display language can be selected from 8 languages.
•Parameter settings of maximum of three inverters can be stored.
•A battery pack type (FR-PU07BB(-L)) allows parameter
setting and parameter copy without powering on the inverter.
To use a parameter unit with battery pack (FR-PU07BB) outside of Japan, order a
“FR-PU07BB-L” (parameter unit type indicated on the package has L at the end).
• Service
• International FA Center 78
2
*1: Surrounding air temperature : annual average 40˚C (free from corrosive gas, flammable gas,
oil mist, dust and dirt) Since the design life is a calculated value, it is not a guaranteed value.
*2: Output current : 80% of the inverter rated current
Compatible Plug-in Options
• FR-A7AX E kit ...16-bit digital input
• FR-A7AY E kit ...Digital output
• FR-A7NC E kit
• FR-A7ND E kit
• FR-A7NP E kit
• FR-A7NL E kit
Extension analog output
• FR-A7AR E kit ...Relay output
Plug-in option
...CC-Link
...DeviceNet
...PROFIBUS-DP
...LONWORKS
Plug-in option dedicated front cover
• Life indication of life components
Components
Guideline of the FR-E700 Life Guideline of JEMA*3
10 years
2 to 3 years
Cooling fan
10 years
5 years
Main circuit smoothing capacitor
10 years
5 years
Printed board smoothing capacitor
•Spring clamp terminals are adopted as control circuit terminals.
Spring clamp terminals are highly reliable and can be easily wired.
•The FR-E700-SC series is compliant to the EU Machinery Directive
without the addition of previously required external devices.
Operation of an external Emergency Stop device results in a
highly reliable immediate shutoff of the D700's output to the motor.
This safety stop function conforms to the following standards.
(3) Control terminals are
selectable according to applications
Emergency stop
FR-D700
Terminal cards other than standard terminal
such as two port RS-485 terminal are
available as options.
A terminal card is removable and can be
easily replaced from a standard terminal
card.
•Degrees of deterioration of main circuit capacitor, control circuit
capacitor, and inrush current limit circuit can be monitored.
Terminal
card
•Trouble can be avoided with the self-diagnostic alarm*4 that is
output when the life span is near.
*4: Any one of main circuit capacitor, control circuit capacitor, inrush current limit circuit or
cooling fan reaches the output level, an alarm is output.
Capacity of the main circuit capacitor can be measured by setting parameter at a stop and
turning the power from off to on. Measuring the capacity enables an alarm to be output.
Emergency stop
LONWORKS® is a registered trademark of Echelon Corporation, DeviceNet® is of ODVA,
and PROFIBUS is of PROFIBUS User Organization.
Other company and product names herein are the trademarks of their respective owners.
For conventional model
model...
Two MCs were necessary
•High cost
•Maintenance of two MCs
was necessary
•Installation space was necessary
Only one MC is recommended
two
instead of two.
Although MC is not required
function
for the safety stop function.
(5) Removable control terminal block
Wiring of the control circuit when replacing the same series
inverter can be done by changing the terminal block.
Environment-friendly
(4) Various kinds of networks are supported
EIA-485 (RS-485), ModbusRTU (equipped as standard), CC-Link,
PROFIBUS-DP, DeviceNet®, LONWORKS® (option)
*
•Magnetic contactor (MC)
•Emergency stop wiring
Since a wiring cover can be installed
after wiring, wiring work is easily done.
(2) Leading life check function
EN ISO 13849-1 Category 3 / PLd
EN62061 / IEC61508 SIL2
Safety function
is equipped
(4) Combed shaped wiring cover
*3: Excerpts from “Periodic check of the transistorized inverter” of JEMA (Japan Electrical Manufacturer’s Association)
(2) Safety stop function (FR-E700-SC)
Provided by the user (present)
*: Cooling fans are equipped with FR-E720-1.5K (SC) or
more, FR-E740-1.5K (SC) or more, and FR-E720S-0.75K
(SC) or more.
Human and environment-friendly inverter
(1) Compliance with the EU Restriction
of Hazardous Substances (RoHS)
The inverter is human and environment-friendly by being
compliance with the RoHS Directive.
•Cost reduction
•Maintenance of one MC
•Installation space is reduced
(2) Filter options
Features
Connection
example
Standard
Specifications
These plug-in options are supported by the standard control circuit terminal model.
A cooling fan is provided on top of the
inverter for all capacities requiring a
cooling fan*.
A cooling fan can be easily replaced
without disconnecting main circuit wires.
Outline
Dimension
Drawings
E kit" which is a set of optional board and dedicated front cover.]
years*1. The life of the fan can be further extended utilizing the
it’s ON/OFF control.
•The design life of the capacitors has been extended to 10
years by adopting a capacitor that endures 5000 hours at
105˚C surrounding air temperature*1,*2.
Terminal Connection
Diagram
Terminal Specification
Explanation
[ For the FR-E700 series, use the "FR-A7
•The design life of the cooling fan has been extended to 10
• The inverter with filterpack FR-BFP2 (a package of power factor
Options
Plug-in options supporting digital input, analog output extension, and a variety of communications provide extended functions which is
almost equivalent to the FR-A700 series. (One type of plug-in option can be mounted.)
(3) Easy replacement of cooling fan
improving DC reactor, common mode choke and capacitive
filter) conforms to the Japanese harmonic suppression guideline.
• Noise filter option which is compatible with EMC Directive
(EN61800-3 2nd Environment Category C3) is available.
Instructions
(1) Long-life design
(1) A variety of plug-in options are mountable
Operation panel
Parameter unit
FR Configurator
700 series are the pioneer of long life and high reliability.
Parameter
List
Mitsubishi inverters offer the expandability that answers to every need
Explanations
of
Parameters
Ensured maintenance
Protective
Functions
Enhanced expandability
Full of useful functions
*: Approved safety relay unit
Compact design expands flexibility of enclosure design.
Input voltage
(1) Compact body with
high performance function
Installation size is the same as
the conventional mode (FRE500 series) in consideration
of intercompatibility.
(7.5K or less)
128mm
3
Mitsubishi magnetic
contactors
Input voltage
Motor speed
Space can be saved by side by side
no clearance installation*.
*: Use the inverter at the surrounding air temperature
of 40˚C or less.
FR-E720-0.2K (SC)
Peripheral
device
(2) Side by side installation saves space
Output frequency
Motor speed
Output current
FR-E500 series
Output frequency
Output current
FR-E700 series
Detection of coasting speed (frequency search function) prevents the motor speed from
decreasing at a restart, starting the motor smoothly with less output current.
FR-E520-0.2K
•Offer a selection of small frames
•Support with low-level load (auxiliary contact)
•Offer a line-up of safety contactors
•Support many international regulations as a standard model
Refer to page 62 for the selection.
• Brake sequence mode
• Regeneration avoidance function
• Optimum excitation control
• Main circuit power supply DC input
• Enhanced I/O terminal function
•Password function
and so on
• Power-failure deceleration stop function/operation
continuation at instantaneous power failure function
The motor can be decelerated to a stop when a power failure
or undervoltage occurs to prevent the motor from coasting.
This function is useful to stop a motor at power failure as a fail
safe of machine tool, etc.
With the new operation continuation function at instantaneous
power failure, the motor continues running without coasting
even if an instantaneous power failure occurs during operation.
Compatibility
with frequency search
Warranty
• Automatic restart after instantaneous power failure function
*: The inverter may trip and the motor may coast depending on the load condition.
Inquiry
Compact and space saving
Motor
Enhanced functions for all sorts of applications
is useful for mechanical brake control of a lift.
prevents regenerative overvoltage in a pressing machine.
can save more energy with the maximum motor efficiency control.
can be connected to DC power supply.
supports switchover of analog input (voltage / current).
is effective for parameter setting protection.
4
Features
Lineup
Connection example
Symbol Number of Power Phases
Three-phase input
None
Single-phase input
S
Single-phase input
W
(double voltage output)
Symbol Inverter Capacity
Represents the
0.1K
inverter capacity
to
"kW".
15K
circuit terminal
Symbol Control
specification
None
SC
Standard control circuit
terminal model (screw type)
Safety stop function model
Symbol
Protective Structure
None Enclosed-type structure IP20
Totally enclosed structure IP40
C
Moulded case circuit breaker
(MCCB) or earth leakage current
breaker (ELB), fuse
The breaker must be selected carefully
since an in-rush current flows in the
inverter at power on.
Enclosure surface
operation panel (FR-PA07)
Connect a connection cable (FR-CB2) to
the PU connector to use the FR-PA07,
FR-PU07/FR-PU07BB(-L).
Parameter unit
(FR-PU07/FR-PU07BB(-L))
Standard
Specifications
Symbol Voltage
1
100V class
2
200V class
4
400V class
- 0 .1 K -
USB connector
A personal computer and an inverter can
be connected with a USB (Ver1.1) cable.
Outline
Dimension
Drawings
F R-E 7 2 0
Use within the permissible power supply
specifications of the inverter.
To ensure safety, use a moulded case circuit
breaker, earth leakage circuit breaker or
magnetic contactor to switch power ON/OFF.
Connection
example
AC power supply
Reactor (FR-HAL, FR-HEL option)
Totally enclosed
Install reactors to suppress harmonics
and to improve the power factor.
A reactor (option) is required when
installing the inverter near a large power
supply system (500kVA or more).
The inverter may be damaged if you do
not use reactors. Select the reactor
according to the model. Remove the
jumpers across terminals P/+ - P1 to
connect the DC reactor.
FR-E720-
(SC)
0.2K
0.4K
0.75K
1.5K
2.2K
3.7K
5.5K
7.5K
11K
15K
structure (IP40)
Enclosed-type
Three-phase 400V
structure (IP20)
FR-E740-
Totally enclosed
(SC)
structure (IP40)
Single-phase 200V
Enclosed-type
FR-E720S-
structure (IP20)
(SC)*
Single-phase 100V
Enclosed-type
FR-E710W-
structure (IP20)
*
*:Output of the single-phase 200V and single-phase 100V input specifications is three-phase 200V.
AC reactor (FR-HAL)
:Available models
:Models to be released
Approved safety relay
module
S1
S2
PC
Required for compliance
with safety standard.
Brake resistor
(FR-ABR, MRS, MYS)
Braking capability can be improved.
(0.4K or more)
Always install a thermal relay when
using a brake resistor whose
capacity is 11K or more.
DC reactor (FR-HEL)*
:Not available
P/+ P1
Protective
Functions
P/+
PR
R/L1 S/L2 T/L3
P/+ N/-
Operation panel
Parameter unit
FR Configurator
Three-phase 200V
0.1K
Parameter
List
structure (IP20)
Inverter Capacity
Inverter Model
Explanations
of
Parameters
Enclosed-type
Install the magnetic contactor to ensure
safety. Do not use this magnetic
contactor to start and stop the inverter.
Doing so will cause the inverter life to be
shorten.
Terminal Connection
Diagram
Terminal Specification
Explanation
Magnetic contactor (MC)
U VW
EMC filter (ferrite core)*
(FR-BSF01, FR-BLF)
EMC filter (ferrite core)
(FR-BSF01, FR-BLF)
Install a noise filter to reduce the
electromagnetic noise
generated from the inverter.
Effective in the range from about
1MHz to 10MHz. A wire should be
wound four turns at a maximum.
EMC filter
(capacitor)*
(FR-BIF)
Reduces
the radio
noise.
Instructions
Install a noise filter to
reduce the electromagnetic
noise generated from the
inverter. Effective in the
range from about 1MHz to
10MHz. When more wires
are passed through, a more
effective result can be
obtained. A wire should be
wound four turns or more.
Motor
Motor
Complies with
UL, cUL, EC Directives (CE marking)
as a standard model
Options
Earth
(Ground)
Compatibility
*Filterpack (FR-BFP2), which contains DC reactor and noise filter in one package, is also available.
Brake unit (FR-BU2)
P/+
PR
5
High power factor
converter (FR-HC)
Power regeneration
common converter (FR-CV)
Register unit (FR-BR)
Discharging resistor (GZG, GRZG)
Power supply harmonics
can be greatly suppressed.
Install this as required.
Great braking capability is obtained.
Install this as required.
The regenerative braking capability
of the inverter can be exhibited fully.
Install this as required.
Devices connected to the output
Do not install a power factor correction capacitor,
surge suppressor or radio noise filter on the output
side of the inverter. When installing a moulded case
circuit breaker on the output side of the inverter,
contact each manufacturer for selection of the
moulded case circuit breaker.
Inquiry
P/+ PR
Warranty
Earth
(Ground)
Earth (Ground)
To prevent an electric shock, always earth (ground)
the motor and inverter. For reduction of induction noise
from the power line of the inverter, it is recommended
to wire the earth (ground) cable by returning it to the
earth (ground) terminal of the inverter.
6
Standard specifications
Rating
z Three-phase 200V power supply
Model FR-E720-…K(SC)∗9(-C) ∗10
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
11
0.1
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
11
15
Rated capacity (kVA) ∗2
0.3
0.6
1.2
2.0
3.2
4.4
7.0
9.5
13.1
18.7
23.9
0.8
(0.8)
1.5
(1.4)
3
(2.5)
5
(4.1)
8
(7)
11
(10)
17.5
(16.5)
24
(23)
33
(31)
47
(44)
60
(57)
20
28
6.5
6.5
Output
0.1
Applicable motor capacity (kW) ∗1
Rated current (A) ∗7
Overload current rating ∗3
150% 60s, 200% 3s (inverse-time characteristics)
Voltage ∗4
Three-phase 200 to 240V
Regenerative braking torque ∗5
150%
100%
Power supply
Rated input
50%
Permissible AC (DC) voltage
170 to 264V 50Hz/60Hz (240 to 373VDC ∗8)
fluctuation
Permissible frequency fluctuation
±5%
0.4
0.8
Protective structure (JEM1030)
1.5
2.5
4.5
5.5
9
12
17
Enclosed type (IP20). IP40 for totally enclosed structure series.
Cooling system
Approximate mass (kg)
20%
Three-phase 200 to 240V 50Hz/60Hz (283 to 339VDC ∗8)
AC (DC) voltage/frequency
Power supply capacity (kVA) ∗6
15
Self-cooling
0.5
0.5
0.7
Forced air cooling
1.0
1.4
1.4
1.7
4.3
4.3
z Three-phase 400V power supply
Model FR-E740-…K(SC)∗9(-C)∗10
0.75
1.5
2.2
3.7
5.5
7.5
11
0.4
0.75
1.5
2.2
3.7
5.5
7.5
11
15
Rated capacity (kVA)∗2
1.2
2.0
3.0
4.6
7.2
9.1
13.0
17.5
23.0
1.6
(1.4)
2.6
(2.2)
4.0
(3.8)
6.0
(5.4)
9.5
(8.7)
12
17
23
30
20
28
Output
0.4
Applicable motor capacity (kW)∗1
Rated current (A)∗7
Overload current rating∗3
150% 60s, 200% 3s (inverse-time characteristics)
Voltage∗4
Three-phase 380 to 480V
Power supply
Regenerative braking torque ∗5
100%
50%
Rated input voltage/frequency
325 to 528V 50Hz/60Hz
Permissible frequency fluctuation
±5%
1.5
2.5
Protective structure (JEM1030)
Cooling system
Approximate mass (kg)
∗1
∗2
∗3
20%
Three-phase 380 to 480V 50Hz/60Hz
Permissible AC voltage fluctuation
Power supply capacity (kVA)∗6
15
4.5
5.5
9.5
12
17
Enclosed type (IP20). IP40 for totally enclosed structure series.
Self-cooling
1.4
1.4
Forced air cooling
1.9
1.9
1.9
3.2
3.2
6.0
6.0
The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi 4-pole standard motor.
The rated output capacity indicated assumes that the output voltage is 230V for three-phase 200V class and 440V for three-phase 400V class.
The % value of the overload current rating indicated is the ratio of the overload current to the inverter's rated output current. For repeated duty, allow time for
the inverter and motor to return to or below the temperatures under 100% load.
∗4 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 2 that of the power supply.
∗5 The braking torque indicated is a short-duration average torque (which varies with motor loss) when the motor alone is decelerated from 60Hz 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 (FR-BU2) may also be used. (Option brake resisitor cannot be used for 0.1K and 0.2K.)
∗6 The power supply capacity varies with the value of the power supply side inverter impedance (including those of the input reactor and cables).
∗7 Setting 2kHz or more in Pr. 72 PWM frequency selection to perform low acoustic noise operation in the surrounding air temperature exceeding 40°C (totallyenclosed structure is 30°C), the rated output current is the value in parenthesis.
∗8 y Connect DC power supply to terminal P/+ and N/-. Connect the plus side of the power supply to terminal P/+ and minus side to terminal N/-.
y Since the voltage between P/+ and N/- may increase due to the regeneration energy from the motor and exceeds 415V temporarily, select the DC power
supply which can withstand the voltage/energy during regeneration. If using the power supply which can not withstand voltage/energy during regeneration,
insert diodes in series for reverse current prevention.
y Although the FR-E700 series has the built-in inrush current limit circuit, select the DC power supply considering the inrush current at powering ON as the
inrush current four times of the rated inverter flows at powering ON.
y Since the power supply capacity depends on the output impedance of the power, select the power supply capacity which has enough allowance according
to the AC power supply system capacity.
∗9 The safety stop function model is indicated with SC.
∗10 Totally enclosed structure series ends with -C.
7
0.6
1.2
2.0
3.2
4.4
0.8
(0.8)
1.5
(1.4)
3.0
(2.5)
5.0
(4.1)
8.0
(7.0)
11.0
(10.0)
Rated current (A)∗7
Overload current rating∗3
150% 60s, 200% 3s (inverse-time characteristics)
Rated output voltage∗4
Three-phase 200 to 240V
Power supply
Regenerative braking torque ∗5
150%
100%
50%
Rated input AC voltage/frequency
Single-phase 200 to 240V 50Hz/60Hz
Permissible AC voltage fluctuation
170 to 264V 50Hz/60Hz
Permissible frequency fluctuation
Within ±5%
Power supply capacity (kVA)∗6
0.5
0.9
Protective structure (JEM1030)
2.5
4.0
5.2
Enclosed type (IP20)
Cooling system
Approximate mass (kg)
1.5
20%
Self-cooling
0.6
Forced air cooling
0.6
0.9
1.4
1.5
2.0
z Single-phase 100V power supply
0.1
0.2
0.4
0.75
Applicable motor capacity (kW)∗1
Model FR-E710W-…K
0.1
0.2
0.4
0.75
Rated capacity (kVA)∗2
0.3
0.6
1.2
2.0
0.8
(0.8)
1.5
(1.4)
3.0
(2.5)
5.0
(4.1)
Output
Rated Current (A)∗7
150% 60s, 200% 3s
(inverse-time characteristics)
Overload current rating∗3
Rated output voltage
Three-phase 200 to 230V ∗8, ∗9
Power supply
Regenerative braking torque ∗5
150%
100%
Rated input AC voltage/frequency
Single-phase 100 to 115V 50Hz/60Hz
Permissible AC voltage fluctuation
90 to 132V 50Hz/60Hz
Permissible frequency fluctuation
Within ±5%
Power supply capacity (kVA)∗6
0.5
Protective structure (JEM1030)
1.5
2.5
Enclosed type (IP20)
Cooling system
Approximate mass (kg)
0.9
Self-cooling
0.6
0.7
0.9
1.5
Connection
example
0.3
Standard
Specifications
2.2
Rated capacity (kVA)∗2
Outline
Dimension
Drawings
2.2
1.5
Terminal Connection
Diagram
Terminal Specification
Explanation
1.5
0.75
Operation panel
Parameter unit
FR Configurator
0.75
0.4
Parameter
List
0.4
0.2
Explanations
of
Parameters
0.2
0.1
Protective
Functions
Model FR-E720S-…K(SC)∗10
Output
0.1
Applicable motor capacity (kW)∗1
Features
z Single-phase 200V power supply
∗1
∗2
∗3
Inquiry
Warranty
Compatibility
Motor
Instructions
Options
The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi 4-pole standard motor.
The rated output capacity indicated assumes that the output voltage is 230V.
The % value of the overload current rating indicated is the ratio of the overload current to the inverter's rated output current. For repeated duty, allow time for
the inverter and motor to return to or below the temperatures under 100% load. If the automatic restart after instantaneous power failure function (Pr. 57) or
power failure stop function (Pr. 261) is set and power supply voltage is low while load becomes bigger, the bus voltage decreases to power failure detection
level and load of 100% or more may not be available.
∗4 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 2 that of the power supply.
∗5 The braking torque indicated is a short-duration average torque (which varies with motor loss) when the motor alone is decelerated from 60Hz 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 (FR-BU2) may also be used. (Option brake resisitor cannot be used for 0.1K and 0.2K.)
∗6 The power supply capacity varies with the value of the power supply side inverter impedance (including those of the input reactor and cables).
∗7 Setting 2kHz or more in Pr. 72 PWM frequency selection to perform low acoustic noise operation with the surrounding air temperature exceeding 40°C, the
rated output current is the value in parenthesis.
∗8 For single-phase 100V power input model, the maximum output voltage is twice the amount of the power supply voltage and cannot be exceeded.
∗9 In a single-phase 100V power input model, the output voltage may fall down when the load is heavy, and larger output current may flow compared to a
threephase input model. Use the motor with less load so that the output current is within the rated motor current range.
∗10 The safety stop function model is indicated with SC.
8
Control specifications
Common specifications
Control method
Soft-PWM control/high carrier frequency PWM control (V/F control, Advanced magnetic flux vector control,
General-purpose magnetic flux vector control, Optimum excitation control are available)
Output frequency range
0.2 to 400Hz
Frequency setting Analog input
resolution
Digital input
Frequency
accuracy
0.06Hz/60Hz (terminal2, 4: 0 to 10V/10bit)
0.12Hz/60Hz (terminal2, 4: 0 to 5V/9bit)
0.06Hz/60Hz (terminal4: 0 to 20mA/10bit)
0.01Hz
Analog input
Within ±0.5% of the max. output frequency (25°C ±10°C)
Digital input
Within 0.01% of the set output frequency
Voltage/frequency characteristics
Base frequency can be set from 0 to 400Hz, Constant-torque/variable torque pattern can be selected
Starting torque
200% or more (at 0.5Hz)...when Advanced magnetic flux vector control is set (3.7K or less)
Torque boost
Manual torque boost
to 360s, 0.1 to 3600s (acceleration and deceleration can be set individually), linear or S-pattern acceleration/
Acceleration/deceleration time setting 0.01
deceleration modes are available.
DC injection brake
Operation frequency (0 to 120Hz), operation time (0 to 10s), operation voltage (0 to 30%) can be changed.
Stall prevention operation level
Operation current level can be set (0 to 200% adjustable), whether to use the function or not can be selected
Analog input
Two terminals
Terminal 2: 0 to 10V, 0 to 5V can be selected
Terminal 4: 0 to 10V, 0 to 5V, 4 to 20mA can be selected
Digital input
The signal is entered from the operation panel or parameter unit.
Frequency setting increment can be set.
4 digit BCD or 16bit binary data (when the option FR-A7AX E kit is used)
Operation specifications
Frequency setting
signal
Start signal
Forward and reverse rotation or start signal automatic self-holding input (3-wire input) can be selected.
Input signal
(Standard control circuit terminal
model:Seven terminals
Safety stop function model: Six
terminals)
The following signals can be assigned to Pr. 178 to Pr.184 (input terminal function selection): multi-speed selection,
remote setting, stop-on contact selection, second function selection, terminal 4 input selection, JOG operation
selection, PID control valid terminal, brake opening completion signal, external thermal input, PU-External
operation switchover, V/F switchover, output stop, start self-holding selection, forward rotation, reverse rotation
command, inverter reset, PU-NET operation switchover, External-NET operation switchover, command source
switchover, inverter operation enable signal, and PU operation external interlock
Operational functions
Maximum/minimum frequency setting, frequency jump operation, external thermal relay input selection,
automatic restart after instantaneous power failure operation, forward/reverse rotation prevention, remote setting,
brake sequence, second function, multi-speed operation, stop-on contact control, droop control, regeneration
avoidance, slip compensation, operation mode selection, offline auto tuning function, PID control, computer link
operation (RS-485)
Safety stop function ∗2
Safety shutoff signal can be input from terminals S1 and S2. (compliant with EN ISO 13849-1 Category 3 / PLd
EN62061 / IEC61508 SIL2)
The following signals can be assigned to Pr.190 to Pr.192 (output terminal function selection): inverter operation, upOutput signal
Open collector output (Two terminals) to-frequency, overload alarm, output frequency detection, regenerative brake prealarm, electronic thermal relay
function
prealarm, inverter operation ready, output current detection, zero current detection, PID lower limit, PID
Relay output (One terminal)
Operating status
upper limit, PID forward/reverse rotation output, brake opening request, fan alarm∗1, heatsink overheat prealarm, deceleration at an instantaneous power failure, PID control activated, safety monitor output∗2, safety
monitor output2∗2, during retry, life alarm, current average value monitor, remote output, alarm output, fault
output, fault output 3, and maintenance timer alarm
The following signals can be assigned to Pr.54 FM terminal function selection: output frequency, motor current
For meter
(steady), output voltage, frequency setting, motor torque, converter output voltage, regenerative brake duty,
Pulse train output (Max. 2.4kHz: electronic thermal relay function load factor, output current peak value, converter output voltage peak value,
reference voltage output, motor load factor, PID set point, PID measured value, output power
one terminal)
Indication
Pulse train output (1440 pulses/s/full scale)
Operation panel
Parameter unit
(FR-PU07)
Environment
Protective/warning
function
∗1
∗2
∗3
∗4
∗5
∗6
∗7
9
The following operating status can be displayed: output frequency, motor current (steady), output voltage,
frequency setting, cumulative energization time, actual operation time, motor torque, converter output voltage,
brake duty, electronic thermal relay function load factor, output current peak value, converter output
Operating status regenerative
voltage peak value, motor load factor, PID set point, PID measured value, PID deviation, inverter I/O terminal
monitor, I/O terminal option monitor, output power, cumulative power, motor thermal load factor, and inverter
thermal load factor.
Fault record
Fault record is displayed when a fault occurs. Past 8 fault records (output voltage/current/frequency/cumulative
energization time right before the fault occurs) are stored
Interactive
guidance
Function (help) for operation guide ∗3
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, input phase failure∗5, output side earth
(ground) fault overcurrent at start∗4, output phase failure, external thermal relay operation ∗4, option fault ∗4,
parameter error, internal board fault, PU disconnection, retry count excess ∗4, CPU fault, brake transistor alarm,
inrush resistance overheat, communication error, analog input error, USB communication error, brake sequence
error 4 to 7 ∗4, safety circuit fault ∗2
Warning
functions
Fan alarm∗1, overcurrent stall prevention, overvoltage stall prevention, PU stop, parameter write error,
regenerative brake prealarm ∗4, electronic thermal relay function prealarm, maintenance output ∗4, undervoltage,
operation panel lock, password locked, inverter reset, safety stop ∗2
Surrounding air temperature
-10°C to +50°C (non-freezing) (-10°C to +40°C for totally-enclosed structure feature) ∗6
Ambient humidity
90%RH or less (non-condensing)
Storage temperature∗7
-20°C to +65°C
Atmosphere
Indoors (without corrosive gas, flammable gas, oil mist, dust and dirt etc.)
Altitude/vibration
Maximum 1000m above sea level, 5.9m/s 2 or less at 10 to 55Hz (directions of X, Y, Z axes)
As the FR-E720-0.1K(SC) to 0.75K(SC), FR-E740-0.4K(SC) and 0.75K(SC), FR-E720S-0.1K(SC) to 0.4K(SC), FR-E710W-0.1K to 0.75K are not provided
with the cooling fan, this alarm does not function.
This function is only available for the safety stop function model.
This operation guide is only available with option parameter unit (FR-PU07).
This protective function does not function in the initial status.
This protective function is available with the three-phase power input model only.
When using the inverters at the surrounding air temperature of 40°C or less, the inverters can be installed closely attached (0cm clearance).
Temperatures applicable for a short time, e.g. in transit.
Outline Dimension Drawings
When used with the plug-in option
Standard
Specifications
Terminal Connection
Diagram
Terminal Specification
Explanation
80.5
D2 ∗
95.6
142.5
148.5
10
42
62
42
125.6
127.6
140.1
147.6
160.1
Parameter
List
110.5
112.5
118.5
132.5
138.5
108.1
157.6
Explanations
of
Parameters
86.5
Operation panel
Parameter unit
FR Configurator
10
170.1
∗ When the FR-A7NC E kit is mounted, a terminal block protrudes making the
depth approx. 2mm greater.
(Unit: mm)
Protective
Functions
D1
Options
D
Instructions
Inverter Model
D1
Motor
D2 ∗
D
FR-E720-0.1K, 0.2K
FR-E720S-0.1K, 0.2K
FR-E710W-0.1K
FR-E720-0.1KSC, 0.2KSC
FR-E720S-0.1KSC, 0.2KSC
FR-E710W-0.2K
FR-E720-0.4K
FR-E720-0.4KSC
FR-E720-0.75K
FR-E720-0.75KSC
FR-E720S-0.4K
FR-E710W-0.4K
FR-E720S-0.4KSC
Outline
Dimension
Drawings
4
D1
Compatibility
56
68
Warranty
5
Inquiry
4
5
Capacity
plate
Rating
plate
Rating
plate
118
128
Connection
example
5
φ5 hole
Features
zFR-E720-0.1K(SC) to 0.75K(SC)
zFR-E720S-0.1K(SC) to 0.4K(SC)
zFR-E710W-0.1K to 0.4K
10
zFR-E720-1.5K(SC), 2.2K(SC)
zFR-E720S-0.75K(SC), 1.5K(SC)
zFR-E710W-0.75K
When used with the plug-in option
5
2-φ5 hole
*1
Rating
plate
118
128
Rating
plate
Capacity
plate
5
5
5
D1
96
108
D
∗1
Inverter Model
D2*2
FR-E710W-0.75K are not provided with the cooling fan.
D
FR-E720-1.5K, 2.2K
FR-E720S-0.75K
FR-E720-1.5KSC, 2.2KSC
FR-E720S-0.75KSC
FR-E720S-1.5K
FR-E720S-1.5KSC
FR-E710W-0.75K
∗2
5
D1
D2 ∗2
D1
135.5
150.6
141.5
161
167
155
60
163.1
54
176.1
188.6
170.1
When the FR-A7NC E kit is mounted, a terminal block
protrudes making the depth approx. 2mm greater.
(Unit: mm)
zFR-E720-3.7K(SC)
When used with the plug-in option
118
128
5
2-φ5 hole
5
158
170
5
Capacity
plate
Rating
plate
Rating
plate
66.5
5
66.5
D
D1 *
D
D1 ∗
FR-E720-3.7K
142.5
157.6
FR-E720-3.7KSC
148.5
170.1
Inverter Model
5
∗ When the FR-A7NC E kit is mounted, a terminal block protrudes
making the depth approx. 2mm greater.
(Unit: mm)
11
Features
zFR-E720-5.5K(SC) to 15K(SC)
When used with the plug-in option
Standard
Specifications
FR-E720-11K, 15K
FR-E720-11KSC, 15KSC
W2
180
164
180
220
195
211
D
D1 ∗
165
180.1
171
192.6
190
205.1
196
217.6
Terminal Connection
Diagram
Terminal Specification
Explanation
D2
D3
71.5
10
84.5
10.5
∗ When the FR-A7NC E kit is mounted, a terminal block protrudes making the depth approx. 2mm greater.
W2
(Unit: mm)
Operation panel
Parameter unit
FR Configurator
W1
Parameter
List
FR-E720-5.5KSC, 7.5KSC
W
Explanations
of
Parameters
Inverter Model
FR-E720-5.5K, 7.5K
Protective
Functions
Capacity
plate
Options
D1*
Instructions
D
D3
Motor
D2
Compatibility
D2
W1
W
Warranty
D3
8
6
Rating
plate
Inquiry
Rating
plate
Outline
Dimension
Drawings
260
244
Connection
example
8
2-φ6hole
12
zFR-E740-0.4K(SC) to 3.7K(SC)
zFR-E720S-2.2K(SC)
When used with the plug-in option
6
2-φ5 hole
150
138
*1
*1
Rating
plate
Rating
plate
Capacity
plate
5
5
6
5
D1
128
D1
D2 *2
D
140
∗1
FR-E740-0.4K, 0.75K are not provided with the cooling fan.
Inverter Model
D
114
FR-E740-0.4KSC, 0.75KSC
120
FR-E740-1.5K to 3.7K
135
FR-E740-1.5KSC to 3.7KSC
141
FR-E720S-2.2K
155.5
FR-E720S-2.2KSC
161.5
∗2
D2 ∗2
D1
FR-E740-0.4K, 0.75K
129.1
39
141.6
150.1
162.6
60
170.6
183.1
When the FR-A7NC E kit is mounted, a terminal block protrudes
making the depth approx. 2mm greater.
(Unit: mm)
zFR-E740-5.5K(SC), 7.5K(SC)
When used with the plug-in option
150
138
6
2-φ5 hole
Rating
plate
Rating
plate
Capacity
plate
208
220
10
10
6
5
68
68
D
D1*
D
D1 ∗
FR-E740-5.5K, 7.5K
147
162.1
FR-E740-5.5KSC, 7.5KSC
153
174.6
Inverter Model
∗ When the FR-A7NC E kit is mounted, a terminal block protrudes making the
depth approx. 2mm greater.
(Unit: mm)
13
zFR-E740-11K(SC), 15K(SC)
FAN
Standard
Specifications
260
205.1
FR-E740-11KSC, 15KSC
196
217.6
Terminal Connection
Diagram
Terminal Specification
Explanation
Outline
Dimension
Drawings
D1 ∗
190
Inverter Model
Parameter
List
D
FR-E740-11K, 15K
Operation panel
Parameter unit
FR Configurator
D1 *
Explanations
of
Parameters
∗ When the FR-A7NC E kit is mounted, a terminal block protrudes making the
depth approx. 2mm greater.
211
(Unit: mm)
Protective
Functions
D
Options
Capacity
plate
84.5
Instructions
220
10.5
84.5
Motor
195
Compatibility
10.5
8
6
Rating
plate
Warranty
Rating
plate
Inquiry
244
Connection
example
FAN
Features
When used with the plug-in option
8
2-φ6 hole
14
zParameter unit (option) (FR-PU07)
<Outline drawing>
<Panel cut dimension drawing>
25.05
(11.45)
2.5
83
(14.2)
*1
40
40
Air-bleeding
hole
51
50
*1
4-R1
*1
57.8
67
56.8
135
*1
26.5
∗1
26.5
4-φ4 hole
(Effective depth of the
installation screw hole 5.0)
M3 screw *2
When installing the FR-PU07 on the enclosure, etc., remove
screws or fix the screws to the FR-PU07 with M3 nuts.
∗2
80.3
Select the installation screw whose length will not exceed the
effective depth of the installation screw hole.
(Unit: mm)
zParameter unit with battery pack (option) (FR-PU07BB)
83
8.2
46.7
135
6
18
46.7
44.7
(Unit: mm)
zEnclosure surface operation panel (option) (FR-PA07)
<Outline drawing>
<Panel cut dimension drawing>
22
68
22
59
2-M3 screw
(Unit: mm)
15
Terminal Connection Diagram
*1. DC reactor (FR-HEL)
When connecting a DC reactor, remove the
jumper across P1 and P/+.
Not available for single-phase 100V power
input model.
IM
Main circuit
Standard control terminal block
B
STR
A
RM
Open collector output
RL
Terminal functions vary with
the output terminal assignment
(Pr. 190 and Pr. 191)
RUN
Running
SD
24VDC power supply
(Common for external power supply transistor)
Frequency detection
SINK
Reset
FU
SOURCE
RES
Contact input common
SE
PC *2
Open collector output common
Sink/source common
Calibration resistor
+
Frequency setting signals (Analog)
3
*3 Terminal input specifications Frequency
can be changed by analog setting
input specifications
potentiometer
switchover (Pr. 73).
2
1/2W1kΩ
*4 It is recommended to use 2W1kΩ *4
when the frequency setting signal
is changed frequently.
1
Terminal 4 input (+)
(Current input) (-)
*5 Terminal input specifications can be changed by analog
input specifications switchover (Pr. 267). Set the
voltage/current input switch in the "V" position to select
voltage input (0 to 5V/0 to10V) and "I" (initial value) to
select current input (4 to 20mA).
To use terminal 4 (initial setting is current input), set "4"
in any of Pr.178 to Pr.184 (input terminal function selection)
to assign the function, and turn ON AU signal.
Connector for
plug-in option connection
Terminal functions vary
by Pr. 192 A,B,C terminal
function selection
Relay output
(Fault output)
RH
MRS
Output
stop
Relay output
C
STF
10(+5V)
FM
2 0 to 5VDC *3
(0 to 10VDC)
SD
5(Analog common)
4 4 to 20mADC
0 to 5VDC
0 to 10VDC *5
I
PU
connector
-
Indicator
(Frequency meter, etc.)
Connection
example
Terminal Connection
Diagram
Terminal Specification
Explanation
Earth (Ground)
Control circuit
Control input signals (No voltage input allowed)
Forward
Terminal functions vary rotation start
with the input terminal Reverse
assignment (Pr. 178 to rotation start
Pr. 184)
High
speed
Multi-speed selection Middle
speed
*2 When using terminals PCLow
SD as a 24VDC power
speed
Standard
Specifications
Motor
U
V
W
Operation panel
Parameter unit
FR Configurator
Earth
(Ground)
*7
Parameter
List
R/L1
S/L2
T/L3
P/+
Explanations
of
Parameters
P1
*6
MC
Outline
Dimension
Drawings
PR N/-
Jumper
Three-phase
AC power
supply
*8 Brake resistor (FR-ABR, MRS, MYS type)
Install a thermal relay to prevent an
overheat and burnout of the brake resistor.
(The brake resistor can not be connected
to the 0.1K and 0.2K.)
R
*8
Protective
Functions
*1
Earth
(Ground)
Moving-coil type
1mA full-scale
*9
Options
R/L1
S/L2
*9 It is not necessary when
calibrating the indicator
from the operation panel.
USB
connector
Motor
Single-phase
AC power
supply
MCCB
*7 A brake transistor is not built-in to the 0.1K
and 0.2K.
Brake unit
(Option)
MC
V
Voltage/current
input switch *5
Compatibility
MCCB
Instructions
Single-phase power input
*6 Terminal P1 is not available for singlephase 100V power input model.
Option connector
Warranty
Sink logic
Main circuit terminal
Control circuit terminal
supply, take care not to
short across terminals
PC-SD.
Features
zStandard control circuit terminal model
Note
y To prevent a malfunction caused by noise, separate the signal cables more than 10cm from the power cables. Also
separate the main circuit wire of the input side and the output side.
Inquiry
y After wiring, wire offcuts must not be left in the inverter.
Wire offcuts can cause an alarm, failure or malfunction. Always keep the inverter clean. When drilling mounting holes
in an enclosure etc., take care not to allow chips and other foreign matter to enter the inverter.
y The output of the single-phase power input model is three-phase 200V.
16
zSafety stop function model
Sink logic
Main circuit terminal
Control circuit terminal
*1. DC reactor (FR-HEL)
When connecting a DC reactor, remove the
jumper across P1 and P/+.
Single-phase power input
MCCB
Single-phase
AC power
supply
R/L1
S/L2
*1
*7
PR N/-
P1
MC
P/+
*6
Earth
(Ground)
Control circuit
STR
B
RH
A
Relay output
Open collector output
RL
RUN
SINK
RES
Running
Terminal functions vary with
the output terminal assignment
(Pr. 190 and Pr. 191)
FU
Frequency detection
PC *2
SE
S1
Open collector output common
Sink/source common
S2
Safety stop input (Channel 2)
Calibration resistor
Shorting wire
+
Frequency setting signals (Analog)
3
*3 Terminal input specifications Frequency
can be changed by analog setting
input specifications
potentiometer
switchover (Pr. 73).
2
1/2W1kΩ
*4 It is recommended to use 2W1kΩ *4
when the frequency setting signal
is changed frequently.
Terminal functions vary
by Pr. 192 A,B,C terminal
function selection
Relay output
(Fault output)
RM
SD
Safety stop input (Channel 1)
Earth (Ground)
Safety stop function model
C
Reset
Contact input common
24VDC power supply
(Common for external power supply transistor)
Safety stop input common terminal
IM
Main circuit
STF
SOURCE
Control input signals (No voltage input allowed)
Forward
Terminal functions vary rotation start
with the input terminal Reverse
assignment (Pr. 178 to rotation start
Pr. 182 and Pr. 184)
High
speed
Multi-speed selection Middle
speed
*2 When using terminals PCLow
SD as a 24VDC power
speed
supply, take care not to
Motor
U
V
W
R/L1
S/L2
T/L3
Three-phase
AC power
supply
short across terminals
PC-SD.
*7 Brake resistor (FR-ABR, MRS, MYS type)
Install a thermal relay to prevent an
overheat and burnout of the brake resistor.
(The brake resistor can not be connected
to the 0.1K and 0.2K.)
R
Earth
(Ground)
Jumper
MCCB
*6 A brake transistor is not built-in to the 0.1K
and 0.2K.
Brake unit
(Option)
MC
1
Terminal 4 input (+)
(Current input) (-)
*5 Terminal input specifications can be changed by analog
input specifications switchover (Pr. 267). Set the
voltage/current input switch in the "V" position to select
voltage input (0 to 5V/0 to10V) and "I" (initial value) to
select current input (4 to 20mA).
To use terminal 4 (initial setting is current input), set "4"
in any of Pr.178 to Pr.184 (input terminal function selection)
to assign the function, and turn ON AU signal.
Connector for
plug-in option connection
10(+5V)
FM
2 0 to 5VDC *3
(0 to 10VDC)
SD
5(Analog common)
4 4 to 20mADC
0 to 5VDC
0 to 10VDC *5
V
PU
connector
*8
-
Indicator
(Frequency meter, etc.)
Moving-coil type
1mA full-scale
*8 It is not necessary when
calibrating the indicator
from the operation panel.
USB
connector
I
Voltage/current
input switch *5
Option connector
NOTE
y To prevent a malfunction caused by noise, separate the signal cables more than 10cm from the power cables. Also
separate the main circuit wire of the input side and the output side.
y After wiring, wire offcuts must not be left in the inverter.
Wire offcuts can cause an alarm, failure or malfunction. Always keep the inverter clean. When drilling mounting holes
in an enclosure etc., take care not to allow chips and other foreign matter to enter the inverter.
y The output of the single-phase power input model is three-phase 200V.
17
Terminal Specification Explanation
Reset
Contact input common
Common terminal for contact input terminal (sink logic) and terminal FM.
(sink) (initial setting)
Frequency setting
PC
External transistor
common (source)
24VDC power supply
common
External transistor
common
(sink) (initial setting)
Contact input common
(source)
24VDC power supply
Safety stop input
terminal common *
10
Frequency setting
power supply
2
Frequency setting
(voltage)
4
Frequency setting
(current)
When connecting the transistor output (open collector output), such as a programmable controller,
when source logic is selected, connect the external power supply common for transistor output to this
terminal to prevent a malfunction caused by undesirable currents.
Common output terminal for 24VDC 0.1A power supply (PC terminal).
Isolated from terminals 5 and SE.
When connecting the transistor output (open collector output), such as a programmable controller,
when sink logic is selected, connect the external power supply common for transistor output to this
terminal to prevent a malfunction caused by undesirable currents.
Common terminal for contact input terminal (source logic).
Can be used as 24VDC 0.1A power supply.
Common terminal for safety stop input terminals S1 and S2.
∗ Terminal S1 and S2 are only available for the safety stop function model.
Used as power supply when connecting potentiometer for frequency setting
(speed setting) from outside of the inverter.
Inputting 0 to 5VDC (or 0 to 10V) provides the maximum output
frequency at 5V (10V) and makes input and output proportional.
Use Pr. 73 to switch between input 0 to 5VDC (initial setting) and 0
to 10VDC input.
Inputting 0 to 20mADC (or 0 to 5V / 0 to 10V) provides the
maximum output frequency at 20mA makes input and output
proportional. This input signal is valid only when the AU signal is on
(terminal 2 input is invalid). To use terminal 4 (initial setting is
current input), set "4" to any of Pr.178 to Pr.184 (input terminal
function selection), and turn AU signal ON. Use Pr. 267 to switch from
among input 4 to 20mA (initial setting), 0 to 5VDC and 0 to 10VDC.
Set the voltage/current input switch in the "V" position to select
voltage input (0 to 5V/0 to 10V).
Standard control circuit
terminal model
Safety stop
Current input
(initial status)
5
Frequency setting
common
S1
Safe stop input
(Channel 1) *
S2
Safe stop input
(Channel 2) *
Voltage input
Safety stop function
model
Current input
(initial status)
Features
Connection
example
Parameter
List
SD
Standard
Specifications
RES
Outline
Dimension
Drawings
Output stop
Turn on the STF signal to start forward rotation and turn it off to stop. When the STF and STR signals
are turned on simultaneously,
Turn on the STR signal to start reverse rotation and turn it off to stop. the stop command is given.
Multi-speed can be selected according to the combination of RH, RM and RL signals.
Turn on the MRS signal (20ms or more) to stop the inverter output.
Use to shut off the inverter output when stopping the motor by electromagnetic brake.
∗ Terminal MRS is only available for the standard control circuit terminal model.
Used to reset alarm output provided when protective circuit is activated. Turn on the RES signal for
more than 0.1s, then turn it off. Initial setting is for reset always. By setting Pr. 75, reset can be set to
enabled only at fault occurrence. Recover about 1s after reset is cancelled.
Terminal Connection
Diagram
Terminal Specification
Explanation
MRS *
For earthing (grounding) the inverter chassis. Must be earthed (grounded).
Operation panel
Parameter unit
FR Configurator
Forward rotation start
Reverse rotation start
Multi-speed selection
5VDC
permissible load
current 10mA
Input resistance 10kΩ ± 1kΩ
Permissible maximum voltage
20VDC
Explanations
of
Parameters
Control circuit/input signal
Contact input
Earth (Ground)
STF
STR
RH, RM, RL
Protective
Functions
P/+, P1 *
Voltage input:
Input resistance 10kΩ ± 1kΩ
Permissible maximum voltage
20VDC
Current input:
Input resistance 233Ω ± 5Ω
Maximum permissible current
30mA.
Options
P/+, N/-
Instructions
P/+, PR
Voltage input
Common terminal for the frequency setting signals (terminals 2 or 4). Do not earth (ground).
S1/S2 are safe stop signals for use with in conjunction with an
approved external safety unit. Both S1/S2 must be used in dual
channel form. Inverter output is shutoff depending on shorting/
opening between S1 and PC, S2 and PC.
In the initial status, terminal S1 and S2 are shorted with terminal PC
by shortening wire.
Remove the shortening wire and connect the safety relay module
when using the safety stop function.
∗ Terminal S1 and S2 are only available for the safety stop
function model.
Motor
Main circuit
U, V, W
Description
Connect to the commercial power supply. Keep these terminals open when using the high power
factor converter (FR-HC) or power regeneration common converter (FR-CV).
AC power input
∗ When using single-phase power input, terminals are R/L1 and S/L2.
Connect a three-phase squirrel-cage motor.
Inverter output
Brake resistor
Connect a brake transistor (MRS type, MYS type, FR-ABR) across terminals P/+-PR.
(The brake resistor can not be connected to the 0.1K or 0.2K)
connection
Connect the brake unit (FR-BU2), power regeneration common converter (FR-CV) or high power
Brake unit connection factor converter (FR-HC).
Connect the plus side of the power supply to terminal P/+ and minus side to terminal N/-.
DC power input
Remove the jumper across terminals P/+-P1 and connect a DC reactor. Single-phase 100V power
DC reactor connection input model is not compatible with DC reactor.
∗ Terminal P1 is not available for single-phase 100V power input model.
Input resistance 4.7kW
Voltage when contacts are
open
Compatibility
R/L1, S/L2,
T/L3 *
Terminal Name
21 to 26VDC
When contacts are shortcircuited
4 to 6mADC
Warranty
Terminal
Symbol
Inquiry
Type
18
Relay
Open collector
Pulse
Communication
Control circuit/output signal
Type
Terminal
Symbol
Terminal Name
Description
A, B, C
Relay output
(fault output)
RUN
Inverter running
FU
Frequency detection
1 changeover contact output indicates that the inverter fault occurs.
Fault: discontinuity across B-C (continuity across A-C), Normal: continuity across B-C (discontinuity
across A-C) Contact capacity 230VAC 0.3A (power factor = 0.4) 30VDC 0.3A
Switched low when the inverter output frequency is equal to or
Permissible load 24VDC
higher than the starting frequency (initial value 0.5Hz). Switched
(Maximum 27VDC) 0.1A
high during stop or DC injection brake operation.∗
(a voltage drop is 3.4V maximum
when the signal is on)
∗ Low is when the open collector
Switched low when the inverter output frequency is equal to or
output transistor is on (conducts).
higher than the preset detected frequency and high when less than
High is when the transistor is off
the preset detected frequency.∗
(does not conduct).
SE
Open collector
output common
FM
For meter
—
PU connector
—
USB connector
Note
Common terminal of terminal RUN and FU.
Select one e.g. output frequency from monitor items. (Not output
Permissible load current 1mA
during inverter reset.) The output signal is proportional to the
1440 pulses/s at 60Hz
magnitude of the corresponding monitoring item.
With the PU connector, RS-485 communication can be made.
· Conforming standard: EIA-485
· Transmission format: Multi-drop link
(RS-485)
· Communication speed: 4800 to · Overall extension: 500m
38400bps
The FR Configurator can be operated by connecting the inverter to the personal computer through USB.
· Interface: conforms to USB1.1 · Transmission Speed: 12Mbps
· Connector: USB mini B connector (receptacle mini B type)
y Set Pr. 267 and a voltage/current input switch correctly, then input an analog signal in accordance with the setting. Applying
a voltage with voltage/current input switch in "I" position (current input is selected) or a current with switch in "V" position
(voltage input is selected) could cause component damage of the inverter or analog circuit of output devices.
y The inverter will be damaged if power is applied to the inverter output terminals (U, V, W). Never perform such wiring.
y
indicates that terminal functions can be selected using Pr. 178 to Pr. 192 (I/O terminal function selection).
y Terminal names and terminal functions are those of the factory set.
y When connecting the DC power supply, be sure to connect the plus side of the power supply to terminal P/+ and
minus side to terminal N/-. Opposite polarity will damage the inverter.
19
Explanation of the Operation Panel
The operation panel cannot be removed from the inverter.
∗ ON: Indicates
that
forward
rotation
Setting dial
(Setting dial: Mitsubishi inverter dial)
Used to change the frequency setting and
parameter values.
Press to display the following.
y Displays the set frequency in the
monitor mode
y Present set value is displayed during
calibration
y Displays the order in the faults history
mode
Mode switchover
Used to change each setting mode.
Pressing
simultaneously changes
the operation mode.
Pressing for a while (2s) can lock
operation.
Determination of each setting
If pressed during operation, monitor
changes as below;
Monitor indication
Lit to indicate monitoring mode.
Stop operation
Used to stop Run command.
Fault can be reset when protective
function is activated (fault).
Operation mode switchover
Used to switch between the PU and
External operation mode.
When using the External operation mode
(operation using a separately connected
frequency setting potentiometer and start
signal), press this key to light up the EXT
indication.
(Press
simultaneously (0.5s) or
change Pr. 79 setting to change to
combined mode .)
PU: PU operation mode
EXT: External operation mode
Cancels PU stop also.
Standard
Specifications
Outline
Dimension
Drawings
Parameter setting mode
Lit to indicate parameter setting mode.
Terminal Connection
Diagram
Terminal Specification
Explanation
Monitor (4-digit LED)
Shows the frequency, parameter number,
etc.
yWhen the frequency command is less
than the starting frequency.
yWhen the MRS signal is input.
Operation panel
Parameter unit
FR Configurator
start command was given, but the
Parameter
List
was pressed or the
Explanations
of
Parameters
When
Protective
Functions
Reverse rotation operation
Fast flickering (0.2s cycle):
Options
Slow flickering (1.4s cycle):
Connection
example
operation is being performed.
operation can not be made.
Unit indication
Hz: Lit to indicate frequency.
(Flickers when the set frequency
monitor is displayed.)
A: Lit to indicate current.
(Both "Hz" and "A" turn OFF when other
than the above is displayed.)
Features
Operating status indication
Lit or flicker during inverter operation. ∗
Start command
The rotation direction can be selected by
setting Pr. 40.
Instructions
Operation mode indication
PU: Lit to indicate PU operation mode.
EXT: Lit to indicate External operation mode.
(Lit at power-ON at initial setting.)
NET: Lit to indicate Network operation
mode.
PU, EXT: Lit to indicate External/PU
combined operation mode 1, 2.
These turn OFF when command source is
not on operation panel.
Motor
Running frequency
Output current
Inquiry
Warranty
Compatibility
Output voltage
20
Basic operation of the operation panel
Operation mode switchover
At powering ON (External operation mode)
Parameter setting
Monitor/frequency setting
PU Jog operation mode
(Example)
PU operation mode
(output frequency monitor)
Value change
and frequency flicker.
Frequency setting has been
written and completed!!
Output current monitor
STOP
Output voltage monitor
Display the
present setting
Parameter setting mode
(Example)
Parameter and a setting value
flicker alternately.
Parameter write is completed!!
Value change
Parameter clear
All parameter
clear
Faults history clear
Faults history
Initial value
change list
21
[Operation for displaying faults history]
Past eight faults can be displayed.
(The latest fault is ended by ".".)
When no fault history exists,
is displayed.
Explanations of Parameter unit
Parameter unit (FR-PU07), parameter unit with battery pack (FR-PU07BB(-L))
Description
Inverter operates in the External operation mode.
Used to select the PU operation mode to display the frequency
setting screen.
the inverter. (Parameter unit connection cable FR-CB203(3m) is enclosed
y Used to keep on increasing or decreasing the running
frequency. Hold down to vary the frequency.
y Press either of these keys on the parameter setting mode
screen to change the parameter setting value sequentially.
y On the selecting screen, these keys are used to move the cursor.
y Hold down
and press either of these keys to advance
or return the display screen one page.
with FR-PU07BB(-L).)
∗ To use a parameter unit with battery pack (FR-PU07BB) outside Japan, order
a "FR-PU07BB-L" (parameter unit type indicated on the package has L at the
end). Since enclosed batteries may conflict with laws in countries to be used
(new EU Directive on batteries and accumulators, etc.), batteries are not
enclosed with an FR-PU07BB-L.
Forward rotation command key.
POWER lamp
Lit when the power turns on.
Reverse rotation command key.
Monitor
Liquid crystal display
(16 characters 4 lines with backlight)
Interactive parameter setting
Trouble shooting guidance
Monitor (frequency, current, power, etc.)
y Stop command key.
y Used to reset the inverter when an alarm occurs.
y Used to write a set value in the setting mode.
y Used as a clear key in the all parameter clear or alarm history
clear mode.
y Used as a decimal point when entering numerical value.
y Used as a parameter number read key in the setting mode.
y Used as an item select key on the menu screen such as
parameter list or monitoring list.
y Used as an alarm definition display key in the alarm history
display mode.
y Used as a command voltage read key in the calibration mode.
ALARM lamp
Lit to indicate an inverter alarm occurrence.
Operation keys
Options
(Refer to the table
on the right)
Standard
Specifications
Used to enter a frequency, parameter number or set value.
Outline
Dimension
Drawings
to
Terminal Connection
Diagram
Terminal Specification
Explanation
Used to shift to the next item in the setting or monitoring mode.
Operation panel
Parameter unit
FR Configurator
Used to display the function menu.
A variety of functions can be used on the function menu.
Parameter
List
Operation cancel key
Explanations
of
Parameters
First priority monitor is displayed.
In the initial setting, the output frequency is displayed.
Connection
example
Use for parameter setting
Press to choose the parameter setting mode.
∗ The parameter unit connection cable FR-CB20… is required for connecting to
FR-PU07
Features
Key
Protective
Functions
y The parameter unit is a convenient tool for inverter setting
such as direct input method with a numeric keypad,
operation status indication, and help function.
y Eight languages can be displayed.
y Parameter setting values of maximum of three inverters can
be stored.
y With the FR-PU07BB(-L), parameter check and setting
change can be made without connecting a power supply to
the inverter. Use AA nickel hydride batteries, AA alkali
batteries, or AC adapter separately available as power
supply.
y Since the shape is specially designed for portable use, it is
easy to work with the FR-PU07BB(-L) in hand.
Instructions
FR-PU07BB
z Main functions
Monitor
Description
6 types of monitors appear by simply pressing
Motor
Function
.
For PU operation mode and External/PU combined operation mode (Pr.79 = "3"), frequency setting is available.
Settings is performed by the direct setting, which sets frequency directly by
sets frequency continuously by
Parameter Setting
to
, and the step setting, which
Compatibility
Frequency setting
.
Reading parameter and changing setting values are easily done. To change the setting value of an parameter, specify
the parameter number, or select a parameter from the functional parameter list.
Warranty
FR-PU07 (PU07BB) reads parameter settings of an inverter, and stores three different parameter settings.
Batch copy
FR-PU07 (PU07BB) can also copy the stored parameter setting to another inverter of the same series, or verify its
stored parameter setting against the parameter setting stored in an inverter.
Switching between External operation mode [EXT] and PU operation mode [PU] is easy.
Start/stop is enabled during PU operation mode and External/PU operation mode (Pr.79 = "3").
Inquiry
Operation
∗ Available function differs by the inverter. Please refer to the instruction manual of the inverter and the parameter unit.
22
FR Configurator (INVERTER SETUP SOFTWARE)
FR-SW3-SETUP-WE *1
(Microsoft® Windows® 2000 Professional SP4 or later, XP Home Edition SP2 or later, XP Professional SP2 or later
Windows Vista® SP1 or later supported)
FR Configurator is software offers an easy operating environment.
Can be utilized effectively from inverter setting up to maintenance.
Parameter setting, monitoring, etc. can be performed on a display of Windows *2 personal computer.
A personal computer and an inverter can be easily connected with a USB cable.
(RS-485 communication *3 using PU connector is also available.)
∗1 FR Configurator does not support the safety stop function model.
∗2 Microsoft, Windows, Microsoft Windows2000, Microsoft Windows XP, Microsoft Windows Vista are registered
trademarks of Microsoft Corporation in the United States and/or other countries.
∗3 RS-485⇔RS-232C converter is required.
USB connector
USB cable
<How to open the USB connector cover>
Pull the cover in the direction of arrow.
Then turn it upward.
Startup
Desired function can be performed just after a start-up of
the software.
(1) Open the recent used
System File
(2) Perform Easy Setup
(3) Perform each functions
(4) Help
Easy Setup
From station number to parameter setting, setting with
wizard style dialog (interactive) is available.
Procedure for Easy Setup
(1) System File setting
(2) Communication setting
(3) Inverter recognition
(4) Control method selection
(5) Motor setting
(6) Start command,
frequency command
setting
(7) Parameter setting
Navigation area
In Navigation area, switching ONLINE/
OFFLINE and changing operation mode can
be performed.
(1) Frequency setting and forward/reverse
rotation [Test operation]
(2) Display the connected inverter in tree
view [System List]
(3) Function setting without regard to
parameter number [Basic setting]
(4) Estimates the cause of trouble, and
suggest counteraction. [Troubleshooting]
Monitor area
In Monitor area, inverter status can be monitored.
(1) Displays monitor data in
waveform
Displays current
waveform with High
Speed graph function
[Graph]
(2) Monitors the status of I/O
terminals. [I/O Terminal
Monitor]
(3) Displays multiple data in batch. [Batch Monitor]
System area
In System area, parameter setting, Diagnosis,
Troubleshooting, etc. can be performed.
(1) Parameter reading,
writing, verification,
Functional List and
Individual List display
are available.
[Parameter List]
(2) Displays alarm history
and monitor value at
each alarm
occurrence. [Diagnosis]
(3) Parameter setting conversion from conventional
models [Convert]
Setting wizard
Setting wizard can set parameters with wizard style dialog
(interactive). Inputting or selecting required items for each
function, parameter setting can be made, without regard to
parameter number.
Help
Displays operating instructions and details of each
parameters.
FR-SW3-SETUP-WE (for 700 series) and FR-SW1-SETUP-WE (500 series) can be installed from the FR Configurator SW3.
FR-SW3-SETUP-WE is available for download (free of charge) from the below URL on the internet. FR Configurator SW3 (FR-SW3-SETUPWE or FR-SW1-SETUP-WE) needs to be installed to the personal computer prior to updating the software. Also, user registration is required
for the download (free of charge.) (Registration is free of charge.)
MELFANSweb homepage address http://www.MitsubishiElectric.co.jp/melfansweb
23
Parameter List
Features
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. Parameter setting, change and check can be made
from the operation panel. For details of parameters, refer to the instruction manual.
REMARKS
0.01A
inverter
32
brake
DC injection
current
JOG
operation
—
—
Acceleration/
deceleration time
Stall
setting
Multi-speed
prevention
—
—
—
10
DC injection brake operation frequency
0 to 120Hz
0.01Hz
3Hz
33
11
DC injection brake operation time
0 to 10s
0.1s
0.5s
33
12
DC injection brake operation voltage
0 to 30%
0.1%
6/4/2% ∗3
33
13
14
Starting frequency
Load pattern selection
0 to 60Hz
0 to 3
0.01Hz
1
0.5Hz
0
33
33
15
Jog frequency
0 to 400Hz
0.01Hz
5Hz
33
16
Jog acceleration/deceleration time
0 to 3600/360s
0.1/0.01s
0.5s
33
17
18
19
MRS input selection
High speed maximum frequency
Base frequency voltage
0, 2, 4
120 to 400Hz
0 to 1000V, 8888, 9999
1
0.01Hz
0.1V
0
120Hz
9999
34
31
31
1 to 400Hz
0.01Hz
60Hz
32
1
0
32
0 to 200%
0.1%
150%
34
0 to 200%, 9999
0.1%
9999
34
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0.01Hz
0.01Hz
0.01Hz
9999
9999
9999
32
32
32
0 to 400Hz, 9999
0.01Hz
9999
32
1
0
35
1
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.001
1
0
9999
9999
9999
9999
9999
9999
0
0
35, 37
35
35
35
35
35
35
35
36
20
21
22
23
Acceleration/deceleration time
increments
Stall prevention operation level
Stall prevention operation level
24
25
26
27
Multi-speed setting (speed 7)
29
—
30
31
32
33
34
35
36
37
40
Frequency jump
frequency
compensation factor at double speed
Multi-speed setting (speed 4)
Multi-speed setting (speed 5)
Multi-speed setting (speed 6)
—
—
—
Acceleration/deceleration reference
Acceleration/deceleration pattern
selection
Regenerative function selection
Frequency jump 1A
Frequency jump 1B
Frequency jump 2A
Frequency jump 2B
Frequency jump 3A
Frequency jump 3B
Speed display
RUN key rotation direction selection
0, 1
0, 1, 2
0, 1, 2
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0, 0.01 to 9998
0, 1
Standard
Specifications
31
31
31
32
32
32, 49
32
32
Outline
Dimension
Drawings
0 to 500A
31
120Hz
0Hz
60Hz
60Hz
30Hz
10Hz
5/10/15s ∗2
5/10/15s ∗2
Rated
Terminal Connection
Diagram
Terminal Specification
Explanation
Electronic thermal O/L relay
6/4/3/2% ∗1
Operation panel
Parameter unit
FR Configurator
9
0.1%
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.1/0.01s
0.1/0.01s
Parameter
List
0 to 120Hz
0 to 120Hz
0 to 400Hz
0 to 400Hz
0 to 400Hz
0 to 400Hz
0 to 3600/360s
0 to 3600/360s
Customer
Setting
Explanations
of
Parameters
0 to 30%
Maximum frequency
Minimum frequency
Base frequency
Multi-speed setting (high speed)
Multi-speed setting (middle speed)
Multi-speed setting (low speed)
Acceleration time
Deceleration time
Refer
to
Page
Protective
Functions
Torque boost
1
2
3
4
5
6
7
8
Initial
Value
Options
0
Minimum
Setting
Increments
Instructions
Setting Range
Motor
Name
Compatibility
Parameter
Warranty
Basic functions
Function
Inquiry
77Parameter write selection.
Connection
example
y  indicates simple mode parameters. (initially set to extended mode)
y The shaded parameters in the table allow its setting to be changed during operation even if "0" (initial value) is set in Pr.
24
detection
Monitor functions
Second functions
Frequency
Function
Parameter
Name
41
42
Up-to-frequency sensitivity
Output frequency detection
Output frequency detection for reverse
43
44
45
46
47
48
rotation
Second acceleration/deceleration time
Second deceleration time
Second torque boost
Second V/F (base frequency)
Second stall prevention operation
51
current
Second electronic thermal O/L relay
52
DU/PU main display data selection
54
FM terminal function selection
55
56
Minimum
Setting
Increments
Initial
Value
Refer
to
Page
0 to 100%
0 to 400Hz
0.1%
0.01Hz
10%
6Hz
36
36
0 to 400Hz, 9999
0.01Hz
9999
36
0.1/0.01s
0.1/0.01s
0.1%
0.01Hz
5/10/15s ∗2
9999
9999
9999
32
32
31
31
0 to 200%, 9999
0.1%
9999
34, 49
0 to 500A, 9999
0, 5, 7 to 12, 14, 20,
23 to 25, 52 to 57, 61,
62, 100
1 to 3, 5, 7 to 12, 14, 21,
0.01A
9999
32
1
0
36
Setting Range
0 to 3600/360s
0 to 3600/360s, 9999
0 to 30%, 9999
0 to 400Hz, 9999
1
1
36
Frequency monitoring reference
24, 52, 53, 61, 62
0 to 400Hz
0.01Hz
60Hz
Rated
37
Current monitoring reference
0 to 500A
0.01A
inverter
37
Automatic restart
current
Restart coasting time
0, 0.1 to 5s, 9999
0.1s
9999
37
58
Restart cushion time
0 to 60s
0.1s
1s
37
59
60
Remote function selection
Energy saving control selection
0, 1, 2, 3
0, 9
1
1
0
0
38
38
61
Reference current
0 to 500A, 9999
0.01A
9999
39
62
Reference value at acceleration
0 to 200%, 9999
1%
9999
39
63
Reference value at deceleration
0 to 200%, 9999
1%
9999
39
—
65
0 to 5
1
0
39
—
66
Retry selection
Stall prevention operation reduction
0.01Hz
60Hz
34
1
0.1s
1
0.1%
0
1s
0
0%
39
39
39
35
1
0
40
1
1
1
1
1
1
40
40
40
0 to 3, 14 to 17
1
14
41
0, 1, 2
0, 1, 2
0, 1, 2, 3, 4, 6, 7
1
1
1
0
0
0
41
41
41
functions
57
/deceleration
Automatic acceleration
—
—
—
71
Applied motor
—
—
—
72
73
74
—
75
PWM frequency selection
Analog input selection
Input filter time constant
Reset selection/disconnected PU
—
—
—
77
78
 79
Retry
—
67
68
69
70
starting frequency
Number of retries at fault occurrence
Retry waiting time
Retry count display erase
Special regenerative brake duty
25
detection/PU stop selection
Parameter write selection
Reverse rotation prevention selection
Operation mode selection
0 to 400Hz
0 to 10, 101 to 110
0.1 to 360s
0
0 to 30%
0, 1, 3 to 6, 13 to 16, 23,
24, 40, 43, 44, 50, 53, 54
0 to 15
0, 1, 10, 11
0 to 8
Customer
Setting
Motor capacity
Number of motor poles
Motor excitation current
0.1 to 15kW, 9999
2, 4, 6, 8, 10, 9999
0 to 500A (0 to ****), 9999 ∗5
83
Rated motor voltage
0 to 1000V
0.1V
84
Rated motor frequency
Speed control gain (Advanced
10 to 120Hz
0.01Hz
60Hz
43
0.1%
9999
42
0 to 1000mH (0 to 50Ω,
0 to ****), 9999 ∗5
93
Motor constant (L2)
0 to 1000mH (0 to 50Ω,
0 to ****) , 9999 ∗5
94
Motor constant (X)
0 to 100% (0 to 500Ω, 0
to ****) , 9999 ∗5
96
117
118
119
120
121
122
123
Auto tuning setting/status
PU communication station number
PU communication speed
PU communication stop bit length
PU communication parity check
Number of PU communication retries
PU communication check time interval
PU communication waiting time setting
0, 1, 11, 21
0 to 31 (0 to 247)
48, 96, 192, 384
0, 1, 10, 11
0, 1, 2
0 to 10, 9999
0, 0.1 to 999.8s, 9999
0 to 150ms, 9999
124
PU communication CR/LF selection
0, 1, 2
 125
126
127
43
0.001Ω (1)
∗5
9999
43
9999
43
9999
43
9999
43
0
0
192
1
2
1
0
9999
43
43
43
43
43
43
43
43
1
1
43
0.01Hz
0.01Hz
0.01Hz
60Hz
60Hz
9999
44
44
45
1
0
45
0.1%
0.1s
0.1%
0.1%
0.01%
0.01s
100%
1s
9999
9999
9999
9999
45
45
45
45
45
45
0.1mH
(0.001Ω, 1)
0.1mH
∗5
(0.001Ω, 1)
0.1%
∗5
(0.01Ω, 1)
1
1
1
1
1
1
0.1s
1
∗5
129
130
131
132
133
134
Terminal 2 frequency setting gain frequency 0 to 400Hz
Terminal 4 frequency setting gain frequency 0 to 400Hz
PID control automatic switchover frequency 0 to 400Hz, 9999
0, 20, 21, 40 to 43,
PID action selection
50, 51, 60, 61
PID proportional band
0.1 to 1000%, 9999
PID integral time
0.1 to 3600s, 9999
PID upper limit
0 to 100%, 9999
PID lower limit
0 to 100%, 9999
PID action set point
0 to 100%, 9999
PID differential time
0.01 to 10.00s, 9999
145
PU display language selection
0 to 7
1
0
45
—
146 ∗7
0, 1
1
1
45
—
147
Built-in potentiometer switching
Acceleration/deceleration time
0.01Hz
9999
32
PID operation
128
Current
detection
150
151
—
—
—
152
153
156
157
 160
—
161
0 to 400Hz, 9999
switching frequency
Output current detection level
Output current detection signal delay
0 to 200%
0.1%
150%
45
time
Zero current detection level
Zero current detection time
Stall prevention operation selection
OL signal output timer
User group read selection
Frequency setting/key lock operation
0 to 10s
0.1s
0s
45
0 to 200%
0 to 1s
0 to 31, 100, 101
0 to 25s, 9999
0, 1, 9999
0.1%
0.01s
1
0.1s
1
5%
0.5s
0
0s
0
45
45
34
34
46
1
0
46
selection
0, 1, 10, 11
Connection
example
Standard
Specifications
Motor constant (L1)
9999
Outline
Dimension
Drawings
92
9999 ∗5
∗5
Terminal Connection
Diagram
Terminal Specification
Explanation
Motor constant (R2)
0.001Ω (1)
Operation panel
Parameter unit
FR Configurator
91
9999 ∗5
0 to 50Ω (0 to ****) ,
Parameter
List
Motor constant (R1)
Explanations
of
Parameters
0 to 50Ω (0 to ****) ,
90
43
Protective
Functions
0 to 200%, 9999
42
42
43
Options
magnetic flux vector)
∗4
Customer
Setting
Features
80
81
82
89
9999
9999
9999
200V/400V
Refer
to
Page
Instructions
0.01kW
1
0.01A (1) ∗5
Initial
Value
Motor
Minimum
Setting
Increments
Compatibility
Setting Range
Warranty
Name
Inquiry
—
—
Parameter
PU
PU connector communication
Motor constants
Function
26
functions
Automatic restart
Function
Cumulative
User
Multi-speed setting
Output terminal function assignment
Input terminal function assignment
group
monitor clear
—
—
—
—
—
27
Parameter
162
165
Name
Automatic restart after instantaneous
power failure selection
Stall prevention operation level for
restart
Minimum
Setting
Increments
Initial
Value
Refer
to
Page
0, 1, 10, 11
1
1
37
0 to 200%
0.1%
150%
37
Setting Range
168
169
Parameter for manufacturer setting. Do not set.
170
Watt-hour meter clear
0, 10, 9999
1
9999
36
171
Operation hour meter clear
0, 9999
1
9999
36
9999, (0 to 16)
1
0
46
0 to 999, 9999
0 to 999, 9999
0 to 5, 7, 8, 10, 12,
14 to 16, 18, 24, 25,
60, 62, 65 to 67, 9999
0 to 5, 7, 8, 10, 12,
14 to 16, 18, 24, 25,
61, 62, 65 to 67, 9999
1
1
9999
9999
46
46
1
60
46
1
61
46
1
1
1
1
0
1
2
24
46
46
46
46
1
62
46
1
0
47
1
4
47
1
99
47
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
0.01Hz
1
1
1
9999
9999
9999
9999
9999
9999
9999
9999
1
0
1
32
32
32
32
32
32
32
32
40
44
47
172
User group registered display/batch
173
174
clear
User group registration
User group clear
178
STF terminal function selection
179
STR terminal function selection
180
181
182
183
RL terminal function selection
RM terminal function selection
RH terminal function selection
MRS terminal function selection
184
RES terminal function selection
190
RUN terminal function selection
191
FU terminal function selection
192
A,B,C terminal function selection
232
233
234
235
236
237
238
239
240
241
244
Multi-speed setting (speed 8)
Multi-speed setting (speed 9)
Multi-speed setting (speed 10)
Multi-speed setting (speed 11)
Multi-speed setting (speed 12)
Multi-speed setting (speed 13)
Multi-speed setting (speed 14)
Multi-speed setting (speed 15)
Soft-PWM operation selection
Analog input display unit switchover
Cooling fan operation selection
0 to 5, 7, 8, 10, 12,
14 to 16, 18, 24, 25,
62, 65 to 67, 9999
0, 1, 3, 4, 7, 8, 11 to 16,
20, 25, 26, 46, 47, 64,
80 ∗6, 81 ∗6, 90, 91, 93,
95, 96, 98, 99, 100, 101,
103, 104, 107, 108,
111 to 116, 120, 125,
126, 146, 147, 164,
180 ∗6, 181 ∗6, 190, 191,
193, 195, 196, 198, 199,
9999
0, 1, 3, 4, 7, 8, 11 to 16,
20, 25, 26, 46, 47, 64,
80 ∗6, 81 ∗6, 90, 91, 95,
96, 98, 99, 100, 101,
103, 104, 107, 108,
111 to 116, 120, 125,
126, 146, 147, 164,
180 ∗6, 181 ∗6, 190, 191,
195, 196, 198, 199,
9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0 to 400Hz, 9999
0, 1
0, 1
0, 1
Customer
Setting
0.01s
0.5s
47
0, 9999
1
9999
47
0, 1
0 to 100s,
1
0
47
247
Constant-power range slip
—
249
compensation selection
Earth (ground) fault detection at start
—
250
Stop selection
1000 to 1100s,
0.1s
9999
48
251
255
256
257
258
259
Output phase loss protection selection
Life alarm status display
Inrush current limit circuit life display
Control circuit capacitor life display
Main circuit capacitor life display
Main circuit capacitor life measuring
8888, 9999
0, 1
(0 to 15)
(0 to 100%)
(0 to 100%)
(0 to 100%)
0, 1 (2, 3, 8, 9)
1
1
1%
1%
1%
1
1
0
100%
100%
100%
0
48
48
48
48
48
48
261
Power failure stop selection
0, 1, 2
1
0
49
—
—
—
—
267
268
269
270
Terminal 4 input selection
0, 1, 2
Monitor decimal digits selection
0, 1, 9999
Parameter for manufacturer setting. Do not set.
Stop-on contact control selection
0, 1
1
1
0
9999
40
36
1
0
49
0.1%
9999
49
0 to 9, 9999
1
9999
49
0, 1
1
0
34
0.01Hz
0.1%
0.1s
0.1s
0.01Hz
0.1s
0.1%
3Hz
130%
0.3s
0.3s
6Hz
0.3s
0%
50
50
50
50
50
50
50
0.01s
0.3s
50
Stop-on
contact
control
Life diagnosis
—
276
277
Stop-on contact excitation current lowspeed multiplying factor
PWM carrier frequency at stop-on
contact
Stall prevention operation current
0 to 300%, 9999
0 to 1s
—
292
0, 1, 7, 8, 11
1
0
39, 50
—
293
Automatic acceleration/deceleration
Acceleration/deceleration separate
0 to 2
1
0
39
—
295
selection
Magnitude of frequency change setting
0.01
0
46
296
Password lock level
1
9999
51
297
Password lock/unlock
1
9999
51
—
298
1
9999
43
—
299
Frequency search gain
Rotation direction detection selection
0, 1, 9999
1
0
37
338
0, 1
1
0
51
0, 1, 2
1
0
51
0, 1, 10
1
0
41
0, 1
1
0
43
—
1
0
43
function
Password
function
Droop filter time constant
Brake sequence
287
Droop
0 to 30Hz
0 to 200%
0 to 2s
0 to 5s
0 to 30Hz
0 to 5s
0 to 100%
control
278
279
280
281
282
283
286
switchover
Brake opening frequency
Brake opening current
Brake opening current detection time
Brake operation time at start
Brake operation frequency
Brake operation time at stop
Droop gain
RS-485 communication
—
275
339
340
342
343
at restarting
Communication operation command
source
Communication speed command
source
Communication startup mode selection
Communication EEPROM write
selection
Communication error count
0, 0.01, 0.1, 1, 10
0 to 6, 99, 100 to 106,
199, 9999
(0 to 5), 1000 to 9998,
9999
0 to 32767, 9999
Features
0.01 to 10s
Connection
example
Slip compensation time constant
Standard
Specifications
246
Outline
Dimension
Drawings
47
Terminal Connection
Diagram
Terminal Specification
Explanation
9999
Operation panel
Parameter unit
FR Configurator
0.01%
Parameter
List
0 to 50%, 9999
Explanations
of
Parameters
Rated slip
Protective
Functions
245
Customer
Setting
Options
Refer
to
Page
Instructions
Initial
Value
Motor
Minimum
Setting
Increments
Compatibility
Setting Range
Warranty
Name
Inquiry
Slip
Parameter
Power
failure
stop
compensation
Function
28
constant
Output
Second motor
Function
Name
9999
40
495
Remote output selection
0, 1, 10, 11
1
0
52
496
Remote output data 1
0 to 4095
1
0
52
497
Remote output data 2
0 to 4095
1
0
52
0, 1, 2, 3
1
0
43
0 (1 to 9998)
1
0
52
0 to 9998, 9999
1
9999
52
0 to 31
1
0
52
0.1s
9999
52
0, 1
1
0
43
0, 2, 9999
1
9999
51
2 to 4, 9999
1
9999
51
502
503
504
547
548
549
550
551
Stop mode selection at communication
error
Maintenance timer
Maintenance timer alarm output set
time
USB communication station number
USB communication check time
interval
Protocol selection
NET mode operation command source
selection
PU mode operation command source
selection
Current average time
0.1 to 1.0s
0.1s
1s
52
556
Data output mask time
0 to 20s
0.1s
0s
52
0.01A
inverter
52
(0 to 65535)
(0 to 65535)
0 to 10s, 9999
0 to 3600s, 9999
0 to 200%
1
1
0.1s
0.1s
0.1%
current
0
0
9999
9999
0
36
36
33
37
53
0 to 200%
0.1%
100
53
1
20
42
0.01A (1) ∗5
9999
43
0, 1
1
1
48
0, 1, 2
1
0
53
Current average value monitor signal
output reference current
—
800
gain
Control method selection
—
859
Torque current
functions
0 to 999.8s, 9999
555
665
function
Refer
to
Page
1
—
Regeneration avoidance
Initial
Value
0, 1, 9999
563
564
571
611
653
Free
Minimum
Setting
Increments
Second applied motor
557
parameter
Setting Range
450
—
—
—
—
—
Protective
29
time monitor
Current average
Communication
USB
Maintenance
—
Parameter
872 ∗9
882
883
885
Energization time carrying-over times
Operating time carrying-over times
Holding time at a start
Acceleration time at a restart
Speed smoothing control
Regeneration avoidance frequency
Input phase loss protection selection
Regeneration avoidance operation
selection
Regeneration avoidance operation
level
Regeneration avoidance compensation
frequency limit value
Rated
0 to 500A
20, 30
0 to 500A (0 to ****) ,
9999 ∗5
300 to 800V
0 to 10Hz, 9999
0.1V
400VDC/
780VDC ∗4
53
0.01Hz
6Hz
53
886
Regeneration avoidance voltage gain
0 to 200%
0.1%
100%
53
888
Free parameter 1
0 to 9999
1
9999
53
889
Free parameter 2
0 to 9999
1
9999
53
Customer
Setting
Clear parameters
Initial value change list
PU
Terminal 2 frequency setting bias
0 to 300%
0.1%
0%
44
Terminal 2 frequency setting gain
frequency
0 to 400Hz
0.01Hz
60Hz
44
Terminal 2 frequency setting gain
0 to 300%
0.1%
100%
44
Terminal 4 frequency setting bias
frequency
0 to 400Hz
0.01Hz
0Hz
44
Terminal 4 frequency setting bias
0 to 300%
0.1%
20%
44
Terminal 4 frequency setting gain
frequency
0 to 400Hz
0.01Hz
60Hz
44
Terminal 4 frequency setting gain
0 to 300%
0.1%
100%
44
Frequency setting voltage bias
0 to 400Hz
0.01Hz
0
44
0 to 300%
0.1%
0
44
0 to 400Hz
0.01Hz
60Hz
44
0 to 300%
0.1%
100%
44
(922) ∗7∗8
C23
frequency (built-in potentiometer)
Frequency setting voltage bias (built-in
(922) ∗7∗8
C24
potentiometer)
Frequency setting voltage gain
(923) ∗7∗8
C25
frequency (built-in potentiometer)
Frequency setting voltage gain (built-in
(923) ∗7∗8
990
991
potentiometer)
PU buzzer control
PU contrast adjustment
0, 1
0 to 63
1
1
1
58
54
54
Pr.CL
Parameter clear
0, 1
1
0
54
ALLC
All parameter clear
0, 1
1
0
54
Er.CL
Faults history clear
0, 1
1
0
54
Pr.CH
Initial value change list
—
—
—
54
∗1
Differ according to capacities.
6%: 0.75K(SC) or less
4%: 1.5K(SC) to 3.7K(SC)
3%: 5.5K(SC), 7.5K(SC)
2%: 11K(SC), 15K(SC)
∗2
Differ according to capacities.
5s: 3.7K(SC) or less
10s: 5.5K(SC), 7.5K(SC)
15s: 11K(SC), 15K(SC)
∗3
Differ according to capacities.
6%: 0.1K(SC), 0.2K(SC)
4%: 0.4K(SC) to 7.5K(SC)
2%: 11K(SC), 15K(SC)
∗4
∗5
The initial value differs according to the voltage class. (100V, 200V class/400V class)
The range differs according to the Pr. 71 setting.
∗6
Theses parameters can be set only in the safety stop function model.
∗7
Set this parameter when calibrating the operation panel built-in potentiometer for the FR-E500 series operation panel (PA02) connected with cable.
∗8
The parameter number in parentheses is the one for use with the operation panel (PA02) for the FR-E500 series or parameter unit (FR-PU04/FR-PU07).
∗9
Available only for the three-phase power input model.
Features
44
Connection
example
0Hz
Standard
Specifications
0.01Hz
Outline
Dimension
Drawings
0 to 400Hz
Terminal Connection
Diagram
Terminal Specification
Explanation
(905) ∗8
C22
frequency
Operation panel
Parameter unit
FR Configurator
(905) ∗8
C7
Terminal 2 frequency setting bias
Parameter
List
(904) ∗8
126
53
Explanations
of
Parameters
(904) ∗8
C6
—
Protective
Functions
(903) ∗8
C5
—
—
Options
(903) ∗8
C4
FM terminal calibration
Customer
Setting
Instructions
Calibration parameters
(902) ∗8
125
Refer
to
Page
Motor
(902) ∗8
C3
Initial
Value
Setting Range
Compatibility
C0
(900) ∗8
C2
Minimum
Setting
Increments
Name
Warranty
Parameter
Inquiry
Function
30
Explanations of Parameters
The abbreviations in the explanations below indicate
V/F
...V/F control,
Pr. 0, 46
Pr. 0 Torque boost
Base frequency, voltage
V/F
Pr. 46 Second torque boost
You can compensate for a voltage drop in the low-frequency
region to improve motor torque reduction in the low-speed region.
z Motor torque in the low-frequency range can be adjusted to the load
to increase the starting motor torque.
z Two kinds of starting torque boost can be switched by using RT
signal.
z This function is valid for V/F control only.
Output voltage
...advanced magnetic flux vector control,
Pr. 3, 19, 47
Manual torque boost
100%
Pr. 0 Initial Value
Pr. 0 Setting range
Pr. 46
0
Base frequency
Output frequency (Hz)
When Using
the Mitsubishi
Constant
Torque Motor
0.1K to
6%
Å
0.75K
1.5K to 3.7K 4%
Å
5.5K, 7.5K 3%
2%∗
11K, 15K 2%
Å
∗ If the Pr. 71 initial value is
changed to the setting for use
with a constant-torque motor,
the Pr. 0 setting changes to the
corresponding value in the
above table.
Pr. 1, 2, 18
Maximum/minimum frequency
Pr. 1 Maximum frequency
Pr. 18 High speed maximum frequency
Pr. 2 Minimum frequency
Motor speed can be limited.
z Clamp the upper and lower limits of the output frequency.
z To perform operation above 120Hz, set the maximum output
frequency in Pr. 18.
(When Pr. 18 is set, Pr. 1 is automatically changed to the frequency
set in Pr. 18. Also, when Pr. 1 is set, Pr. 18 is automatically changed
to the frequency set in Pr. 1.)
Output frequency
(Hz)
Clamped at the
maximum frequency
Pr. 1
Pr. 18
Frequency setting
Pr. 2
0
(4mA)
Clamped at the
minimum frequency
31
AD MFVC
...general-purpose magnetic flux vector control. (Parameters without any indication are valid for all control)
5, 10V
(20mA)
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Pr. 3 Base frequency
Pr. 47 Second V/F (base frequency)
V/F
Pr. 19 Base frequency voltage
z Used to adjust the inverter outputs (voltage, frequency) to the motor
rating.
z When running the standard motor, generally set the rated frequency
of the motor in Pr. 3 Base frequency. When running the motor using
electronic bypass operation, set Pr. 3 to the same value as the power
supply frequency.
z When you want to change the base frequency when switching two
types of motors with one inverter, use the Pr. 47 Second V/F (base
frequency).
z Use Pr. 19 Base frequency voltage to set the base voltage (e.g. rated
motor voltage).
z This function is valid for V/F control only.
Output voltage (V)
GP MFVC
Pr. 19
Output frequency
(Hz)
Pr. 3
Pr. 47
Pr. 4 to 6, 24 to 27, 232 to 239
Pr. 7, 8, 20, 21, 44, 45, 147
smaller value for a faster speed increase/decrease.
Can be used to change the preset speed in the parameter with the
contact signals.
Any speed can be selected by merely turning on-off the contact
signals (RH, RM, RL, REX signals).
z Operation is performed at the frequency set in Pr. 4 when the RH
signal turns on, Pr. 5 when the RM signal turns on, and Pr. 6 when
the RL signal turns on.
z Use Pr. 7 Acceleration time to set the acceleration time to reach Pr. 20
Acceleration/deceleration reference frequency from 0Hz
z Use Pr. 8 Deceleration time to set the deceleration time taken to
reach 0Hz from Pr. 20 Acceleration/deceleration reference frequency.
z When RT signal is off, automatic switching of the acceleration/
deceleration time is available with Pr. 147.
Pr. 21
Pr. 20
(60Hz)
Output
frequency (Hz)
Speed 1
(High speed)
Output frequency (Hz)
Running
frequency
Speed 2
(Middle speed)
Speed 3
(Low speed)
Time
Time
360s
ON
RM
Set
frequency
Pr. 147
setting
Time
Pr. 7 Pr. 44
Speed 10
Speed 5
Acceleration time
Speed 11
Speed 6
Pr. 44
Pr. 8
(Pr. 45)
Deceleration time
Speed 12
Speed 9
Speed 8
Speed 14
Speed 7
ON
ON
Speed 15
ON ON ON ON
ON ON
ON ON
ON ON
ON
ON
REX
ON
ON
Time
ON ON
ON
ON
ON ON ON ON ON ON ON ON
*1
∗1 When "9999" is set in Pr. 232 Multi-speed setting (speed 8), operation is
performed at frequency set in Pr. 6 when RH, RM and RL are turned
OFF and REX is turned ON.
Pr. 9, 51
Motor protection from overheat
(electronic thermal relay function)
Pr. 9 Electronic thermal O/L relay
Pr. 51 Second electronic thermal O/L relay
Options
Speed 4
Protective
Functions
Speed 13
Set the current of the electronic thermal relay function to protect
the motor from overheat. This feature provides the optimum
protective
characteristics,
including
reduced
motor cooling
Instructions
Output frequency (Hz)
RL
Parameter
List
Output frequency
(Hz)
Explanations
of
Parameters
RL
RM
Increments
and setting
range of
acceleration/
deceleration
time setting
can be
changed.
ON
z Frequency from 4 speed to 15 speed can be set according to the
combination of the RH, RM, RL and REX signals. Set the running
frequencies in Pr. 24 to Pr. 27, Pr. 232 to Pr. 239 (In the initial value
setting, speed 4 to speed 15 are unavailable)
RH
Increments:
0.1s
Range:
value) 0 to 3600s
Increments:
0.01s
1
Range: 0 to
0
ON
RH
Description
Setting
(initial
Acceleration time Deceleration time
Pr. 7, Pr. 44
Pr. 8, Pr. 45
Connection
example
Set a larger value for a slower speed increase/decrease or a
Standard
Specifications
Used to set motor acceleration/deceleration time.
Outline
Dimension
Drawings
Pr. 7 Acceleration time
Pr. 8 Deceleration time
Pr. 20 Acceleration/deceleration reference frequency
Pr. 21 Acceleration/deceleration time increments
Pr. 44 Second acceleration/deceleration time Pr. 45 Second deceleration time
Pr. 147 Acceleration/deceleration time switching frequency
Features
Acceleration/deceleration time setting
Pr. 5Multi-speed setting (middle speed)
Pr. 24 Multi-speed setting (speed 4)
Pr. 26 Multi-speed setting (speed 6)
Pr. 232 Multi-speed setting (speed 8)
Pr. 234 Multi-speed setting (speed 10)
Pr. 236 Multi-speed setting (speed 12)
Pr. 238 Multi-speed setting (speed 14)
Terminal Connection
Diagram
Terminal Specification
Explanation
Pr. 4 Multi-speed setting (high speed)
Pr. 6 Multi-speed setting (low speed)
Pr. 25 Multi-speed setting (speed 5)
Pr. 27 Multi-speed setting (speed 7)
Pr. 233 Multi-speed setting (speed 9)
Pr. 235 Multi-speed setting (speed 11)
Pr. 237 Multi-speed setting (speed 13)
Pr. 239 Multi-speed setting (speed 15)
Operation panel
Parameter unit
FR Configurator
Multi-speed setting operation
capability, at low speed.
Inquiry
Warranty
Compatibility
Motor
z This function detects the overload (overheat) of the motor, stops the
operation of the inverter's output transistor, and stops the output.
z Set the rated current [A] of the motor in Pr. 9.
(If the motor has both 50Hz and 60Hz rating and the Pr. 3 Base
frequency is set to 60Hz, set the 1.1 times of the 60Hz rated motor
current.)
z Set "0" in Pr. 9 to make the electronic thermal relay function invalid
when using a motor with an external thermal relay, etc. (Note that
the output transistor protection of the inverter functions (E.THT).)
z When using a Mitsubishi constant-torque motor
1) Set any of "1, 13 to 16, 50, 53, 54" in Pr. 71. (This provides a
100% continuous torque characteristic in the low-speed range.)
2) Set the rated current of the motor in Pr. 9.
z When the RT signal is on, thermal protection is provided based on
the Pr. 51 setting.
Use this function when running two motors of different rated currents
individually by a single inverter. (When running two motors together,
use external thermal relays.)
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
32
Pr. 10 to 12
Pr. 14
V/F pattern matching applications
the stop timing and braking torque.
When 0 is set in Pr. 11 or Pr. 12, DC injection brake is not
Output frequency (Hz)
performed.
DC injection
brake voltage
Pr. 12 Initial
Value
Pr. 10
Operation frequency
Time
Pr. 12
Operation
voltage
Time
Pr. 11 Operation time
0.1K, 0.2K
0.4K to 3.7K
5.5K, 7.5K
11K, 15K
6%
4%
4%
2%
When Using the
Mitsubishi
Constant Torque
Motor
Å
Å
2%∗
Å
∗ If the Pr. 71 initial value is
changed to the setting for use
with a constant-torque motor, the
Pr. 12 setting changes to the
corresponding value in the above
table.
Pr. 13, 571
Starting frequency
Pr. 13 Starting frequency
Pr. 571 Holding time at a start
You can set the starting frequency and hold the set starting
frequency for a certain period of time.
Set these functions when you need the staring torque or want
smooth motor drive at a start.
can
select
the
optimum
output
characteristic
This function is valid for V/F control only.
For constant torque load
(initial value)
For variable torque load
Pr. 14 = 0
Pr. 14 = 1
100%
100%
Pr. 3 Base frequency
Output frequency (Hz)
Pr. 3 Base frequency
Output frequency (Hz)
For constant torque vertical load
For constant torque lift load
Pr. 14 = 2
Pr. 14 = 3
For vertical lift loads
At forward rotation boost...Pr. 0 (Pr. 46)
setting
At reverse rotation boost...0%
For vertical lift loads
At forward rotation boost...0%
At reverse rotation boost...Pr. 0 (Pr. 46)
setting
100%
Pr. 0
Pr. 46
Forward
rotation
Reverse
rotation
100%
Reverse
rotation
Pr. 0
Pr. 46
Base frequency
Output frequency (Hz)
Forward
rotation
Base frequency
Output frequency (Hz)
Pr. 15, 16
Pr. 15 Jog frequency
60
Setting
range
Pr. 13
0
Time
Pr. 571 setting time
ON
Pr. 16 Jog acceleration/deceleration time
You can set the frequency and acceleration/deceleration time for
jog operation. Jog operation can be performed from either of the
external or the PU operation mode.
Can be used for conveyor positioning, test operation, etc.
Output frequency (Hz)
Pr. 20
Pr. 15 Jog frequency
setting range
Forward
rotation
Reverse
rotation
Pr. 16
JOG signal
Forward rotation STF
Reverse rotation STR
33
(V/F
characteristic) for the application and load characteristics.
Jog operation
Output
frequency (Hz)
STF
You
Output voltage
The DC injection brake can be operated at a motor stop to adjust
V/F
Pr. 14 Load pattern selection
Output voltage
Pr. 11 DC injection brake operation time
Output voltage
Pr. 10 DC injection brake operation frequency
Pr. 12 DC injection brake operation voltage
Output voltage
DC injection brake
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
ON
ON
ON
Time
Pr. 22, 23, 48, 66, 156, 157, 277
MRS
SD
MRS
SD
Time
ON
ON
Pr. 18
Pr. 19
Pr. 20, 21
Refer to the section about Pr. 1.
Refer to the section about Pr. 3.
Refer to the section about Pr. 7.
z Stall prevention
If the output current exceeds the stall prevention operation level, the
output frequency of the inverter is automatically varied to reduce the
output current.
z Fast-response current limit
If the current exceeds the limit value, the output of the inverter is
shut off to prevent an overcurrent.
z Set in Pr. 22 the percentage of the output current to the rated inverter
current at which stall prevention operation will be performed.
Normally set this parameter to 150% (initial value).
z During high-speed operation above the rated motor frequency,
acceleration may not be made because the motor current does not
increase. If operation is performed in a high frequency range, the
current at motor lockup becomes smaller than the rated output
current of the inverter, and the protective function (OL) is not
executed even if the motor is at a stop.
To improve the operating characteristics of the motor in this case,
the stall prevention level can be reduced in the high frequency
range. This function is effective for performing operation up to the
high-speed range on a centrifugal separator etc. Normally, set 60Hz
in Pr. 66 and 100% in Pr. 23.
z By setting "9999" (initial value) in Pr. 23 Stall prevention operation level
compensation factor at double speed, the stall prevention operation
level is constant at the Pr. 22 setting up to 400Hz.
Features
Connection
example
Standard
Specifications
Inverter
Output stop
This function monitors the output current and automatically
changes the output frequency to prevent the inverter from coming
to trips stop due to overcurrent, overvoltage, etc. It can also limit
stall prevention and fast-response current limit operation during
acceleration/deceleration, driving or regeneration.
In addition, torque limit which limits the output torque to the
predetermined value can be selected.
Outline
Dimension
Drawings
Output stop
Pr. 156 Stall prevention operation selection
Pr. 277 Stall prevention operation current switchover
Terminal Connection
Diagram
Terminal Specification
Explanation
Setting value "2"
Inverter
Pr. 48 Second stall prevention operation current
Operation panel
Parameter unit
FR Configurator
Setting value "0" (initial value)
The motor coasts to stop
STF (STR)
signal
Pr. 23 Stall prevention operation level
compensation factor at double speed
Pr. 66 Stall prevention operation
reduction starting frequency
Pr. 157 OL signal output timer
Pr. 22 Stall prevention operation level
The inverter output can be shut off by the MRS signal. Also, logic
for the MRS signal can be selected.
When Pr. 17 is set to "4", the MRS signal from external terminal
(output stop) can be changed to the normally closed (NC contact)
input, and the MRS signal from communication can be changed to
the normally open (NO contact) input.
MRS signal
Stall prevention operation
Parameter
List
Pr. 17 MRS input selection
Explanations
of
Parameters
Logic selection of output stop signal (MRS)
Protective
Functions
Pr. 17
Pr. 22
Options
Stall prevention operation
level (%)
When Pr. 23 = 9999
When Pr. 23 = "9999", the stall prevention
operation level is as set in Pr. 22 to 400Hz.
Pr. 66
Instructions
Stall prevention operation level
as set in Pr. 23
400Hz
Output frequency (Hz)
Refer to the section about Pr. 4.
Inquiry
Warranty
Compatibility
Pr. 24 to 27
Motor
z Stall prevention operation and fast response current limit function
can be restricted according to the operation condition using Pr. 156.
z When Pr. 277 = "1" , torque limit can be set. Torque limit level can be
set using Pr. 22 .
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
34
Pr. 31 to 36
Acceleration/deceleration pattern
Pr. 29 Acceleration/deceleration pattern selection
You can set the acceleration/deceleration pattern suitable for
application.
Output frequency (Hz)
Setting value "0"
[Linear acceleration/
deceleration]
Output frequency (Hz)
Time
Setting value "1"
[S-pattern acceleration/
deceleration A]
fb
Time
Output frequency (Hz)
Set frequency (Hz)
Setting value "2"
[S-pattern acceleration/
deceleration B]
f1
f2
z Linear acceleration/deceleration (setting
"0", initial value)
For the inverter operation, the output
frequency is made to change linearly (linear
acceleration/deceleration) to prevent the
motor and inverter from excessive stress to
reach the set frequency during acceleration,
deceleration, etc. when frequency changes.
z S-pattern acceleration/deceleration A
(setting "1")
For machine tool spindle applications, etc.
Used when acceleration/deceleration
must be made in a short time to a highspeed range of not lower than Pr. 3 Base
frequency (fb).
z S-pattern acceleration/deceleration B
(setting "2")
For prevention of load shifting in
conveyor and other applications.
Since acceleration/deceleration is always
made in an S shape from current
frequency (f2) to target frequency (f1),
this function eases shock produced at
acceleration/deceleration and is effective
for load collapse prevention, etc.
Pr. 31 Frequency jump 1A
Pr. 33 Frequency jump 2A
Pr. 35 Frequency jump 3A
When it is desired to avoid
resonance attributable to
the natural frequency of a
mechanical system, these
parameters allow
resonant frequencies to
be jumped.
Pr. 32 Frequency jump 1B
Pr. 34 Frequency jump 2B
Pr. 36 Frequency jump 3B
Pr. 36
Pr. 35
Frequency jump
Pr. 34
Pr. 33
Pr. 32
Pr. 31
z Up to three areas may be set, with the jump frequencies set to either
the top or bottom point of each area.
z The settings of frequency jumps 1A, 2A, 3A are jump points, and
operation is performed at these frequencies in the jump areas.
z Frequency jump is not performed if the initial value is set to "9999".
z During acceleration/deceleration, the running frequency within the
set area is valid.
Pr. 37
Speed display
Pr. 37 Speed display
The monitor display and frequency setting of the PU (FR-PU04/
FR-PU07) can be changed to the machine speed.
z To display the machine speed, set in Pr. 37 the machine speed for
60Hz operation.
Time
Pr. 37
Setting
Pr. 30, 70
Selection of regeneration unit
Pr. 30 Regenerative function selection
Pr. 70 Special regenerative brake duty
z When making frequent starts/stops, use the optional brake resistor
to increase the regeneration capability. (0.4K or more)
z Use a power regeneration common converter (FR-CV) for continuous
operation in regeneration status.
Use a high efficiency converter (FR-HC) for harmonic suppression
and power factor improvement.
Pr. 30
Pr. 70
Set Value Set Value
0
(initial
value)
1
∗1
6%
10/6% ∗2
Regeneration Unit
Brake resistor (MRS type, MYS type)
Brake unit (FR-BU2)
Power regeneration common converter (FR-CV)
High power factor converter (FR-HC)
Brake resistor (MYS type)
(When using at 100% torque 6%ED ) ∗3
High-duty brake resistor (FR-ABR)
High power factor converter (FR-HC)
(when an automatic restart after
instantaneous power failure is selected)
∗1 The brake duty varies according to the inverter capacity.
∗2 7.5K or less/11K or more
∗3 Available only for the FR-E720-3.7K
2
35
Avoid mechanical resonance points
(frequency jump)
Set frequency (Hz)
Pr. 29
—
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Output
Set
Frequency
Frequency Frequency
Setting
Monitor
Monitor
Parameter
Setting
0 (initial
Hz
Hz
Hz
value)
Hz
0.01 to
Machine
Machine
Machine
9998
speed ∗1
speed ∗1
speed ∗1
∗1 Machine speed conversion formula..........Pr.37 x frequency/60Hz
∗2 Hz is displayed in 0.01Hz increments and machine speed is in 0.001.
Pr. 52, 54, 170, 171, 268, 563, 564
Monitor
Detection of output frequency (SU, FU signal)
Pr. 41 Up-to-frequency sensitivity
Pr. 43 Output frequency detection for reverse
rotation
Pr. 42 Output frequency detection
The inverter output frequency is detected and output at the output
signals.
Output frequency
(Hz)
z The Pr. 41 value can be adjusted within the range 0% ±100% on the
assumption that the set frequency is 100%.
z This parameter can be used to ensure that the running frequency
has been reached to provide the operation start signal etc. for
related equipment.
SU
Set frequency
Adjustment
range Pr.41
Time
OFF
ON
OFF
Output frequency (Hz)
z When the output frequency rises to or above the Pr. 42 setting, the
output frequency detection signal (FU) is output. This function can
be used for electromagnetic brake operation, open signal, etc.
z When the detection frequency is set in Pr. 43, frequency detection
used exclusively for reverse rotation can also be set. This function is
effective for switching the timing of electromagnetic brake operation
between forward rotation (rise) and reverse rotation (fall) during
vertical lift operation, etc.
Forward
rotation
Time
Pr.43
Reverse
rotation
Output signal OFF
FU
Pr. 44, 45
Pr. 46
Pr. 47
Pr. 48
Pr. 51
Pr.42
ON
OFF
ON
OFF
Refer to the section about Pr. 7.
Refer to the section about Pr. 0.
Refer to the section about Pr. 3.
Refer to the section about Pr. 22.
Refer to the section about Pr. 9.
Pr. 52 Setting Pr. 54
(FM)
Operation PU Main Set
Panel LED Monitor Value
Output frequency 0.01Hz
0.01A
Output current
0/100
0/100
1
2
Output voltage
0.1V
0/100
3
—
0/100
—
Fault or alarm
indication
Frequency
setting value
Full-scale
Value
Pr. 55
Pr. 56
100V, 200V class:
400V
400V class: 800V
—
0.01Hz
5
∗1
5
Motor torque ∗2
0.1%
7
∗1
7
Converter
output voltage
0.1V
8
∗1
8
0.1%
9
∗1
9
0.1%
10
∗1
10
Electronic thermal
relay function
operation level
0.01A
11
∗1
11
Pr. 56
0.1V
12
∗1
12
0.01kW
14
∗1
14
—
∗1
—
—
—
∗1
—
—
20
—
—
—
21
—
23
—
—
24
24
Regenerative
brake duty
Electronic
thermal O/L
relay load factor
Output current
peak value
Converter
output voltage
peak value
Output power
Input terminal
—
status
Output terminal
—
status
Cumulative
1h
energization
time ∗3
Reference
—
voltage output
Actual operation
1h
time ∗3, ∗4
Motor load
0.1%
factor
Cumulative
0.01kWh
*5
power
0.1%
PID set point
PID measured
0.1%
value
0.1%
PID deviation
Inverter I/O
—
terminal
monitor
Option input
—
terminal status
Option output
—
terminal status
Pr. 55
Rated torque of the
applied motor × 2
100V, 200V class:
400V
400V class: 800V
Brake duty set in Pr.
30 and Pr. 70
100V, 200V class:
400V
400V class: 800V
Rated inverter
power × 2
—
52
52
100%
53
53
100%
54
—
—
—
—
—
56
—
—
—
57
—
—
61
61
Inverter thermal
load factor
0.1%
62
62
Features
—
55
0.1%
Connection
example
200%
25
Motor thermal
load factor
Standard
Specifications
Pr. 41 to 43
Unit
Outline
Dimension
Drawings
Types of
Terminal Connection
Diagram
Terminal Specification
Explanation
The monitor to be displayed on the main screen of the control
panel and parameter unit (FR-PU04/FR-PU07) can be selected.
Operation panel
Parameter unit
FR Configurator
Reverse rotation
Parameter
List
1
Explanations
of
Parameters
Forward rotation
Protective
Functions
Description
0
Pr. 54 FM terminal function selection
Pr. 171 Operation hour meter clear
Pr. 563 Energization time carrying-over times
Options
Pr. 40 Setting
Pr. 52 DU/PU main display data selection
Pr. 170 Watt-hour meter clear
Pr. 268 Monitor decimal digits selection
Pr. 564 Operating time carrying-over times
Instructions
z Used to choose the direction of rotation by operating the RUN key of
the operation panel.
Change of DU/PU monitor descriptions
Cumulative monitor clear
Motor
Pr. 40 RUN key rotation direction selection
Compatibility
RUN key rotation direction selection
—
Thermal relay
operation level
(100%)
Thermal relay
operation level
(100%)
Warranty
Pr. 40
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Inquiry
∗1 Selected by the parameter unit (FR-PU04/FR-PU07)
∗2 The motor torque display remains "0" under V/F control.
∗3 The cumulative energization time and actual operation time are
accumulated from 0 to 65535 hours, then cleared, and accumulated
again from 0. When the operation panel is used, the time is displayed up
to 65.53 (65530h) on the assumption that 1h = 0.001, and thereafter, it is
added up from 0.
∗4 The actual operation time is not added up if the cumulative operation
time before power supply-off is less than 1h.
∗5 When using the parameter unit (FR-PU04/FR-PU07), "kW" is displayed.
36
y Writing "0" in Pr. 170 clears the cumulative power monitor.
y You can check the numbers of cumulative energization time monitor
exceeded 65535h with Pr. 563 and the numbers of actual operation
time monitor exceeded 65535h with Pr. 564.
y Writing "0" in Pr. 171 clears the actual operation time monitor.
Description
Setting
9999
0
1
Automatic restart operation after
instantaneous power failure/flying start
Pr. 30 Regenerative function selection
Pr. 268
(initial value)
Pr. 30, 57, 58, 162, 165, 299, 611
Pr. 58 Restart cushion time
Pr. 165 Stall prevention operation level for restart
No function
Pr. 611 Acceleration time at a restart
For the first or second decimal places (0.1 increments or
0.01 increments) of the monitor, numbers in the first
decimal place and smaller are rounded to display an
integral value (1 increments).
The monitor value smaller than 0.99 is displayed as 0.
When 2 decimal places (0.01 increments) are monitored,
the 0.01 decimal place is dropped and the monitor
displays the first decimal place (0.1 increments).
When the monitor display digit is originally in 1
increments, it is displayed unchanged in 1 increments.
y When Pr. 52 is set to "100", the set frequency monitor is displayed
during a stop and the output frequency monitor is displayed during
operation. (LED of Hz flickers during stop and is lit during operation.)
You can restart the inverter without stopping the motor in the
following cases:
y When power comes back on after an instantaneous power failure
y When motor is coasting at start
Pr.
Setting
Number
Range
0 (initial value),
30
0
running/stop
Output
Output
frequency
frequency
Output
∗
frequency
Output current
Output voltage
Output voltage
0.1 to 5s
9999
(initial value)
58
0 to 60s
0
Fault or alarm indication
indication
When MRS (X10) turns ON then OFF
The motor starts at the starting frequency
When MRS (X10) turns ON then OFF
Automatic restart operation
162
∗ The set frequency displayed indicates the frequency to be output when
the start command is on.
Different from the frequency setting displayed when Pr. 52 = "5", the value
based on maximum/minimum frequency and frequency jump is displayed.
2.2K to 7.5K ........ 2s,
11K or more ........ 3s
The above times are coasting time.
57
running
Set frequency
Output current
Fault or alarm
0
During
During stop
Description
1.5K or less ......... 1s,
100
During
1
2
Pr. 52
1 (initial value)
Set the waiting time for inverter-triggered
restart after an instantaneous power failure.
No restart
Set a voltage starting time at restart.
With frequency search
Without frequency search
(reduced voltage system)
10
Frequency search at every start
11
Reduced voltage system at every start
Considers the rated inverter current as
165
0 to 200%
100% and sets the stall prevention
operation level during restart operation.
Pr. 55, 56
0 (initial value)
Reference of the monitor output from
terminal FM
Pr. 55 Frequency monitoring reference
1
9999
Pr. 56 Current monitoring reference
Monitor*
Reference Parameter
Initial Value
Frequency
Pr. 55
60Hz
Current
Pr. 56
Rated inverter current
* Refer to the section about Pr. 52 for monitor names.
Pulse speed(terminal FM)
2400
pulse/s
1440
pulse/s
Output frequency
reference
Output current
reference
Pr.55
400Hz
Pr.56
500A
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Without rotation direction detection
With rotation direction detection
When Pr. 78 = 0, the rotation direction is
299
detected.
When Pr. 78 = 1, 2, the rotation direction is
not detected.
Set the full-scale value of the monitor value output from terminal FM.
37
Pr. 57 Restart coasting time
Pr. 162 Automatic restart after
instantaneous power failure selection
Pr. 299 Rotation direction detection
selection at restarting
Acceleration time to reach Pr. 20
0 to 3600s
611
Acceleration/deceleration reference frequency
at a restart.
9999
(initial value)
Acceleration time for restart is the normal
acceleration time (e.g. Pr. 7).
Coasting time
Pr. 57 setting
Restart cushion time
(Pr. 58 setting)
* The output shut off timing differs according to the load condition.
z When "0" or "10" is set in Pr. 162, the inverter smoothly starts after
detecting the motor speed upon power restoration. (The motor
capacity should be equal to or one rank lower than the inverter
capacity)
When using the frequency search, perform offline auto tuning.
Also be noted that there is a wiring length limit. (Refer to page 69)
z Even when the motor is rotating in the opposite direction, the
inverter can be restarted smoothly as the direction of rotation is
detected. (You can select whether to make rotation direction
detection or not with Pr. 299 Rotation direction detection selection at
restarting.)
storage function
Multi-speed setting
—
1
Remote setting
With
2
Remote setting
Not used
3
Remote setting
Not used
(Turning off STF/STR clears
remotely set frequency)
When Pr. 59 = 1
When Pr. 59 = 1, 2
When Pr. 59 = 3
When Pr. 59 = 2, 3
*
0
Acceleration
(RH)
Deceleration
(RM)
0Hz
ON
Time
ON
ON
ON
ON
Power supply
ON
ON
ON
ON
ON
∗ External running frequency (other than multi-speed) or PU running
frequency
Pr. 60
Motor speed N
(r/min)
Inverter output
frequency f (Hz)
Energy saving control selection
*
Coasting time
Speed
+
(Pr. 57 )
detection time
* The output shut off timing differs
according to the load condition.
V/F
Pr. 60 Energy saving control selection
Without a fine parameter setting, the inverter automatically
Inverter output
voltage E (V)
Restart cushion time
(Pr. 58 setting)
Features
Explanations
of
Parameters
Instantaneous (power failure) time
Power supply
(R/L1, S/L2, T/L3)
Connection
example
ON
Clear (RL)
Forward rotation
(STF)
Standard
Specifications
Frequency setting
function
0 (initial value)
Output frequency (Hz)
Inverter output
voltage E (V)
RH, RM, RL signal
Outline
Dimension
Drawings
Description
Pr. 59 Setting
Terminal Connection
Diagram
Terminal Specification
Explanation
*
performs energy saving operation.
This function is optimum for fan and pump applications
This function is valid for V/F control only.
Acceleration time
at a restart
(Pr. 611 setting)
z Restart operation after turning MRS (X10) signal ON then OFF can
be selected using Pr. 30. Set when restart operation after
instantaneous power failure is selected while using the high power
factor converter (FR-HC).
Pr. 60 Setting
0 (initial value)
Description
Normal operation mode
Instructions
Inverter output
frequency f (Hz)
z If the operation panel is located away from the enclosure, you can
use contact signals to perform continuous variable-speed operation,
without using analog signals.
z By merely setting this parameter, you can use the acceleration,
deceleration and setting clear functions of the motorized speed
setter (FR-FK).
Operation panel
Parameter unit
FR Configurator
Motor speed N
(r/min)
Pr. 59 Remote function selection
Parameter
List
Power supply
(R/L1, S/L2, T/L3)
Remote setting function
Protective
Functions
Instantaneous (power failure) time
Pr. 59
Options
z When Pr. 162 = "1" (initial value) or "11", automatic restart operation
is performed in a reduced voltage system, where the voltage is
gradually risen with the output frequency unchanged from prior to an
instantaneous power failure independently of the coasting speed of
the motor.
Optimum excitation control mode
The optimum excitation control mode is a control
9
system which controls excitation current to improve the
motor efficiency to maximum and determines output
Motor
voltage as an energy saving system. ∗
Inquiry
Warranty
Compatibility
∗ Output current may slightly increase, since output voltage is controlled.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
38
Pr. 61 to 63, 292, 293
Pr. 65, 67 to 69
Automatic acceleration/deceleration
Pr. 61 Reference current
Pr. 63 Reference value at deceleration
Pr. 293 Acceleration/deceleration separate selection
Retry function at fault occurrence
Pr. 62 Reference value at acceleration
Pr. 292 Automatic acceleration/deceleration
Pr. 67 Number of retries at fault occurrence
Pr. 69 Retry count display erase
If a fault occurs, the inverter resets itself automatically to restart.
The inverter automatically sets appropriate parameters for
You can also select the fault description for a retry.
operation.
When you have selected automatic restart after instantaneous
z The inverter operates in the same conditions as when appropriate
values are set in each parameter even if acceleration/deceleration
time and V/F pattern are not set. This operation mode is useful when
you just want to operate, etc. without fine parameter setting.
z If the automatic acceleration/deceleration has been selected,
inputting the jog or RT (second function selection) signal during an
inverter stop will switch to the normal operation and give priority to
JOG operation or second function selection.
After automatic acceleration/deceleration operation has been
started, none of JOG signal and RT signal are accepted.
Automatic
Pr. 292
Operation
Setting
Setting
Parameter
0
(initial value
—
—
normal mode)
1
(shortest
acceleration/
deceleration
Without brake
resistor and
brake unit
(shortest
deceleration
to accelerate/
for the shortest time.
11
acceleration/
Set when you want
decelerate the motor
mode)
Pr. 7, Pr. 8
(stall prevention
With brake
resistor and
brake unit
operation level
7
(brake sequence
mode 1)
With
mechanical
brake opening
completion
signal input
8
(brake sequence
mode 2)
Without
mechanical
brake opening
completion
signal input
0 (initial value)
a power failure.
z Use Pr. 65 to select the fault to be activated for retries.
"z" indicates the alarms selected for retry.
Fault Display
for Retry
0
1
E.OC1
E.OC2
E.OC3
E.OV1
E.OV2
E.OV3
E.THM
E.THT
E. BE
E. GF
E.OHT
E.OLT
E.OP1
E. PE
E.MB4
E.MB5
E.MB6
E.MB7
E.USB
E.ILF
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
Pr. 65 Setting
2
3
z
z
z
z
z
z
z
z
z
4
5
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
z Set the number of retries at fault occurrence in Pr. 67.
Pr. 67 Setting
0 (initial value)
Operation mode in
which a mechanical
1 to 10
brake operation
timing signal for
—
vertical lift
applications is
output.
z Use Pr. 61 to Pr. 63 to change the reference current for the shortest
acceleration/deceleration mode and optimum acceleration/
deceleration mode.
z Calculation of acceleration/deceleration can be performed
individually.
This function is made valid in the shortest acceleration/deceleration
mode.
Pr. 293 Setting
power failure (Pr. 57 Restart coasting time ≠ 9999), restart operation
is performed at the retry operation time which is the same of that of
150%)
mode)
39
Pr. 65 Retry selection
Pr. 68 Retry waiting time
Description
Both acceleration/deceleration time is calculated.
1
Only acceleration time is calculated.
2
Only deceleration time is calculated.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
101 to 110
Description
No retry function
Set the number of retries at fault occurrence.
A fault output is not provided during retry operation.
Set the number of retries at fault occurrence.
(The setting value of minus 100 is the number of
retries.)
A fault output is provided during retry operation.
z Use Pr. 68 to set the waiting time from when the inverter trips until a
retry is made in the range 0.1 to 10s.
z Reading the Pr. 69 value provides the cumulative number of
successful restart times made by retry. (Use setting value "0" to
clear.)
Refer to the section about Pr. 22.
Pr. 66
Refer to the section about Pr. 65.
Pr. 67 to 69
Refer to the section about Pr. 30.
Pr. 70
Pr. 71, 450
Pr. 72, 240
appropriate for the motor.
Setting is required to use a constant-torque motor. Thermal
characteristic of the electronic thermal relay function suitable for
the motor is set.
—
3
13
—
—
23
—
43
—
53
—
4
14
—
—
24
—
44
—
54
—
5
15
6
16
—
—
—
—
—
9999
∗1
∗2
∗3
∗4
Constant-torque
Mitsubishi standard
motor SF-JR4P
(1.5kW or less)
Mitsubishi high
efficiency SF-HR
Mitsubishi constanttorque SF-HRCA
Standard
Constant-torque
Mitsubishi standard
motor SF-JR4P
(1.5kW or less)
Mitsubishi high
efficiency SF-HR
Mitsubishi constanttorque SF-HRCA
Standard∗3
Constant-torque ∗3
Standard ∗4
Constant-torque ∗4
{
{
{ ∗2
{
{
{ ∗1
{ ∗2
{
{
Auto tuning
data can be
read, changed,
and set.
Pr. 73 Analog input selection
Pr. 267 Terminal 4 input selection
z You can select the function that switches between forward rotation
and reverse rotation according to the analog input terminal
specifications and analog input level.
z Either voltage input (0 to 5V, 0 to 10V) or current input (4 to 20mA)
can be selected for terminals 4 used for analog input.
Set the voltage/current input switch in the "V" position to select
voltage input (0 to 5V/0 to10V) and "I" position to select current input
(4 to 20mA), and change the parameter setting (Pr. 267).
(
indicates main speed setting)
{
Pr. 73
Setting
Terminal 2
Input
{ ∗1
0
1
0 to 10V
{ ∗2
Direct input of
motor
constants is
enabled
Pr. 73, 267
Analog input selection
{ ∗1
{
Select "Offline
auto tuning
setting"
0
1
Outline
Dimension
Drawings
50
240
PWM carrier frequency can be changed. The
setting is in [kHz].
Note that 0 indicates 0.7kHz and 15 indicates
14.5kHz.
Soft-PWM is invalid
When Pr. 72 = "0 to 5", Soft-PWM is valid.
{
{
{
{
Without second applied motor (Pr. 450 initial value)
Motor constants of Mitsubishi high efficiency motor SF-HR
Motor constants of Mitsubishi constant-torque motor SF-HRCA.
Star connection
Delta connection
(initial value)
10
11
0
1
Automatic Change
Parameter
Standard Motor
Setting ∗1
Constant-torque
Motor Setting ∗2
Pr. 0
Pr. 12
3%
4%
2%
2%
When the AU signal is off
0 to 5V
Reversible
Operation
Not function
×
0 to 10V
0 to 5V
Yes
When the AU signal is on
×
(initial value)
10
According to Pr. 267 setting
Not function
0:4 to 20mA (initial value)
1:0 to 5V
×
11
z For the 5.5K and 7.5K, the Pr. 0 Torque boost and Pr. 12 DC injection
brake operation voltage settings are automatically changed according
to the Pr. 71 settings as follows.
Terminal 4 Input
Terminal Connection
Diagram
Terminal Specification
Explanation
—
0 to 15
Operation panel
Parameter unit
FR Configurator
40
72
Description
Parameter
List
1
Thermal characteristics of a standard
motor (Pr. 71 initial value)
Thermal characteristics of the
Mitsubishi constant-torque motor
Thermal characteristic of Mitsubishi
high efficiency motor SF-HR
Thermal characteristic of Mitsubishi
constant torque motor SF-HRCA
Standard
Standard Constant-torque
(SF-JR, etc.) (SF-JRCA, etc.)
Range
Explanations
of
Parameters
0
Motor ({: Motor used)
Setting
2:0 to 10V
Reverse
rotation
Pr. 125
Yes
Protective
Functions
Pr. 71 Pr. 450
Pr. 240 Soft-PWM operation selection
Options
Thermal Characteristic of
the Electronic Thermal
Relay Function
Pr.
Number
Set frequency (Hz)
Pr. 71, Pr. 450
Setting
Pr. 72 PWM frequency selection
You can change the motor sound.
Connection
example
Setting of the used motor selects the thermal characteristic
Features
Carrier frequency and Soft-PWM
selection
Pr. 450 Second applied motor
Forward
rotation
Reversible
Instructions
Pr. 71 Applied motor
Standard
Specifications
Motor selection (applied motor)
Not
reversible
C2(Pr. 902)
0
Terminal 2
5V input (V)
2.5V
C3(Pr.902) C4(Pr.903)
Frequency setting signal
Motor
∗1 Pr. 71 setting: 0, 3 to 6, 23, 24, 40, 43, 44
∗2 Pr. 71 setting: 1, 13 to 16, 50, 53, 54
Pr. 74
Compatibility
Response level of analog input and
noise elimination
Pr. 74 Input filter time constant
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Inquiry
Warranty
z The time constant of the primary delay filter can be set for the
external frequency command (analog input (terminal 2, 4) signal).
y Effective for filtering noise in the frequency setting circuit.
y Increase the filter time constant if steady operation cannot be
performed due to noise.
A larger setting results in slower response. (The time constant
can be set between approximately 5ms to 1s with the setting of 0
to 8.)
40
Pr. 75
Pr. 79, 340
Reset selection, disconnected PU
detection
Pr. 75 Reset selection/disconnected PU
detection/PU stop selection
You can select the reset input acceptance, disconnected PU (FRPU04/FR-PU07) connector detection function and PU stop
function.
Pr. 75
Reset Selection
Setting
Reset input normally
enabled
0
1
Reset input is enabled
only when a fault occurs.
2
Reset input normally
enabled
3
Reset input is enabled
only when a fault occurs.
14
(initial
value)
Reset input normally
enabled
Reset input is enabled
only when a fault occurs.
15
16
Reset input normally
enabled
17
Reset input is enabled
only when a fault occurs.
Disconnected
PU Stop
PU Detection
Selection
If the PU is
disconnected,
operation will be
continued.
When the PU is
disconnected,
the inverter
output is shut off.
If the PU is
disconnected,
operation will be
continued.
When the PU is
disconnected,
the inverter
output is shut off.
Operation mode selection
Pr. 79 Operation mode selection
z Used to select the operation mode of the inverter.
Mode can be changed as desired between operation using external
signals (external operation), operation from the PU (FR-PU04/FRPU07), combined operation of PU operation and external operation
(external/PU combined operation, and network operation (when RS485 communication or a communication option is used)
.
Pr. 79
LED Indication
: OFF
: ON
Description
Setting
Pressing
decelerates the
motor to a stop
only in the PU
operation mode.
Pr. 340 Communication startup mode selection
Use external/PU switchover mode
0
(initial
value)
(press
to switch between the PU and
External operation mode.
At power on, the inverter is placed in the
Pressing
decelerates the
motor to a stop in
any of the PU,
external and
communication
operation modes.
Pr. 77
1
Fixed to PU operation mode
Fixed to External operation mode
2
3
4
between the external and Net operation
(
)
You can select whether write to various parameters can be
performed or not. Use this function to prevent parameter values
from being rewritten by misoperation.
2
PU operation
mode
Switchover mode
Description
Write is enabled only during a stop.
Parameter can not be written.
Parameter write is enabled in any operation mode
6
Pr. 78 Reverse rotation prevention selection
This function can prevent reverse rotation fault resulting from the
incorrect input of the start signal.
Pr. 78 Setting
41
Description
Both forward and reverse rotations allowed
Reverse rotation disabled
Forward rotation disallowed
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
7
External
operation mode
operation, and NET operation while
keeping the same operating status.
Pr. 78
0 (initial value)
1
2
Switch among PU operation, external
regardless of operating status.
Prevention of reverse rotation of the
motor
NET operation
mode
External/PU combined operation mode 1
Frequency command Start command
Operation panel and
PU (FR-PU04/FRExternal signal
PU07) setting or
input
external signal input
(multi-speed setting,
(terminal STF,
across terminals 4-5
STR)
(valid when AU signal
turns on)).
External/PU combined operation mode 2
Frequency command Start command
Input from the
External signal input
operation panel
(terminal 2, 4, JOG,
and the PU (FRPU04/FR-PU07)
multi-speed selection,
etc.)
Pr. 77 Parameter write selection
External
operation mode
Operation can be performed by switching
mode.
Prevention of parameter rewrite
0 (initial value)
1
PU operation
mode
External operation mode.
z Reset selection
You can select the operation timing of reset function (RES signal,
reset command through communication) input.
z Disconnected PU detection
This function detects that the PU (FR-PU04/FR-PU07) has been
disconnected from the inverter for longer than 1s and causes the
inverter to provide a fault output (E.PUE) and come to trip.
z PU stop selection
In any of the PU operation, external operation and network operation
modes, the motor can be stopped by pressing
of the PU.
Pr. 77 Setting
External
operation mode
External operation mode (PU operation
interlock)
X12 signal ON
Operation mode can be switched to the
PU operation mode.
(output stop during external operation)
X12 signal OFF
Operation mode can not be switched to
the PU operation mode.
NET operation
mode
PU operation
mode
External
operation mode
external, PU or NET
magnetic flux vector control can be made by Pr. 800.
Parameter
Setting
Number
Range
0.1 to 15kW
80
(initial value)
operation mode∗1
1
PU operation mode
Fixed to PU operation
mode
2, 4, 6, 8, 10
81
20
external and NET
2
NET operation mode
enabled
Switching to PU
operation mode disabled
1
3, 4
External/PU combined
Operation mode
operation mode
switching disabled
Switching among the
6
NET operation mode
external, PU, and NET
..NET operation mode
7
X12 (MRS) signal ON
..External operation
mode
800
(initial value)
30
Set the applied motor capacity.
V/F control
Set the number of motor poles.
V/F control
Advanced magnetic flux vector control ∗
General-purpose magnetic flux vector
control ∗
∗ Set a value other than "9999" in Pr. 80 and Pr. 81.
z The motor speed fluctuation at load fluctuation can be adjusted
using Pr. 89.
Features
operation mode is
enabled while running.
X12 (MRS) signal ON
9999
(initial value)
Switching between the
operation mode is
9999
Description
Outline
Dimension
Drawings
Can be switched to
advanced magnetic flux vector control or general-purpose
Connection
example
magnetic flux vector control can be selected by setting the motor
Standard
Specifications
Advanced magnetic flux vector control and general-purpose
Terminal Connection
Diagram
Terminal Specification
Explanation
value)
NET operation mode
Pr. 800 Control method selection
Operation panel
Parameter unit
FR Configurator
As set in Pr. 79.
0
Pr. 81 Number of motor poles
capacity, number of poles in Pr. 80 and Pr. 81. Selection of
Operation Mode
Switching
0
(initial
Pr. 80 Motor capacity
Pr. 89 Speed control gain (Advanced magnetic flux
vector)
Can be switched to
external, PU or NET
operation mode∗1
Fixed to External
operation mode (forcibly
switched to External
operation mode)
Explanations
of
Parameters
Pr. 79
Setting
Selection of control method and control
mode AD MFVC GP MFVC
Protective
Functions
Pr. 340
Setting
Operation Mode at
Power-on, Power
Restoration,
Reset
Pr. 80, 81, 89, 800
Parameter
List
z Specify the operation mode at power on (Pr. 340)
y When power is switched on or when power comes back on after
instantaneous power failure, the inverter can be started up in the
network operation mode.
After the inverter has started up in the network operation mode,
parameter write and operation can be performed from a program.
Set this mode for communication operation using the inverter RS485 communication or communication option.
y You can set the operation mode at power on (reset) according to
the Pr. 79 and Pr. 340 settings.
Switching between the
NET operation mode
PU and Net operation
Options
0
mode is enabled∗2
PU operation mode
2
NET operation mode
External/PU
10
3, 4
combined operation
mode
Fixed to PU operation
mode
Fixed to NET operation
Instructions
1
mode
Operation mode
switching disabled
6
NET operation mode
Motor
Switching between the
PU and NET operation
mode is enabled while
running∗2
7
operation mode (forcibly
mode
switched to External
Compatibility
Fixed to External
External operation
operation mode)
key of the operation panel and X65
Inquiry
network operation mode with
signal.
Warranty
∗1 Operation mode can not be directly changed between the PU
operation mode and network operation mode
∗2 Operation mode can be changed between the PU operation mode and
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
42
Pr. 82 to 84, 90 to 94, 96, 298, 859
Offline auto tuning
Pr. 82 Motor excitation current
Pr. 84 Rated motor frequency
Pr. 91 Motor constant (R2)
Pr. 93 Motor constant (L2)
Pr. 96 Auto tuning setting/status
Pr. 859 Torque current
Communication initial setting
Pr. 83 Rated motor voltage
Pr. 90 Motor constant (R1)
Pr. 92 Motor constant (L1)
Pr. 94 Motor constant (X)
Pr. 298 Frequency search gain
Offline auto tuning operation for automatic calculation of motor
constants can be executed when using advanced magnetic flux
vector control and general-purpose magnetic flux vector control.
When offline auto tuning is performed under V/F control, Pr. 298
Frequency search gain necessary for frequency search for automatic
restart after instantaneous power failure is set as well as the motor
constants (R1).
Parameter
Setting
Number
Range
Pr. 117 to 124, 342, 343, 502, 549
Pr. 117 PU communication station number
Pr. 119 PU communication stop bit length
Pr. 121 Number of PU communication
retries
Pr. 123 PU communication waiting time setting
Pr. 342 Communication EEPROM write selection
Pr. 502 Stop mode selection at communication error
96
between the inverter and personal computer.
z Use PU connector of the inverter for communication.
z You can perform parameter setting, monitoring, etc. using
the Mitsubishi inverter protocol or Modbus-RTU protocol.
Description
z To make communication between the personal computer
and
magnetic flux vector control
Offline auto tuning for V/F control
Pr.
Setting
Number
Range
117
0 to 31
(0 to 247)
∗1
118
48, 96,
192, 384
(automatic restart after instantaneous power
failure (with frequency search))
z You can copy the offline auto tuning data (motor constants) to
another inverter with the PU (FR-PU07).
z Even when motors (other manufacturer's motor, SF-JRC, etc.) other
than Mitsubishi standard motor (SF-JR SF-HR 0.2kW or more) and
Mitsubishi constant-torque motor (SF-JRCA 4P SF-HRCA 0.2kW to
15kW) are used or the wiring length is long, using the offline auto
tuning function runs the motor with the optimum operating
characteristics.
z Offline auto tuning conditions
y A motor should be connected.
y The motor capacity is equal to or one rank lower than the inverter
capacity.
(note that the capacity should be 0.1kW or more)
y The maximum frequency is 120Hz.
y A high-slip motor, high-speed motor and special motor cannot be
tuned.
z As the motor may run slightly, fix the motor securely with a
mechanical brake or make sure that there will be no problem in
safety if the motor runs.
* This instruction must be followed especially in elevator.
Note that if the motor runs slightly, tuning performance is unaffected.
Pr. 89
119
120
0
1 (initial
value)
10
11
0
1
2 (initial
value)
0 to 10
121
9999
0 (initial
value)
122
0.1 to
999.8s
Refer to the section about Pr. 80.
124
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
the
communication
Description
Specify the inverter station number.
Set the inverter station numbers when two or
more inverters are connected to one personal
computer.
Set the communication speed.
The setting value × 100 equals the
communication speed.
For example, the communication speed is
19200bps when the setting value is 192.
Stop bit length
123
43
of
are not made or there is any setting error.
(compatible with FR-E500 series)
21
initialization
Data communication cannot be made if the initial settings
Offline auto tuning for advanced magnetic
flux vector control
inverter,
specifications must be made to the inverter.
Without offline auto tuning
Offline auto tuning for general-purpose
11
Pr. 124 PU communication CR/LF selection
Pr. 343 Communication error count
Pr. 549 Protocol selection
Used to perform required settings for RS-485 communication
value)
1
Pr. 122 PU communication check time interval
(1) Initial settings and specifications of RS-485
communication (Pr. 117 to Pr. 124)
0
(initial
Pr. 118 PU communication speed
Pr. 120 PU communication parity check
9999
0 to
150ms
9999
(initial
value)
0
1 (initial
value)
2
Data length
1bit
2bit
1bit
2bit
Without parity check
With odd parity check
8bit
7bit
With even parity check
Set the permissible number of retries at
occurrence of a data receive error. If the number
of consecutive errors exceeds the permissible
value, the inverter will come to trip.
If a communication error occurs, the inverter will
not come to trip.
RS-485 communication can be made
Note that a communication error (E.PUE) occurs
as soon as the inverter is switched to the
operation mode with control source.
Sets the interval of communication check time.
If a no-communication state persists for longer
than the permissible time, the inverter will come
to trip.
No communication check
Set the waiting time between data transmission
to the inverter and response.
Set with communication data.
Without CR/LF
With CR
With CR/LF
After stop
E.PUE
Output
after stop
Stop
(E.PUE)
Automatic
After
stop
Without
Decelerates
2
restart
to stop
E.PUE
output
functions
∗1 When making communication through Modbus-RTU protocol (Pr. 549 =
"1"), the setting range within parenthesis is applied.
Decelerates
to stop
1
(2) Communication EEPROM write selection (Pr. 342)
When parameter write is performed from the inverter PU
connector, USB communication, and communication option,
parameters storage device can be changed from EEPROM +
RAM to RAM only. Set when a frequent parameter change is
necessary.
(3) Modbus-RTU communication specifications (Pr.
343, Pr. 549)
Pr.
Setting
Number
Range
343
—
0 (initial
549
value)
C7 (Pr. 905) Terminal 4 frequency setting gain
C23 (Pr. 922) Frequency setting
voltage bias (built-in potentiometer)
C25 (Pr. 923) Frequency setting
voltage gain (built-in potentiometer)
Pr. 126 Terminal 4 frequency setting gain frequency
C2 (Pr. 902) Terminal 2 frequency setting bias frequency
C4 (Pr. 903) Terminal 2 frequency setting gain
C6 (Pr. 904) Terminal 4 frequency setting bias
C22 (Pr. 922) Frequency setting
voltage bias frequency (built-in
potentiometer)
C24 (Pr. 923) Frequency setting voltage
gain frequency (built-in potentiometer)
You can set the magnitude (slope) of the output frequency as desired
in relation to the frequency setting signal (0 to 5VDC, 0 to 10V or 4 to
20mA).
C22 (Pr. 922) to C25 (Pr. 923) is available when the operation panel
(PA02) for the FR-E500 series is connected with cable. You can
calibrate the operation panel built-in potentiometer.
(1) Change the frequency at maximum analog input
(Pr. 125, Pr. 126)
Set Pr. 125 (Pr. 126) when changing only frequency setting
(gain) of the maximum analog input voltage (current). (Other
calibration parameter settings need not be changed.)
Description
Displays the number of communication
errors during Modbus-RTU communication.
(Reading only)
Mitsubishi inverter (computer link
operation) protocol
Modbus-RTU protocol
(2) Analog input bias/gain calibration
(C2 (Pr. 902) to C7 (Pr. 905))
y The "bias" and "gain" functions are designed to adjust the
relationships between the output frequency and the setting
input signal, e.g. 0 to 5VDC/0 to 10VDC or 4 to 20mADC
entered from outside the inverter.
Output frequency (Hz)
1
Pr. 125 Terminal 2 frequency setting gain frequency
Pr. 241 Analog input display unit switchover
C3 (Pr. 902) Terminal 2 frequency setting bias
C5(Pr. 904) Terminal 4 frequency setting bias frequency
Initial value
60Hz
Gain
Pr. 125
Bias
C2(Pr. 902)
Options
100%
5V
10V
C4(Pr. 903)
Initial value
60Hz
Instructions
Output frequency (Hz)
0
0
Frequency setting signal
0
C3(Pr. 902)
Features
Stop
(E.PUE)
Connection
example
Output
Standard
Specifications
E.PUE
Analog input frequency change and
adjustment (calibration)
Outline
Dimension
Drawings
At error
removal
Terminal Connection
Diagram
Terminal Specification
Explanation
Coasts to
stop.
Indication
Error
output
Operation panel
Parameter unit
FR Configurator
At alarm
occurrence
Parameter
List
502
0 (initial
value)
3
Pr. 125, 126, 241, C2 (902) to C7 (905), C22 (922) to C25 (923)
Description
Explanations
of
Parameters
Range
Protective
Functions
Setting
Gain
Pr. 126
Bias
C5(Pr. 904)
20
0
0
4
C6(Pr. 904)
Frequency setting
signal
Motor
Pr.
Number
100%
20mA
C7(Pr. 905)
Compatibility
(3) Analog input display unit changing (Pr. 241)
y You can change the analog input display unit (%/V/mA) for
Inquiry
Warranty
analog input bias/gain calibration.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
44
Pr. 127 to 134
Pr. 150 to 153
PID control, dancer control
Pr. 127 PID control automatic switchover frequency
Pr. 129 PID proportional band
Pr. 131 PID upper limit
Pr. 133 PID action set point
Pr. 128 PID action selection
Pr. 130 PID integral time
Pr. 132 PID lower limit
Pr. 134 PID differential time
z The inverter can be used to exercise process control, e.g. flow rate,
air volume or pressure.
The terminal 2 input signal or parameter setting is used as a set
point and the terminal 4 input signal used as a feedback value to
constitute a feedback system for PID control.
y Pr. 128 = "20, 21" (measured value input)
Manipulated
variable
PID operation
+-
Kp 1+
1
Ti
S
Pr. 150 Output current detection level
Pr. 152 Zero current detection level
Pr. 151 Output current detection signal delay time
Pr. 153 Zero current detection time
The output power during inverter running can be detected and
output to the output terminal.
(1) Output current detection
(Y12 signal, Pr. 150, Pr. 151)
y The output current detection function can be used for
excessive torque detection, etc.
Inverter circuit
Pr. 133
or terminal 2
Set point
0 to 5VDC
(0 to 10VDC)
Detection of output current (Y12 signal)
Detection of zero current (Y13 signal)
+Td
S
Motor
IM
Terminal 4
Feedback signal (measured value) 4 to 20mADC (0 to 5V, 0 to 10V)
y If the output current remains higher than the Pr. 150 setting
during inverter operation for longer than the time set in Pr.
151, the output current detection signal (Y12) is output
from the inverter's open collector or relay output terminal.
Kp: Proportionality constant Ti: Integral time S: Operator Td: Differential time
Pr. 150
Output current
z Performs PID control by feedbacking the position signal of the
dancer roller, controlling the dancer roller is in the specified position.
Performs dancer control by setting 40 to 43 in Pr. 128 PID action
selection. The main speed command is the speed command of each
operation mode (external, PU, communication). Performs PID
control by the position detection signal of the dancer roller, then the
result is added to the main speed command.
Pr. 151
Time
100ms
Output current
detection signal
(Y12)
Parameter unit display language
selection
Pr. 145 PU display language selection
You can switch the display language of the parameter unit (FRPU04/FR-PU07) to another.
Pr. 145 Setting
Description
0 (initial value)
1
2
3
4
5
6
7
Japanese
English
German
French
Spanish
Italian
Swedish
Finnish
OFF
OFF
ON
(2) Zero current detection (Y13 signal, Pr. 152, Pr. 153)
y If the output current remains lower than the Pr. 152 setting
during inverter operation for longer than the time set in Pr.
153, the zero current detection (Y13) signal is output from
the inverter's open collector or relay output terminal.
Output current
Pr. 145
Pr. 152
Pr. 152
0[A]
Start signal
Zero current
detection time
(Y13)
100ms*
OFF
Time
ON
OFF
ON
Pr. 153
Detection time
OFF
ON
Pr. 153
Detection time
Pr. 146
Built-in potentiometer switching
Pr. 146 Built-in potentiometer switching
When connecting the operation panel (PA02) of the FR-E500
series with a cable, use Pr. 146 Built-in potentiometer switching for
selecting the operation using the built-in frequency setting
potentiometer, or using [UP/DOWN] key.
Pr. 146 Setting
Description
0
1 (initial value)
Built-in frequency setting potentiometer gain
Digital frequency setting by the [UP/DOWN] key.
Frequency setting with the built-in frequency setting
9999
potentiometer is available when the frequency set by
[UP/DOWN] key is "0Hz".
Pr. 147
45
Refer to the section about Pr. 7.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Pr. 156, 157
Refer to the section about Pr. 22.
Pr. 160, 172 to 174
Pr. 178 to 184
Pr. 270 = 1 *2
z User group function (Pr. 160, Pr. 172 to Pr. 174)
Pr. 59 = 0 (initial
y The user group function is designed to display only the
parameters necessary for setting.
1
RM
y From among all parameters, a maximum of 16 parameters can
parameters registered in the user group can be accessed for
reading and writing. (The parameters not registered in the user
group can not be read.)
y Set parameter numbers in Pr. 173 to register parameters in
Pr. 59 = 0 (initial
2
RH
RT
number in Pr. 174. To batch-delete the registered parameters,
4
5
7
AU
JOG
OH
set Pr. 172 to "9999".
8
REX
10
X10
12
14
15
16
X12
X14
BRI
X16
Pr. 295 Magnitude of frequency change setting
18
X18
z The setting dial of the operation panel can be used for setting
24
25
MRS
STOP
60
STF
61
STR
62
65
66
67
9999
RES
X65
X66
X67
—
y To delete a parameter from the user group, set its parameter
Pr. 161, 295
Operation selection of the operation
panel
like a potentiometer.
z The key operation of the operation panel can be disabled.
Pr. 161 Setting
0 (initial value)
Description
Setting dial frequency setting mode
1
Setting dial potentiometer mode
10
Setting dial frequency setting mode
11
Setting dial potentiometer mode
Key lock invalid
Key lock valid
z When setting the set frequency with the setting dial, the
frequency setting increments of the setting dial can be changed,
in proportion as the rotated amount of the setting dial (speed).
clear)
Stop-on contact selection
0
Middle-speed operation
command
Remote setting
(deceleration)
High-speed operation
command
Remote setting
(acceleration)
Second function selection
Pr. 270 = 1 *2
Stop-on contact selection 1
Terminal 4 input selection
Jog operation selection
External thermal relay input*3
15-speed selection
(combination with three speeds RL, RM, RH)
Inverter operation enable signal
(FR-HC/FR-CV connection)
PU operation external interlock
PID control valid terminal
Brake opening completion signal
PU-external operation switchover
V/F switchover
(V/F control is exercised when X18 is on)
Output stop
Start self-holding selection
Forward rotation command
Connection
example
Standard
Specifications
(assigned to STF terminal (Pr. 178) only)
Reverse rotation command
(assigned to STR terminal (Pr. 179) only)
Inverter reset
PU/NET operation switchover
External/NET operation switchover
Command source switchover
No function
∗1 When Pr. 59 Remote function selection = "1 or 2", the functions of the RL,
RM and RH signals change as listed above.
∗2 When Pr. 270 = "1", the functions of the RL and RT signals change as
listed above.
∗3 The OH signal turns on when the relay contact "opens".
∗4 For the safety stop function model, this setting is active only during the
communication operation.
Inquiry
Refer to the section about Pr. 57.
Pr. 162, 165
Pr. 168, 169 Parameter for manufacturer setting. Do not set.
Refer to the section about Pr. 52.
Pr. 170, 171
Refer to the section about Pr. 160.
Pr. 172 to 174
value)
Pr. 59 = 1, 2 *1
3
the user group.
value)
Pr. 59 = 1, 2 *1
be registered in the user group. When "1" is set in Pr. 160 , only
Pr. 161 Frequency setting/key lock operation
selection
command
Remote setting (setting
Pr. 59 = 1, 2 *1
Outline
Dimension
Drawings
Only the simple mode parameters can be displayed.
RL
Terminal Connection
Diagram
Terminal Specification
Explanation
9999
0
Operation panel
Parameter unit
FR Configurator
Only the parameters registered in the user group can be displayed.
Low-speed operation
value)
Parameter
List
1
Pr. 59 = 0 (initial
Explanations
of
Parameters
All parameters are displayed.
value)
Functions
Protective
Functions
Signal
Options
Pr. 178 to
Pr. 184
Setting*4
Description
0
(initial
Use these parameters to select/change the input terminal
functions.
Instructions
Pr. 160
Setting
Pr. 179 STR terminal function selection
Pr. 181 RM terminal function selection
Pr. 183 MRS terminal function selection
Motor
z Parameter which can be read from the operation panel and
parameter unit can be restricted.
The inverter is set to display all parameters with initial setting.
Pr. 178 STF terminal function selection
Pr. 180 RL terminal function selection
Pr. 182 RH terminal function selection
Pr. 184 RES terminal function selection
Features
Function assignment of input terminal
Pr. 172 User group registered display/batch clear
Pr. 174 User group clear
Compatibility
Pr. 160 User group read selection
Pr. 173 User group registration
Warranty
User group function
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
46
Pr. 190 to 192
Pr. 244
Terminal assignment of output terminal
Pr. 190 RUN terminal function selection
Pr. 192 A,B,C terminal function selection
Pr. 191 FU terminal function selection
You can change the functions of the open collector output terminal
and relay output terminal.
Pr. 190 to Pr. 192
Setting
Positive Negative
logic
logic
Pr. 244 Cooling fan operation selection
You can control the operation of the cooling fan (FR-E720-1.5K or
more, FR-E740-1.5K or more, FR-E720S-0.75K or more) built in
the inverter.
Pr. 244 Setting
Signal
Functions
0
1
3
4
7
8
11
12
13
14
15
16
20
25
26
100
101
103
104
107
108
111
112
113
114
115
116
120
125
126
RUN
SU
OL
FU
RBP
THP
RY
Y12
Y13
FDN
FUP
RL
BOF
FAN
FIN
46
146
Y46
47
64
80
81
90
91
93
95
96
98
99
147
164
180
181
190
191
193
195
196
198
199
Inverter running
Up to frequency
Overload alarm
Output frequency detection
Regenerative brake prealarm
Electronic thermal relay function prealarm
Inverter operation ready
Output current detection
Zero current detection
PID lower limit
PID upper limit
PID forward/reverse rotation output
Brake opening request
Fan fault output
Heatsink overheat pre-alarm
During deceleration due to instantaneous
Refer to the section about Pr. 4.
Pr. 232 to 239
Refer to the section about Pr. 72.
Pr. 240
Refer to the section about Pr. 125.
Pr. 241
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Description
Operates in power-on status.
Cooling fan on/off control invalid
(the cooling fan is always on at power on)
0
power failure (retained until release)
PID
During PID control activated
Y64
During retry
SAFE
Safety monitor output*
SAFE2 Safety monitor output 2*
Y90
Life alarm
Y91
Fault output 3 (power-off signal)
Y93
Current average value monitor signal
Y95
Maintenance timer signal
REM
Remote output
LF
Alarm output
ALM
Fault output
9999
—
No function
∗ These parameters can be set only in the safety stop function model.
47
Increase cooling fan life
1
(initial value)
Cooling fan on/off control valid
The fan is always on while the inverter is running.
During a stop, the inverter status is monitored and
the fan switches on-off according to the temperature.
Pr. 245 to 247
Slip compensation
Pr. 245 Rated slip
Pr. 247 Constant-power range slip
compensation selection
V/F
GP MFVC
Pr. 246 Slip compensation time constant
The inverter output current may be used to assume motor slip to
keep the motor speed constant.
Pr. 249
Earth (ground) fault detection at start
Pr. 249 Earth (ground) fault detection at start
You can choose whether to make earth (ground) fault detection at
start valid or invalid. Earth (ground) fault detection is executed only
right after the start signal is input to the inverter.
Pr. 249 Setting
0 (initial value)
1
Description
Without earth (ground) fault detection
With earth (ground) fault detection*
∗ As detection is executed at start, output is delayed for approx. 20ms every
start.
y If an earth (ground) fault is detected with "1" set in Pr. 249, fault
output (E.GF) is displayed and the output is shut off.
y Protective function will not activate if an earth (ground) fault occurs
during operation.
y If the motor capacity is smaller than the inverter capacity for the 5.5K
or more, earth (ground) fault detection may not be provided.
Pr. 255 to 259
You can also select the operations of the start signals (STF/STR).
Description
Pr. 250
Setting
Start signal
(STF/STR)
Stop operation
STF signal:
Forward rotation start
STR signal:
Reverse rotation start
0 to 100s
The motor is coasted to a
stop when the preset time
elapses after the start signal
is turned off.
The motor is coasted to a
stop (Pr. 250 - 1000)s after
the start signal is turned off.
STF signal: Start signal
STR signal:
Forward/reverse signal
1000s to 1100s
STF signal:
Forward rotation start
STR signal:
Reverse rotation start
STF signal: Start signal
STR signal:
Forward/reverse signal
9999
8888
When the start signal is
turned off, the motor
decelerates to stop.
When "9999 (initial value) or 8888" is set in Pr. 250
Output
frequency
(Hz)
diagnosed by monitor.
When any part has approached the end of its life, an alarm can be
output by self diagnosis to prevent a fault.
(Use the life check of this function as a guideline since the life
except the main circuit capacitor is calculated theoretically.)
Pr.
Number
Setting
Range
Description
255
(0 to 15)
Displays whether the control circuit capacitor,
main circuit capacitor, cooling fan, and each
parts of the inrush current limit circuit has
reached the life alarm output level or not.
(Reading only)
256
(0 to 100%)
Displays the deterioration degree of the inrush
current limit circuit.
(Reading only)
257
(0 to 100%)
Displays the deterioration degree of the
control circuit capacitor.
(Reading only)
258
(0 to 100%)
Displays the deterioration degree of the main
circuit capacitor.
(Reading only)
The value measured by Pr. 259 is displayed.
0, 1
Setting "1" and turning the power supply off
starts the measurement of the main circuit
capacitor life.
When the Pr. 259 value is "3" after powering on
again, the measuring is completed.
Displays the deterioration degree in Pr. 258.
Deceleration starts
when start signal turns OFF
Deceleration time
(Time set in Pr. 8, etc.)
DC brake
Time
Start signal
ON
RUN signal
OFF
ON
OFF
259
Features
Connection
example
capacitor or inrush current limit circuit and cooling fan can be
Standard
Specifications
switching off of the start signal.
Degrees of deterioration of main circuit capacitor, control circuit
Outline
Dimension
Drawings
Used to stop the motor with a mechanical brake, etc. together with
Pr. 256 Inrush current limit circuit life display
Pr. 258 Main circuit capacitor life display
Terminal Connection
Diagram
Terminal Specification
Explanation
coasting) when the start signal turns off.
Pr. 255 Life alarm status display
Pr. 257 Control circuit capacitor life display
Pr. 259 Main circuit capacitor life measuring
Operation panel
Parameter unit
FR Configurator
Pr. 250 Stop selection
Used to select the stopping method (deceleration to a stop or
Display of the life of the inverter parts
Parameter
List
Selection of motor stopping method and
start signal
Explanations
of
Parameters
Pr. 250
Output is shut off when set
time elapses after start
signal turned OFF
Pr. 250
Output
frequency
(Hz)
Protective
Functions
When a value other than "9999" (initial value) or "8888" is set in Pr. 250
OFF
ON
OFF
ON
Instructions
Start signal
RUN signal
Options
The motor coasts to stop
Time
Pr. 251, 872
Pr. 251 Output phase loss protection selection
Motor
Input/output phase failure protection
selection
Pr. 872 Input phase loss protection selection
You can disable the output phase failure protection function that
stops the inverter output if one of the inverter output side (load
Compatibility
side) three phases (U, V, W) opens.
251
872 *
Setting Range
Description
0
Without output phase failure protection
1 (initial value)
0
1 (initial value)
With output phase failure protection
Without input phase failure protection
With input phase failure protection
Inquiry
Pr.
Number
Warranty
Input phase failure protection, which stops inverter output when
one of three phases (R, S, T) on the inverter's input side is lost,
can be disabled.
∗ The setting is available for three-phase power input models.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
48
Pr. 261
Operation at instantaneous power
failure
When a power failure or undervoltage occurs, the inverter can be
decelerated to a stop or can be decelerated and re-accelerated to
the set frequency.
Setting
Range
0 (initial
value)
1
261
2
Stop-on-contact control
Pr. 270 Stop-on contact control selection
Pr. 261 Power failure stop selection
Pr.
Number
Pr. 270, 275, 276, 6, 48
Description
Coasts to stop.
When undervoltage or power failure occurs,
the inverter output is shut off.
When undervoltage or a power failure occurs,
the inverter can be decelerated to a stop.
When undervoltage or a power failure occurs,
the inverter can be decelerated to a stop.
If power is restored during a power failure, the
inverter accelerates again.
(1) Power failure stop function (Pr. 261 = "1")
y If power is restored during power failure deceleration,
deceleration to a stop is continued and the inverter
remains stopped. To restart, turn off the start signal once,
then turn it on again.
Pr. 276 PWM carrier frequency at stop-on contact
Pr. 48 Second stall prevention operation current
GP MFVC
Pr. 275 Stop-on contact excitation
current low-speed multiplying factor
Pr. 6 Multi-speed setting (low speed)
To ensure accurate positioning at the upper limit etc. of a lift, stopon-contact control causes a mechanical brake to be closed while
the motor is developing a holding torque to keep the load in contact
with a mechanical stopper etc.
This function suppresses vibration which is liable to occur when the
load is stopped upon contact in vertical motion applications,
ensuring steady precise positioning.
Pr. 270 Setting
Description
0
(initial value)
Without stop-on-contact control
1
Stop-on-contact control
z Select advanced magnetic flux vector control or general-purpose
magnetic flux vector control.
When both the RT and RL signals are switched on, the inverter
enters the stop-on contact mode, in which operation is performed at
the frequency set in Pr. 6 Multi-speed setting (low speed)
independently of the preceding speed.
Output
frequency
Pr. 261 = 1
Power
Normal mode Stop-on-contact control mode
Pr. 4
Output frequency
During deceleration
at occurrence of power failure
Pr. 5
During stop
at occurrence
of power failure
Pr. 6
Time
0
Time
(a)
STF
Y46
Turn OFF STF once to make acceleration again
ON
RM
OFF
RL
OFF
ON
ON
OFF
ON
(a) Acceleration time (Pr. 7 ) (b) Deceleration time (Pr. 8 )
(c) Second deceleration time (Pr. 44/Pr. 45 )
Pr.
Number
Setting
Range
Description
Sets the output frequency for stop-on-contact
IPF
6
Power
0 to
400Hz
Output
frequency
During deceleration at
occurrence of power failure
(c)
* Goes into stop-on-contact control when both RL and RT switch ON.
RL and RT may be switched on in any order with any time difference.
failure, acceleration is made again up to the set frequency.
Pr. 261 = 2
RH
RT
y When power is restored during deceleration after a power
When power is restored during deceleration
at occurrence of power failure
(b)
*
(2) Original operation continuation at instantaneous
power failure function (Pr. 261 = "2")
Reacceleration
Time
Y46
Refer to the section about Pr. 73.
Pr. 267
Refer to the section about Pr. 52.
Pr. 268
Pr. 269 Parameter for manufacturer setting. Do not set.
48
0 to
200%
0 to
275
300%
9999
276
0 to 9
9999
49
AD MFVC
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
control
The frequency should be as low as possible
(about 2Hz). If it is set to more than 30Hz, the
operating frequency will be 30Hz.
Sets the stall prevention operation level for stall
prevention operation level.
(Pr. 22 when Pr. 48 = "9999")
Usually set a value between 130% and 180%.
Set the force (holding torque) for stop-on-contact
control.
Without compensation.
Sets a PWM carrier frequency for stop-oncontact control.
As set in Pr. 72 PWM frequency selection.
brake operation timing signal in vertical lift and other applications.
This function prevents the load from dropping with gravity at a start
0 to 2s
Generally, set this parameter to about 0.1 to
0.3s.
due to the operation timing error of the mechanical brake or an
281
0 to 5s
Pr. 292 = 7: Set the mechanical delay time until
the brake is loosened.
Pr. 292 = 8: Set the mechanical delay time until
the brake is loosened + about 0.1 to 0.2s.
overcurrent alarm from occurring at a stop, ensuring secure operation.
<Operation example>
282
0 to 30Hz
At this frequency, the brake opening request
signal (BOF) is switched off. Generally, set this
parameter to the Pr. 278 setting + 3 to 4Hz.
This parameter may be only set if Pr. 282 ≥ Pr. 278.
z At start: When the start signal is input to the inverter, the inverter
starts running. When the internal speed command reaches
the value set in Pr. 278 and the output current is not less
than the value set in Pr. 279, the inverter outputs the brake
opening request signal (BOF) after the time set in Pr. 280
has elapsed.
When the time set in Pr. 281 elapses after the brake opening
completion signal (BRI) was activated*, the inverter
increases the output frequency to the set speed.
z At stop: When the speed has decreased to the frequency set in Pr.
282, the brake opening request signal (BOF) is turned off.
When the time set in Pr. 283 elapses after the brake
operation confirmation signal (BRI) was activated*, the
inverter output is switched off.
283
0 to 5s
Pr. 292 =7: Set the mechanical delay time until
the brake is closed + 0.1s.
Pr. 292 =8: Set the mechanical delay time until
the brake is closed + 0.2 to 0.3s.
292
0, 1, 7, 8,
11
Brake sequence function is made valid when a
setting is "7" or "8".
* If Pr. 292 = "8" (mechanical brake opening completion signal not input),
this time is the time after the brake opening request signal is output.
Pr. 286 Droop gain
load torque to provide the speed drooping characteristic.
This function is effective for balancing the load when using
Pr. 280
Pr.13 setting
or 0.5Hz,
whichever is lower
Pr. 281
Pr. 278
Pr. 13
Pr. 279
287
ON
Brake opening request
(BOF signal)
Brake opening completion
(BRI signal)
Electromagnetic brake operation
ON
Closed
Opened
Closed
Droop control is invalid
0.1 to 100%
Set the drooping amount at the rated torque
as a percentage with respect to the rated
motor frequency.
0.00 to
1.00s
Set the time constant of the filter applied on
the torque amount current.
z Droop control
This control is valid when a value other than "0" is set in Pr. 286
under advanced magnetic flux vector control.
The maximum droop compensation frequency is 120Hz.
Frequency command
Target
frequency
Pr. 280
Pr.13 setting
or 0.5Hz,
whichever is lower
Pr. 281
Pr. 278
Pr. 13
Time
ON
STF
Pr. 279
Output I
Brake opening request
(BOF signal)
Droop
gain
-100%
0
100% Torque
Closed
Opened
Closed
Compatibility
ON
Refer to the section about Pr. 61.
Pr. 292, 293
Refer to the section about Pr. 161.
Pr. 295
Inquiry
Warranty
Electromagnetic brake operation
Pr. 283
Droop compensation
frequency
Motor
Pr. 282
Rated frequency
Output frequency (Hz)
2) Pr. 292 = "8" (brake opening completion signal not input)
Description
0
(initial value)
STF
Output I
Explanations
of
Parameters
Setting
Range
286
Time
Pr. 283
ON
Pr. 287 Droop filter time constant
This function is designed to balance the load in proportion to the
Pr.
Number
Target
frequency
Pr. 282
AD MFVC
multiple inverters
1) Pr. 292 = "7" (brake opening completion signal input)
Output frequency (Hz)
Pr. 286, 287
Droop control
Features
280
This function is used to output from the inverter the mechanical
Connection
example
0 to 200%
Standard
Specifications
279
Generally, set this parameter to about 50 to
90%. If the setting is too low, the load is liable
to drop due to gravity at start.
Suppose that the rated inverter current is
100%.
Pr. 279 Brake opening current
Pr. 281 Brake operation time at start
Pr. 283 Brake operation time at stop
Outline
Dimension
Drawings
Set to the rated slip frequency of the motor +
about 1.0Hz.
This parameter may be set only if Pr. 278 ≤ Pr. 282.
Terminal Connection
Diagram
Terminal Specification
Explanation
0 to 30Hz
Operation panel
Parameter unit
FR Configurator
278
Parameter
List
GP MFVC
Description
Protective
Functions
Pr. 278 Brake opening frequency
Pr. 280 Brake opening current detection time
Pr. 282 Brake operation frequency
Pr. 292 Automatic acceleration/deceleration
AD MFVC
Setting
Range
Options
Brake sequence function
Pr.
Number
Instructions
Pr. 278 to 283, 292
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
50
Pr. 296, 297
Pr. 338, 339, 550, 551
Password function
Pr. 296 Password lock level
Pr. 297 Password lock/unlock
Registering 4-digit password can restrict parameter reading/
writing.
z Level of reading/writing restriction by PU/NET mode operation
command can be selected by Pr. 296.
PU Mode
NET Mode Operation Command
RS-485
Communication
Pr. 296
Operation
Setting
Command
Read
Write
9999
0, 100
1, 101
2, 102
3, 103
4, 104
5, 105
6, 106
Communication
Read
Write
Option
Read
Write
{
{
{
{
{
{
×
×
×
×
×
×
{
×
{
×
{
×
{
×
{
{
{
{
{
{
{
×
{
×
×
×
×
×
{
×
×
×
{
{
{
{
{
{
×
×
{
×
Only parameters registered in the user group can be read/written
(For the parameters not registered in the user group, same
99, 199
restriction level as "4, 104" applies.)
{: enabled, ×: restricted
Pr.
Number
Setting
Range
1000 to
9998
297
Description
Register a 4-digit password
Displays password unlock error count.
(0 to 5) ∗
(Reading only)
(Valid when Pr. 296 = "100" to "106")
9999 ∗
No password lock
When Pr. 296 ≠ "9999" (with password lock), note that Pr. 297 is always
available for setting regardless of Pr. 160 setting.
∗ "0 or 9999" can be set to Pr.297 at any time although the displayed value
does not change (set value is not displayed).
Pr. 298
Pr. 299
51
Refer to the section about Pr. 82.
Refer to the section about Pr. 57.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Start command source and frequency
command source during communication
operation
Pr. 338 Communication operation command source
Pr. 550 NET mode operation command source selection
Pr. 339 Communication speed command source
Pr. 551 PU mode operation command source selection
When the RS-485 communication with the PU connector or
communication option is used, the external start command and
frequency command can be made valid. Command source in the
PU operation mode can be selected.
Pr.
Number
338
339
Setting
Range
0 (initial
value)
1
0
(initial
value)
1
Description
Start command source communication
Start command source external
Frequency command source communication
Frequency command source external
Frequency command source external
2
(Frequency setting from communication is valid,
frequency terminal 2 is invalid)
The communication option is the command
0
source in the NET operation mode.
PU connector is the command source in the
2
NET operation mode.
550∗
Automatic communication option recognition
9999
Normally, PU connector is valid. When a
(initial
communication option is mounted, the
value)
communication option is valid.
PU connector is the command source in the PU
2
operation mode.
USB connector is the command source in the
3
PU operation mode.
Operation panel is the command source in the
4
PU operation mode.
551∗
USB automatic recognition
Normally, operation panel is the command
9999
source. When the parameter unit is connected
(initial
to the PU connector, PU is the command
value)
source. When USB is connected, USB is the
command source.
∗ Pr. 550 and Pr. 551 are always write-enabled.
Refer to the section about Pr. 79.
Pr. 340
Refer to the section about Pr. 117.
Pr. 342, 343
Refer to the section about Pr. 71.
Pr. 450
Pr. 495 to 497
Pr. 547, 548
Pr. 495 Remote output selection
Pr. 497 Remote output data 2
Inverter setup using USB communication
Pr. 496 Remote output data 1
Pr. 547 USB communication station number
11
Remote output data held
at powering off
∗ The above parameters allow its setting to be changed during operation in
any operation mode even if "0" (initial value) is set in Pr. 77 Parameter write
selection.
Connection
example
Communication time interval is not checked.
Refer to the section about Pr. 117.
Pr. 549
Refer to the section about Pr. 338.
Pr. 550, 551
<Remote output data>
b11
b0
RUN
∗1
∗1
∗1
FU
ABC
∗1
∗1
∗1
∗1
∗1
∗1
Pr. 497
b11
b0
Y0 ∗2
Y1 ∗2
Y2 ∗2
Y3 ∗2
Y4 ∗2
Y5 ∗2
Y6 ∗2
RA1 ∗2
RA2 ∗2
RA3 ∗2
∗1
∗1
∗1 As desired (always 0 when read)
∗2 Y0 to Y6 are available only when the extension output option (FRA7AY E kit) is fitted
∗3 RA1 to RA3 are available only when the relay output option (FR-A7AR
E kit) is fitted
Pr. 502
Pr. 555 to 557
Operation panel
Parameter unit
FR Configurator
Pr. 496
Current average value monitor signal
Pr. 555 Current average time
Pr. 557 Current average value monitor signal
output reference current
Pr. 556 Data output mask time
The average value of the output current during constant speed
operation and the maintenance timer value are output as a pulse
to the current average value monitor signal (Y93).
The pulse width output to the I/O module of the programmable
controller or the like can be used as a guideline due to abrasion of
machines and elongation of belt and for aged deterioration of
devices to know the maintenance time.
The current average value monitor signal (Y93) is output as pulse
for 20s as 1 cycle and repeatedly output during constant speed
operation.
Refer to the section about Pr. 117.
From acceleration to constant speed operation
Output frequency
Pr. 503, 504
Time
1 cycle (20s)
Maintenance of parts
Pr. 503 Maintenance timer
Y93 signal
Pr. 504 Maintenance timer alarm output set time
When the cumulative energization time of the inverter reaches the
parameter set time, the maintenance timer output signal (Y95) is
output.
(MT) is displayed on the operation panel.
This can be used as a guideline for the maintenance time of
peripheral devices.
First power
1) Data output mask time
When the speed has changed to
constant from acceleration/deceleration,
Y93 signal is not output for Pr. 556 time.
5) End pulse
Output as low pulse
shape for 1 to 16.5s
4) Maintenance timer pulse
The maintenance timer value (Pr. 503) is
output as Hi pulse shape for 2 to 9s
(16000h to 72000h)
Pr. 503 100h
5s
Signal output time =
40000h
2) Start pulse
Output as Hi pulse shape for 1s (fixed)
Output current set in Pr. 555 time is averaged
3) Output current average value pulse
The averaged current value is output for 0.5 to 9s
(10 to 180%) during start bit output.
Output current average value (A)
Signal output time =
Pr. 557 (A)
5s
Refer to the section about Pr. 52.
Pr. 563, 564
Refer to the section about Pr. 13.
Pr. 571
Refer to the section about Pr. 57.
Pr. 611
ON
9998
(999800h)
Maintenance
timer
Pr. 504
(Pr. 503)
Next cycle
Instructions
0 to 4095
Refer to the following diagram.
(E.USB) is displayed.
548,
9999
(initial
value)
Motor
497∗
548
Set "0" in Pr. 503
Compatibility
0 to 4095
0 to 999.8
Remote output
data held at
inverter reset
Set the communication check time interval of USB
communication.
If data is not received within the time set in Pr.
Standard
Specifications
Remote output data clear
at powering off
Set the station number of USB device (inverter)
within the range "0 to 31".
Outline
Dimension
Drawings
10
547
Terminal Connection
Diagram
Terminal Specification
Explanation
Remote output data held
at powering off
Description
0
(initial
value)
1 to 31
Parameter
List
1
Remote output
data clear at
inverter reset
Setting
Range
Explanations
of
Parameters
Remote output data clear
at powering off
Pr.
Number
Protective
Functions
0
(initial
value)
performed by USB communication.
Options
the remote output terminal of the programmable controller.
Pr.
Setting
Description
Number
Range
496∗
Pr. 548 USB communication check time interval
Inverter setup with setup software (FR Configurator) can be easily
You can utilize the on/off of the inverter's output signals instead of
495
Features
Remote output function (REM signal)
OFF
ON
Warranty
Time
Y95 signal
MT display
ON
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
Inquiry
z The cumulative energization time of the inverter is stored into the
EEPROM every hour and indicated in Pr. 503 Maintenance timer in
100h increments. Pr. 503 is clamped at 9998 (999800h).
52
Pr. 653
Pr. 888, 889
Reduce mechanical resonance
Pr. 653 Speed smoothing control
Free parameter
Pr. 889 Free parameter 1
Pr. 889 Free parameter 2
Mechanical vibration produced while motor is driving (resonance)
Parameters you can use for your own purposes.
can be reduced.
You can input any number within the setting range 0 to 9999.
Set 100% in Pr. 653 and check if the vibration will be reduced.
For example, the number can be used:
Make adjustment gradually increasing the setting, until the
y As a unit number when multiple units are used.
vibration become the smallest.
y As a pattern number for each operation application when
multiple units are used.
Pr. 665, 882, 883, 885, 886
y As the year and month of introduction or inspection.
Regeneration avoidance function
Pr. 665 Regeneration avoidance frequency gain
Pr. 883 Regeneration avoidance operation level
Pr. 882 Regeneration avoidance operation selection
Pr. 885 Regeneration avoidance
compensation frequency limit value
Pr. 886 Regeneration avoidance voltage gain
This function detects a regeneration status and increases the
frequency to avoid the regenerative status.
Setting
Number
Range
882
0 (initial
value)
1
2
883
885
300 to
800V
0 to 10Hz
9999
886
0 to
200%
665
Description
Regeneration avoidance function invalid
Regeneration avoidance function is always valid
Regeneration avoidance function is valid only
during a constant speed operation
Set the bus voltage level at which regeneration
avoidance operates. When the bus voltage level
is set to low, overvoltage error will be less apt to
occur. However, the actual deceleration time
increases. The set value must be higher than
the "power supply voltage × 2 " *.
Set the limit value of frequency which rises at
activation of regeneration avoidance function.
Frequency limit invalid
Adjusts responsiveness at activation of
regeneration avoidance. A larger setting will
improve responsiveness to the bus voltage
change. However, the output frequency could
become unstable. When the load inertia of the
motor is large, decrease the Pr. 886 setting.
When vibration is not suppressed by decreasing
the Pr. 886 setting, set a smaller value in Pr. 665.
∗ For single-phase 100V power input model, "power input voltage × 2 ×
terminal FM to full scale deflection.
FM terminal calibration (C0 (Pr. 900))
y The terminal FM is preset to output pulses. By setting the
calibration parameter C0 (Pr. 900), the meter connected to the
inverter can be calibrated by parameter setting without use of a
calibration resistor.
y Using the pulse train output of the terminal FM, a digital display
can be provided by a digital counter. The monitor value is 1440
pulses/s output at the full-scale value of Pr. 54 FM terminal function
selection.
Indicator
1mA full-scale
analog meter
FM
(Digital indicator)
1mA
(+)
Calibration
resistor *1
T1
(-)
FM
1440 pulses/s(+)
Output
frequency Bus voltage
(VDC)
(Hz)
Pr. 883
Time
During regeneration
avoidance function operation
Time
Refer to the section about Pr. 80.
Refer to the section about Pr. 82.
Refer to the section about Pr. 251.
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
(-)
8VDC
SD
SD
T2
Pulse width T1: Adjust using calibration parameter C0
Pulse cycle T2: Set with Pr. 55 (frequency monitor)
Set with Pr. 56 (current monitor)
∗1 Not needed when the operation panel or parameter unit (FR-PU04/FRPU07) is used for calibration.
Use a calibration resistor when the indicator (frequency meter) needs to
be calibrated by a neighboring device because the indicator is located far
from the inverter.
However, the frequency meter needle may not deflect to full-scale if the
calibration resistor is connected. In this case, use this resistor and
operation panel or parameter unit together.
Refer to the section about Pr. 125.
Regeneration avoidance
operation example for deceleration
53
By using the operation panel or parameter unit, you can calibrate
Pr. C2(902) to C7(905), C22(922) to C25(923)
2 ".
Pr. 800
Pr. 859
Pr. 872
Adjustment of terminal FM output
(calibration)
C0 (Pr. 900)FM terminal calibration
z Possible to avoid regeneration by automatically increasing the
frequency and continue operation if the fan happens to rotate faster
than the set speed due to the effect of another fan in the same duct.
Pr.
Pr. C0(900)
Pr. CL, ALLC, Er.CL, CH
Pr. 990 Setting
0
1
(initial value)
Description
Without buzzer
With buzzer
ALLC All parameter clear
Pr.CH Initial value change list
z Set "1" in Pr.CL parameter clear to initialize all parameters.
(Calibration parameters are not cleared.) ∗
z Set "1" in ALLC All parameter clear to initialize all parameters.∗
z Set "1" in Er.CL Faults history clear to clear faults history.
z Using Pr.CH Initial value change list, only the parameters changed
from the initial value can be displayed.
∗ Parameters are not cleared when "1" is set in Pr. 77 Parameter write
selection.
Pr. 991
PU contrast adjustment
Pr. 991 PU contrast adjustment
Contrast adjustment of the LCD of the parameter unit (FR-PU04/
FR-PU07) can be performed.
Decreasing the setting value makes contrast light.
Pr. 991 Setting
Description
Features
Pr.CL Parameter clear
Er.CL Fault history clear
Connection
example
You can make the buzzer "beep" when you press key of the
operation panel and parameter unit (FR-PU04/FR-PU07)
Clear parameter, initial value change list
Standard
Specifications
Pr. 990 PU buzzer control
Outline
Dimension
Drawings
Buzzer control of the operation panel
Terminal Connection
Diagram
Terminal Specification
Explanation
Pr. 990
0 to 63
È
Inquiry
Warranty
Compatibility
Motor
Instructions
Options
Protective
Functions
Explanations
of
Parameters
Parameter
List
63: Dark
Operation panel
Parameter unit
FR Configurator
0: Light
When setting parameters, refer to the instruction manual (Applied) and understand instructions.
54
Protective Functions
When a fault occurs, the inverter trips and the PU display automatically changes to any of the following fault or alarm indications.
Error message
∗2
Function Name
Appears when operation was tried during operation panel lock.
Password locked
Password function is active. Display and setting of parameter is restricted.
Parameter write error
Appears when an error occurred during parameter writing.
Inverter reset
Appears when the RES signal is on.
Stall prevention (overcurrent)
Appears during overcurrent stall prevention.
Stall prevention (overvoltage)
Electronic thermal relay function prealarm
Appears during overvoltage stall prevention. Appears while the regeneration avoidance function is activated.
Appears if the regenerative brake duty reaches or exceeds 85% of the Pr. 70 Special regenerative brake duty
value. If the regenerative brake duty reaches 100%, a regenerative overvoltage (E. OV_) occurs.
Appears when the electronic thermal O/L relay has reached 85% of the specified value.
PU stop
Appears when
Maintenance signal output ∗7
Appears when the cumulative energization time has exceeded the maintenance output timer set value.
Undervoltage
Appears when the main circuit power became low voltage.
Safety stop ∗10
Appears when safety stop function is activated (during output shutoff).
Fan alarm
Appears when the cooling fan remains stopped when operation is required or when the speed has
decreased.
Overcurrent trip during acceleration
Appears when an overcurrent occurred during acceleration.
Overcurrent trip during constant speed
Overcurrent trip during deceleration
or stop
Regenerative overvoltage trip during
acceleration
Regenerative overvoltage trip during
constant speed
Regenerative overvoltage trip during
deceleration or stop
Inverter overload trip
(electronic thermal relay function)
Motor overload trip
(electronic thermal relay function) ∗1
Fin overheat
Appears when an overcurrent occurred during constant speed operation.
Input phase loss ∗8 ∗9
May appear when one phase voltage is lost or differs greatly from others in three-phases power supply.
Stall prevention stop
Appears when the output frequency drops to 1Hz as a result of deceleration due to the excess motor load.
This function stops the inverter output if an alarm occurs in the brake circuit, e.g. damaged brake
transistors. In this case, the inverter must be powered off immediately.
Warnings
∗3
Regenerative brake prealarm ∗7
Alarms
∗4
Description
Operation panel lock
Brake transistor alarm detection
Output side earth (ground) fault
overcurrent at start ∗7
Display
to
on the operation panel was pressed during external operation.
Appears when an overcurrent occurred during deceleration and at a stop.
Appears when an overvoltage occurred during acceleration.
Appears when an overvoltage occurred during constant speed operation.
Appears when an overvoltage occurred during deceleration and at a stop.
Appears when the electronic thermal relay function for inverter element protection was activated.
Appears when the electronic thermal relay function for motor protection was activated.
Appears when the heatsink overheated.
Appears when an earth (ground) fault occurred on the inverter's output side. (detects only at a start)
If one of the three phases (U, V, W) on the inverter's output side (load side) is lost during inverter operation
(except during DC injection brake operation and when output frequency is under 1Hz), inverter stops the output.
External thermal relay operation∗6 ∗7 Appears when the external thermal relay connected to the OH signal was activated.
Fault
∗5
Output phase loss
Option fault
Appears when communication option is installed during password lock (Pr. 296 Password lock level = "0, 100").
Communication option fault
Parameter storage device fault
Appears when a communication error occurred in the communication option.
Appears when a contact fault or the like of the connector between the inverter and communication
option occurs.
Appears when operation of the element where parameters stored became abnormal. (control board)
Internal board fault
When a combination of control board and main circuit board is wrong, the inverter is tripped.
Option fault
Retry count excess ∗7
Appears when a communication error between the PU and inverter occurred, the communication
interval exceeded the permissible time during the RS-485 communication with the PU connector, or
communication errors exceeded the number of retries during the RS-485 communication.
Appears when the operation was not restarted within the set number of retries.
CPU fault
Appears during the CPU and peripheral circuit errors occurred.
Inrush current limit circuit fault
Appears when the resistor of the inrush current limit circuit overheated.
Appears if voltage(current) is input to terminal 4 when the setting in Pr.267 Terminal 4 input selection
and the setting of voltage/current input switch are different.
PU disconnection
Analog input fault
Brake sequence error ∗7
The inverter output is stopped when a sequence error occurs during use of the brake sequence
function (Pr. 278 to Pr. 285).
USB communication fault
Appears when USB communication error occurred.
Safety circuit fault ∗10
Stop the inverter output when an internal circuit fault occurred.
Internal circuit fault
Appears when an internal circuit error occurred.
∗1 Resetting the inverter initializes the internal thermal integrated data of the electronic thermal relay function.
∗2 The error message shows an operational error. The inverter output is not shut off.
∗3 Warnings are messages given before fault occur. The inverter output is not shut off.
∗4 Alarms warn the operator of failures with output signals. The inverter output is not shut off.
∗5 When faults occur, the protective functions are activated to inverter trip and output the fault signals.
∗6 The external thermal operates only when the OH signal is set in Pr. 178 to Pr. 184 (input terminal function selection).
∗7 This protective function does not function in the initial status.
∗8 Protective function activates when Pr.872 Input phase loss protection selection = "1".
∗9 Available for only three-phase power input models.
∗10This function is only available for the safety stop function model.
55
/
/
/
to
Option and Peripheral Devices
Option list
FR-E7TR
Multi-drop connection is easy with the 2 port terminal block adapted for EIA-485 (RS-485)
communication terminal.
Parameter unit (8 languages)
FR-PU07
FR-PU04
Interactive parameter unit with LCD display
This parameter unit enables parameter setting without connecting the inverter to power
supply.
This operation panel enables inverter operation and monitoring of frequency, etc. from the
enclosure surface
Cable for connection of operation panel or parameter unit
… indicates a cable length. (1m, 3m, 5m)
Parameter unit with battery pack
FR-PU07BB
Enclosure surface operation panel
FR-PA07
Parameter unit connection cable
FR-CB20…
USB cable
MR-J3USBCBL3M
Cable length 3m
Intercompatibility attachment
FR-E7AT01 to 03 inverter.
DIN rail attachment
FR-UDA01 to 03 Attachment for installation on DIN rail
AC reactor
FR-HAL
DC reactor
FR-HEL
EMC Directive compliant noise filter
SF, FR-E5NF,
FR-S5NFSA
Connector for amplifier
mini-B connector (5 pin)
Connector for personal computer
A connector
For installation of a FR-E700 series inverter to the installation holes of FR-A024/A044 series
For harmonic current reduction and inverter input power factor improvement (total power
factor approx. 88%)
For harmonic current reduction and inverter input power factor improvement (total power
factor approx. 93%)
EMC Directive (EN61800-3 C3) compliant noise filter
FR-A5AT03
FR-AAT02
For installation of the inverter to the EMC Directive compliant EMC filter (SF).
FR-E5T(-02)
Shared among all
models
Compatible with the
3.7K or less
Compatible with the
3.7K or less
According to
capacities
According to
capacities
200V: According to
capacities
According to
capacities
200V: According to
capacities
FR-BIF(H)
FR- BSF01,
FR- BLF
For radio noise reduction (connect to the input side)
Filterpack
FR-BFP2
Combination of power factor improving DC reactor, common mode choke, and capacitative
filter
Three-phase power
input model:
compatible with
0.4K or more
Brake resistor
High-duty brake resistor
Brake unit, Resistor unit,
Discharging resistor
Power regeneration common converter
Stand-alone reactor dedicated for the FR-CV
MRS type, MYS type
FR-ABR
FR-BU2, FR-BR,
GZG, GRZG type
FR-CV
FR-CVL
For increasing the regenerative braking capability (permissible duty 3%ED)
For increasing the regenerative braking capability (permissible duty 10%/6%ED)
For increasing the braking capability of the inverter (for high-inertia load or negative load)
Brake unit, electrical-discharge resistor and resistor unit are used in combination
For the 0.4K or
more
YM206NRI 1mA
Dedicated frequency meter (graduated to 120Hz). Moving-coil type DC ammeter
RV24YN 10kΩ
For frequency meter calibration. Carbon film type B characteristic
FR-SW3SETUP-WE
Supports an inverter startup to maintenance.
Manual controller
DC tach. follower
Three speed selector
Motorized speed setter
Ratio setter
Speed detector
Master controller
Soft starter
Deviation detector
Preamplifier
Pilot generator
Deviation sensor
Frequency setting potentiometer
Analog frequency meter
(64mm × 60mm)
Calibration resistor
FR Configurator SW3 (VFD setup
software)
For line noise reduction
Shared among all
models
Connection
example
Standard
Specifications
Instructions
Unit which can return motor-generated braking energy back to the power supply in common
converter system
According to
The high power factor converter switches the converter section on/off to reshape an input
capacities
current waveform into a sine wave, greatly suppressing harmonics. (Used in combination with
FR-HC
the standard accessory.)
400V: According to
FR-ASF
capacities
Filter for suppressing surge voltage on motor
400V: For the 5.5K
FR-BMF
or more
For independent operation. With frequency meter, frequency potentiometer and start switch.
FR-AX
For synchronous operation (1VA) by external signal (0 to 5V, 0 to 10V DC)∗2
FR-AL
For three speed switching, among high, middle and low speed operation (1.5VA)∗2
FR-AT
For remote operation. Allows operation to be controlled from several places (5VA)∗2
FR-FK
For ratio operation. The ratios of five inverters can be set (3VA)∗2
FR-FH
For tracking operation by a pilot generator (PG) signal (3VA)∗2
FR-FP
Master controller (5VA) for parallel operation of multiple (maximum 35) inverters.∗2
FR-FG
For soft start and stop. Enables acceleration/deceleration in parallel operation (3VA)∗2
FR-FC
Shared among all
For continuous speed control operation. Used in combination with a deviation sensor or
models
FR-FD
synchro (5VA)∗2
Used as an A/V converter or arithmetic amplifier (3VA)∗2
FR-FA
For tracking operation. 70V/35VAC 500Hz (at 2500r/min)
QVAH-10
YVGC-500W-NS For continuous speed control operation (mechanical deviation detection) Output 90VAC/90ºC
For frequency setting. Wire-wound 2W 1kΩ type B characteristic
WA2W 1kΩ
Motor
Line noise filter
Compatibility
Radio noise filter
Shared among all
models
Shared among all
models
Warranty
EMC compliant EMC filter
installation attachment
Shared control
circuit model ∗1
Outline
Dimension
Drawings
RS-485 2-port terminal block
Terminal Connection
Diagram
Terminal Specification
Explanation
y This option allows the inverter to be operated or monitored or the parameter setting to be
changed from programmable controller, etc.
PROFIBUS-DP communication FR-A7NP E kit
Surge voltage suppression filter
FR series manual
controller/speed controller
FR-A7NC E kit
FR-A7NL E kit
FR-A7ND E kit
Operation panel
Parameter unit
FR Configurator
FR-A7AR E kit
CC-Link communication
LONWORKS communication
DeviceNet communication
Parameter
List
Relay output
y This input interface sets the high frequency accuracy of the inverter using an external BCD
or binary digital signal.
y BCD code 3 digits (maximum 999)
y BCD code 4 digits (maximum 9999)
y Binary 12 bits (maximum FFFH)
y Binary 16 bits (maximum FFFFH)
y This option provides the inverter with open collector outputs selected from among the
standard output signals.
y This option adds two different signals that can be monitored at the terminals AM0 and AM1, such
as the output frequency, output voltage and output current.
Shared control
y 20mADC or 10VDC meter can be connected.
circuit model ∗1
y This option provides the inverter with three different relay contact outputs selected from
among the standard output signals.
Explanations
of
Parameters
FR-A7AY E kit
Applicable
Inverter
Protective
Functions
Digital output
Extension analog output
Applications, Specifications, etc.
Options
FR-A7AX E kit
Communication
16-bit digital input
High power factor converter
Others
Model
Inquiry
Stand-alone shared
Control
terminal
Plug-in type
Name
Features
By fitting the following options to the inverter, the inverter is provided with more functions.
One type of plug-in option can be mounted.
Shared among all
models
(Available soon)
∗1 Safety stop function model is not supported by the option.
∗2 Rated power consumption. The power supply specifications of the FR series manual controllers and speed controllers are 200VAC 50Hz, 220V/220VAC 60Hz, and 115VAC 60Hz.
56
Control terminal option
Name (Model)
Specifications, Structure, etc.
z Use the option in exchange with standard control circuit terminals. (This option cannot be used
simultaneously with the operation panel (FR-PA07) or parameter unit (FR-PU04/FR-PU07). )
∗1 When using terminals PC-SD as a
24VDC power supply, take care not
to short across terminals PC-SD.
∗2 Terminal input specifications can be
changed
by
analog
input
specifications switchover (Pr. 73).
∗3 Terminal input specifications can be
changed
by
analog
input
specifications switchover (Pr. 267).
Set the voltage/current input switch
in the "V" position to select voltage
input (0 to 5V/0 to10V) and "I" (initial
value) to select current input (4 to
20mA).
∗4 It is recommended to use 2W1kΩ
when the frequency setting signal is
changed frequently.
∗5 It is not necessary when calibrating
the indicator from the operation
panel.
∗6 Set the switch to the right (ON)
position to pass a shielded wire
across terminal SG.
∗7 Set only the terminating resistor
switch of the remotest inverter to the
"100Ω" position.
z Terminal connection diagram
Control input signals (No voltage input allowed)
Forward rotation start
Terminal functions
STF
C
Relay output
STR
B
RH
A
Terminal functions vary by
Relay output Pr. 192 A,B,C terminal
(Alarm output) function selection
Reverse rotation start
High speed
RM
Multi-speed Middle speed
selection
Low speed
RUN
FU
MRS
Frequency setting signals (Analog)
SE
24V
PC *1
N
1
Terminal 4 input (+)
(Current input) (-)
SG
(Analog common)
4 4 to 20mADC
0 to 5VDC *3
0 to 10VDC
I
EIA-485 (RS-485)
communication signal
From the computer
or previous inverter
OPEN
100Ω
To the next inverter
z Terminal layout
Description
Communication protocol
Mitsubishi inverter protocol (computer link
communication), Modbus-RTU protocol
Conforming standard
EIA-485 (RS-485)
OPEN
100
4800/9600/19200/38400bps
SDA SDB RDA RDB SG
Communication method
Half-duplex system
Terminating resistor
100Ω (valid/invalid can be changed with a
terminating resistor switch)
2
SINK
32 units maximum
Communication speed
4
V
10
Number of connectable
devices
SDA SDB
RDA RDB RUN FU
FM
A
B
RL
SOURCE
Item
FR-E7TR
Moving-coil type
1mA full-scale
-
*5
SDA
SDA
SDB
SDB
RDA
RDA
RDB
RDB
Terminating
resistor switch *7
z Communication
terminal block
SD
V
Voltage/current
input switch *3
RS-485 2port
Indicator (Frequency meter, etc.)
FM
Terminal
2/SG switch
*6
2 0 to 5VDC *2
(0 to 10VDC)
O
2
Open collector output common
Sink/source common
Calibration
resistor +
10(+5V)
3
Frequency setting
potentiometer
1/2W1kΩ
*4
SD
SINK
Reset
Contact input common
24VDC power supply
(Common for external power supply transistor)
SOURCE
Output stop
RES
Open collector output
Terminal functions vary with the
output terminal assignment (Pr.
190, Pr. 191)
Frequency detection
Running
RL
I
vary with the input
terminal assignment
(Pr. 178 to Pr. 184)
SE
RM RH MRS RES SD
PC
STF
STR
SD SD
C
z Control terminal specifications
RS-485 communication
Terminal Symbol
Description
Inverter send+
Sending signal output terminal from the inverter.
SDB (2 points)
Inverter send-
Inverse sending signal output terminal from the inverter.
RDA (2 points)
Inverter receive+
Receive signal input terminal of the inverter.
Changing the terminating resistor switch to "100Ω" side connects the inverter to the 100Ω
terminating resistor.
RDB (2 points)
Inverter receive-
Receive signal input terminal of the inverter.
Changing the terminating resistor switch to "100Ω" side connects the inverter to the 100Ω
terminating resistor.
Frequency setting power supply
Used as power supply when connecting potentiometer for frequency setting (speed setting)
from outside of the inverter. (Specifications are the same as the standard control circuit
terminal)
10
Frequency setting
Terminal Name
SDA (2 points)
2
4
SG
Frequency setting (voltage)/
Common terminal
Frequency setting (current)
Inputting 0 to 5VDC (or 0 to 10V) provides the maximum output frequency at 5V (10V) and
makes input and output proportional. (Specifications are the same as the standard control
circuit terminal)
Set terminal 2/SG switch to the right position (ON) to change terminal 2 to terminal SG to
pass a shielded wire across terminal SG during RS-485 communication. In this case,
voltage at terminal 2 is 0V input.
Inputting 4 to 20mADC (or 0 to 5V, 0 to 10V) provides the maximum output frequency at
20mA and makes input and output proportional. (Specifications are the same as the standard
control circuit terminal)
RS-485 communication common, Common terminal of RS-485 communication and frequency setting signal (terminal 2 or
Analog common
terminal 4). Do not earth (ground).
∗ Specifications of contact input (STF, STR, RH, RM, RL, MRS, RES, SD, PC) and output signal (A. B, C, RUN, FU, SE, FM) are the same as the
standard control circuit terminal.
57
Name (Model)
Features
Stand-alone option
Specifications, Structure, etc.
z FR-A024/A044 series intercompatibility attachment
FR-E7AT03
—
—
1.5K
2.2K
3.7K
26.5
26.5
48.5
39.5
31.5
—
21.5
28.5
—
—
1.5K
2.2K
3.7K
—
—
11
11
11
z Attachment to enable installation of FR-E700 series on DIN rail.
E720
0.1K, 0.2K, 0.4K, 0.75K
1.5K,2.2K
3.7K
FR-UDA01
FR-UDA02
FR-UDA03
Inverter Capacity
E720S
0.1K,0.2K,0.4K
0.75K,1.5K
E710W
0.1K,0.2K,0.4K
0.75K
—
—
Terminal Connection
Diagram
Terminal Specification
Explanation
Selection table
Attachment Model
z Approximate dimension
DIN rail mounting
<FR-UDA02>
68
67
attachments
<FR-UDA03>
108
67
128
128
14.4
3-M4 0.7 screw
8.7
8.7
8.7
128
FR-UDA……
Hook
170
67
15
10
15
Hook
4-M4 0.7 screw
Hook
Parameter
List
<FR-UDA01>
4-M4 0.7 screw
(Unit: mm)
z Outline dimension
(Unit: mm)
(for power
FR-HAL-(H)…K
200V
coordination)
0.4K
0.75K
1.5K
2.2K
3.7K
5.5K
7.5K
11K
15K
W
D
H
104
104
104
115
115
115
130
160
160
72
74
77
77
83
83
100
111
126
99
99
99
115
115
115
135
164
167
Mass Inverter Model
(kg)
0.6
0.8
1.1
1.5
2.2
2.3
4.2
5.2
7.0
H0.4K
H0.75K
H1.5K
H2.2K
H3.7K
H5.5K
H7.5K
H11K
H15K
W
D
H
Mass
(kg)
135
135
135
135
135
160
160
160
220
59.6
59.6
59.6
59.6
70.6
72
91
91
105
115
115
115
115
115
142
142
146
195
1.5
1.5
1.5
1.5
2.5
3.5
5.0
6.0
9.0
Less than D
Protective
Functions
Inverter Model
400V
AC reactor
Connection
example
Increased Depth (mm)
200V class
400V class
Standard
Specifications
FR-E7AT02
0.1K
0.2K
0.4K
0.75K
1.5K
—
2.2K
3.7K
Outline
Dimension
Drawings
FR-E7AT01
Compatible Former Models
A024
A044
Operation panel
Parameter unit
FR Configurator
0.1K
0.2K
0.4K
0.75K
1.5K
—
2.2K
3.7K
Explanations
of
Parameters
FR-E7AT……
Mountable Models
E720
E740
Attachment Model
attachment
H
Options
Intercompatibility
Inverter
FR-E7AT
12
The FR-E700 series inverter can be installed using installation holes of the conventional
FR-A024/A044 series with this attachment. This attachment is useful for replacing the
conventional model with the FR-E700 series.
(The depth increases after installation of the inverter when the attachment is used. )
W
Instructions
(Note) 1. Make selection according to the applied motor capacity. (When the inverter capacity is larger than
the motor capacity, make selection according to the motor capacity)
2. Power factor improving reactor (FR-BAL) can be used.
Power factor improving effect :FR-BAL approx. 90%
FR-HAL approx. 88%
(Effect of power factor may decline slightly when using a single-phase power input model.)
3. Outline dimension drawing shown is a one of a typical model. The shape differs according to each models.
4. Install the AC reactor (FR-HAL) on horizontal or vertical plane.
z Outline dimension
(Note) 1.
2.
3.
4.
5.
6.
7.
8.
61
61
70
70
82
92
98
112
115
71
81
81
81
92
92
113
133
133
0.4
0.5
0.8
0.9
1.5
1.9
2.5
3.3
4.1
H0.4K
H0.75K
H1.5K
H2.2K
H3.7K
H5.5K
H7.5K
H11K
H15K
W
D
H
Mass
(kg)
90
66
66
76
86
96
96
105
105
60
70
80
80
95
100
105
110
125
78
100
100
110
120
128
128
137
152
0.6
0.8
1
1.3
2.3
3
3.5
4.5
5
Less than D
H
Compatibility
70
85
85
85
77
77
86
105
105
Mass Inverter Model
(kg)
W
Warranty
FR-HEL-(H)…K
H
Be sure to remove the jumper across the inverter terminals P/+-P1. (A failure to do so will produce no power factor improving effect))
The wiring length between the reactor and inverter should be within 5m.
The size of the cables used should be equal to or larger than that of the power supply cables (R/L1, S/L2, T/L3).
Make selection according to the motor capacity. (When the inverter capacity is larger than the motor capacity, make selection according to
the motor capacity)
Power factor improving reactor (FR-BEL) can be used.
Power factor improving effect : FR-BEL approx.95%
FR-HEL approx.93%
(Effect of power factor may decline slightly when using a single-phase 200V power input model.)
Outline dimension drawing shown is a one of a typical model.
The shape differs according to each models.
Install the DC reactor (FR-HEL) on horizontal or vertical plane.
Single-phase 100V power input model is not compatible with the DC reactor.
Inquiry
coordination)
D
400V
(for power
200V
DC reactor
0.4K
0.75K
1.5K
2.2K
3.7K
5.5K
7.5K
11K
15K
W
Motor
(Unit: mm)
Inverter Model
58
Name (Model)
Specifications, Structure, etc.
z The EMC compliant EMC filter (EN61800-3 2nd Environment Category C3) is a filter compliant with the EU EMC Directive (EN61800-3 2nd
Environment Category C3).
EMC Directive
compliant EMC filter
SF…
FR-E5NF-H…K
(400V class)
FR-S5NFSA-…K
(100V / 200V class)
Intercompatibility
attachment*1
FR-E720-0.1K to 1.5K
FR-E720-2.2K, 3.7K
FR-E720S-2.2K
FR-E720-5.5K, 7.5K
SF1260
FR-E720-11K
SF1261
FR-E720-15K
SF1175
FR-E740-11K, 15K
SF1320
FR-E720S-0.1K to 0.4K
SF1321
FR-E720S-0.75K
FR-E5NF-H0.75K FR-E740-0.4K, 0.75K
FR-E5NF-H3.7K FR-E740-1.5K to 3.7K
FR-E5NF-H7.5K
FR-E740-5.5K, 7.5K
FR-S5NFSAFR-E710W-0.1K to 0.4K
0.75K
FR-E720S-1.5K
FR-S5NFSA-1.5K
FR-E710W-0.75K
Outline dimension
(Unit: mm)
W
H
D
Leakage
current
Mass
Loss
(mA) *2
(kg) (reference (W)
value)
SF1306
—
110
200
36
0.7
10
7.3
SF1309
FR-E5T
200
282
57
2.1
15
15
H
Applicable inverter
model
EMC filter Model
FR-E5T-02
FR-A5AT03
FR-AAT02
FR-AAT02
—
—
—
—
—
222
468
80
5
440
118
253
253
70
110
140
140
220
600
530
168
168
210
210
210
86
60
30.5
36.5
46
46
47
9.3
4.7
0.4
0.6
1.1
1.2
2
71
76
10
10
22.6
44.5
68.4
37
56
2.7
3.8
5.5
8
15
—
70
168
35
0.5
4.5
1.74
—
110
168
35
0.7
9.5
8.55
W
D
(Note) Above outline dimension
drawing is an example.
Dimensions differ by model.
∗1 Depth is 12mm deeper when an intercompatibility attachment is installed.
∗2 Leakage current for one phase of three-phase three-wire star-connection power supply. Leakage current for all phases of threephase three-wire delta-connection power supply is three times greater than the indicated value.
z Countermeasures for leakage current
Take the following actions to prevent malfunction of peripheral devices or an electric shock caused by leakage current.
1) Earth (ground) the EMC filter before connecting the power supply. When doing so, confirm that earthing (grounding) is
securely performed through the earthing (grounding) part of the enclosure.
2) Select an appropriate earth leakage circuit breaker or an earth leakage relay by considering leakage current of the EMC
filter. Note that earth leakage circuit breaker may not be used in some cases such as when leakage current of the EMC
filter is too large. In that case, use an earth leakage relay with high sensitivity. When both of earth leakage circuit breaker
and earth leakage relay cannot be used, securely earth (ground) as explained in 1).
Radio noise filter
z Outline dimension
FR-BIF (200V class)
RST
FR-BIF-H (400V class)
Red White Blue
Inverter
Green
MCCB
Leakage currents: 4mA
R/L1
S/L2
T/L3
300
Power
supply
φ4.3 hole
29 7
44
58
Earth
Radio noise filter (Ground)
FR-BIF(-H)
4
41
29
(Unit: mm)
(Note) 1. Can not be connected to the inverter output side.
2. Wire should be cut as short as possible, and connect to the inverter terminal block.
z Outline dimension
FR-BSF01
FR-BLF
MCCB
Power
supply
2-φ5
31.5
Line noise filter
φ7
FR- BLF
4.5
35
(for inverters with
small capacities)
65
FR-BSF01
80
85
2.3
Line noise filter
130
65
33
160
180
7
22.5
110
95
Inverter
R/L1
S/L2
T/L3
(Note) 1. Each phase should be wound at least 3
times (4T, 4 turns) in the same direction.
(The greater the number of turns, the more
effective result is obtained.)
When using several line noise filters to
make 4T or more, wind the phases(cables)
together. Do not use different line noise
filters for different phases.
2. When the thickness of the wire prevents
winding, use at least 4 in series and ensure
that the current passes through each phase
in the same direction.
3. Can be used on the output side in the same
way as the input side. When using a line
noise filter at the output side, the filter body
may heat up. Do not wind the cable more
than 3 times (4T) for each line noise filter
installed at the output side.
4. Use FR-BSF01 for the inverters with small
capacities. Thick wires (38mm2 or more)
can not be used. In such cases, use the
FR-BLF.
5. Do not wind an earthing cable.
59
Name (Model)
Specifications, Structure, etc.
z Using the option, the inverter may conform to the Japanese guideline for reduction of harmonic emission.
z The option is available for three-phase 200V/400V class inverters with 0.4K to 15K capacity.
Features
z Specification
• Three-phase 200V power input model
0.4
2.5
1.3
0.75
4.2
1.4
1.5
2.2
3.7
5.5
7.5
11
7
10
16.5
23.8
31.8
45
2.0
2.2
2.8
3.8
4.5
6.7
Install a DC reactor on the DC side.
(93% to 95% of power supply power factor under 100% load)
Install a ferrite core on the input side.
About 4mA of capacitor leakage current ∗2
Open type (IP00)
15
58
7.0
0.4
1.2
1.6
0.75
2.2
1.7
15
29.5
8.2
Power factor improving reactor
Common mode choke
Capacitive filter
Protective structure (JEM1030)
Noise filter
Connection
example
Model FR-BFP2-…K
Permissible inverter output current (A) ∗1
Approximate mass (kg)
∗1 Select a capacity for the load (inverter output) current to be equal to or less than the permissible inverter output current.
∗2 The indicated leakage current is for one phase of the three-phase three-wire star-connection power supply.
z Outline dimension drawing
5
5
4.5
D1
D
W2
D2
Terminal Connection
Diagram
Terminal Specification
Explanation
Operation panel
Parameter unit
FR Configurator
H2
H
H1
H2
C1
D1
D
12.5
4.5
W1
W
Parameter
List
C1
12.5
25
(25)
145
195
220
25
L-bracket for inverter
back installation
(Enclosed with the option) ∗
W2
400V
400V 200V
200V
D1 C C1 C2
50 4.5 4.5 5.3
Capacity
W W1 W2 H
H1 D
D1 D2
60
6
6 5.3
0.4K, 0.75K
68 30 19 218 208 60 30 15
60
6
6 6.4
1.5K, 2.2K
108 55 26.5 188 178 80 55 12.5
50 4.5 4.5 4.3
3.7K
170 120 25 188 178 65 40 12.5
60
6
6 4.3
H0.4K, H0.75K∗
108 55 26.5 188 178 55 30 12.5
60
6
6 6.4
(Unit: mm)
H1.5K, H2.2K, H3.7K 108 55 26.5 188 178 80 55 12.5
∗ L-bracket is not attached when shipped from the factory but is
(Unit: mm)
enclosed with the option. L-bracket is required to install the
∗ The 400V class H0.4K and H0.75K have no slit.
option to the back of inverter.
(Note) 1. The option can be installed to the back or to the side. (The option cannot be installed to the back of FR-E720-5.5K/7.5K, FR-E740-0.4K to 3.7K.)
2. Above outline dimension drawings are examples. Dimensions differ by model.
z Outline dimension
MRS type
200V *1
MYS
type
Motor
230
4.3
60
Round
crimping
terminals
1.25-4
20
(Unit : mm)
Resistance Permissible
Applicable
Value
Power
Motor Capacity
(Ω)
(W)
(kW)
MRS120W200
200
15
0.4
(Note) 1. The temperature of the brake resistor
MRS120W100 150% torque 3%ED
100
30
0.75
becomes 200ºC or more depending on
60
55
1.5, 2.2
the operation frequency, care must be
MRS120W60
100% torque 3%ED
taken for installation and heat
dissipation.
150% torque 3%ED
40
80
2.2, 3.7
MRS120W40
2.
The
brake resistor can not be used with
100% torque 3%ED
the 0.1K and 0.2K.
150% torque 3%ED
50/2
2×80
3.7
MYS220W50 *2
100% torque 6%ED
Control torque /
permissible duty
Warranty
Resistor Model
MRS
type
D
75
85
85
75
85
85
3.5
20
1.2
(Unit : mm)
Brake resistor
MRS type, MYS type
H2
6
7.5
7.5
6
7.5
7.5
220
φ4.3 hole
1.25-4
H1
198
305
305
198
305
305
(Unit: mm)
500
4.3
Round
crimping
terminals
H
210
320
320
210
320
320
MYS type
182
172
42
500
Capacity
5.5K, 7.5K
11K
15K
H5.5K, H7.5K
H11K
H15K
Inquiry
D2
H2
Rating
plate
H
H1
Rating
plate
2-fC hole
H1
5
2-fC hole
Explanations
of
Parameters
2-φ4.5 hole
H1
5
2-φ4.5 hole
<FR-BFP2-5.5K, 7.5K, 11K, 15K>
<FR-BFP2-H5.5K, H7.5K, H11K, H15K>
Protective
Functions
<FR-BFP2-0.4K, 0.75K, 1.5K, 2.2K, 3.7K>
<FR-BFP2-H0.4K, H0.75K, H1.5K, H2.2K, H3.7K>
FR-BFP2-(H)…K
H2
Filterpack
Options
Common mode choke
Capacitive filter
Protective structure (JEM1030)
Noise filter
Instructions
Power factor improving reactor
Outline
Dimension
Drawings
1.5
2.2
3.7
5.5
7.5
11
3.7
5
8.1
12
16.3
23
1.9
2.3
2.6
4.5
5.0
7.0
Install a DC reactor on the DC side.
(93% to 95% of power supply power factor under 100% load)
Install a ferrite core on the input side.
About 8mA of capacitor leakage current ∗2
Open type (IP00)
Compatibility
Model FR-BFP2-H…K
Permissible inverter output current (A) ∗1
Approximate mass (kg)
Standard
Specifications
• Three-phase 400V power input mode
∗1 The option can also be connected to a single-phase 100V class inverter.
∗2 Two unit in parallel
60
Name (Model)
Specifications, Structure, etc.
z Outline dimension
FR-ABR-(H)…K
∗1
∗2
∗3
∗4
H
10%
140 500
40
21
200
0.2
FR-ABR-H0.4K
10%
215 500
40
21
100
0.4
FR-ABR-H0.75K
FR-ABR-2.2K*2
10%
240 500
50
26
60
0.5
FR-ABR-3.7K
10%
215 500
61
33
40
0.8
FR-ABR-5.5K
10%
335 500
61
33
25
1.3
FR-ABR-7.5K
10%
400 500
80
40
20
FR-ABR-11K
6%
400 700 100
50
13
FR-ABR-15K*3
6%
300 700 100
50
18
(×1/2)
Permissible
Brake
Duty
(Ω)
D
Approx. Mass
(kg)
Brake Resistor
Model
W1
Resistance Value
FR-ABR-0.75K
(Ω)
FR-ABR-0.4K
W
Approx. Mass
(kg)
Permissible
Brake
Duty
Outline Dimension
W
W1
D
H
10%
115
500
40
21
1200
0.2
10%
140 500
40
21
700
0.2
FR-ABR-H1.5K
10%
215 500
40
21
350
0.4
FR-ABR-H2.2K
10%
240 500
50
26
250
0.5
FR-ABR-H3.7K
10%
215 500
61
33
150
0.8
FR-ABR-H5.5K
10%
335 500
61
33
110
1.3
2.2
FR-ABR-H7.5K
10%
400 500
80
40
75
2.2
3.5
FR-ABR-H11K
6%
400 700
100
50
52
3.2
2.4
(×2)
FR-ABR-H15K*4
6%
300 700
100
50
18
(×2)
(×2)
400V
brake resistor
200V
High-duty
Brake Resistor
Model
Resistance Value
(Unit: mm)
Outline Dimension
2.4
The option can also be connected to a single-phase 100V class inverter.
For the 1.5K and 2.2K inverter.
For the 15K brake resistor, configure so that two 18Ω resistors are connected in parallel.
For the 15K brake resistor, configure so that two 18Ω resistors are connected in series. FR-ABR-15K is indicated on the resistor.
(same resistor as the 200V class 15K)
D
W1+20
0
W
H
(Note) 1. The regenerative brake duty setting should be less than permissible brake duty in the table
above.
2. The temperature of the brake resistor becomes 300°C or more depending on the operation
frequency, care must be taken for installation and heat dissipation.
3. MYS type resistor can be also used. Note that the permissible brake duty.
4. The brake resistor can not be used with the 0.1K and 0.2K.
5. Do not remove a jumper across terminal P/+ and P1 except when connecting a DC reactor.
z A brake unit is an option that fully enhances the regenerative braking capability of the inverter, and should be used with an electricaldischarge resistor. Select from two discharging resistor according to the required braking torque.
z Specification
<Brake Unit>
200V *
400V
1.5K
3.7K
7.5K
15K
30K
H7.5K
H15K
H30K
Capacity of the motor to be used with differs according to the braking torque and duty (%ED)
GRZG type, FR-BR (refer to the table below for combinations)
Up to 10 units
(note that torque generated is not more than the tolerable overcurrent amount of connected inverter)
0.9
0.9
0.9
0.9
1.4
0.9
0.9
1.4
Model FR-BU2-…
Brake unit
Applicable motor capacity
Connected brake resistor
FR-BU2-(H)…K
Multiple (parallel) operation
Resistor unit
∗ The option can also be connected to a single-phase 100V class inverter.
Approximate mass (kg)
FR-BR-(H)…K
<Discharging resistor>
200V
GZG300W-50Ω GRZG200-10Ω GRZG300-5Ω
Number of connectable devices
One
Three in series Four in series
50
30
20
Brake resistor total resistance value (Ω)
Continuous permissible power (W)
100
300
600
Model GRZG
Discharging resistor
GZG type
GRZG type
GRZG400-2Ω
Six in series
12
1200
<Resistor unit>
200V
Model FR-BR-…
Brake resistor total resistance value (Ω)
Continuous permissible power (W)
Approximate mass (kg)
15K
8
990
15
400V
30K
4
1990
30
H15K
32
990
15
z Combinations of brake unit and resistor unit
Brake Unit
200V
class
400V
class
61
FR-BU2-1.5K
FR-BU2-3.7K
FR-BU2-7.5K
FR-BU2-15K
FR-BU2-30K
FR-BU2-H7.5K
FR-BU2-H15K
FR-BU2-H30K
Discharging Resistor/Resistor Unit Model
GRZG type
FR-BR
—
GZG 300W-50Ω (1)
—
GRZG 200-10Ω (3 in series)
—
GRZG 300-5Ω (4 in series)
FR-BR-15K
GRZG 400-2Ω (6 in series)
—
FR-BR-30K
—
GRZG 200-10Ω (6 in series)
FR-BR-H15K
GRZG 300-5Ω (8 in series)
FR-BR-H30K
GRZG 400-2Ω (12 in series)
H30K
16
1990
30
GRZG200-10Ω
Six in series
60
600
400V
GRZG300-5Ω
8 in series
40
1200
GRZG400-2Ω
12 in series
24
2400
Name (Model)
Specifications, Structure, etc.
z Selection
<When GRZG type is connected>
0.75
1.5
2.2
3.7
5.5
7.5
11
15
FR-BU2-1.5K
FR-BU2-3.7K
FR-BU2-7.5K
FR-BU2-15K
200V
FR-BU2class
100% 30s
FR-BU2-1.5K
FR-BU2-7.5K
FR-BU2-15K
2
×
FR-BU2-15K*1
3.7K
50% 30s
—*2
FR-BU2-H7.5K
FR-BU2-H15K
400V
class
100% 30s
—*2
FR-BU2-H7.5K
FR-BU2-H15K
FR-BU2-H30K
∗1 The number before the model name explains the number of connectable units in parallel.
∗2 The inverter for 400V class 1.5K or less can not be used in combination with a brake unit. To use in combination with a brake unit, use the inverter of
2.2K or more.
<When FR-BR is connected>
The temperature rise of the resistor unit is about a maximum of 100°C. Therefore, use heat-resistant wires (such as glass wires).
Motor Capacity
200V
class
400V
class
Braking torque (%) at short-time rating when 10%ED is 15s
5.5kW 7.5kW 11kW
80
40
15
—
—
65
80
40
15
—
—
65
FR-BU2-15K
%ED
FR-BU2-30K
FR-BU2-H15K
%ED
FR-BU2-H30K
Motor Capacity
15kW
10
30
10
30
FR-BU2-15K
FR-BU2-30K
FR-BU2-H15K
FR-BU2-H30K
200V
class
400V
class
Injection brake
torque (%)
Injection brake
torque (%)
5.5kW 7.5kW 11kW
280
200
120
—
—
260
280
200
120
—
—
260
15kW
100
180
100
180
tb
tb<15s (continuous operation time)
100
tc
Example 2 Lift operation
Regeneration duty factor (operation frequency)%ED
Example 1 Travel operation
Terminal Connection
Diagram
Terminal Specification
Explanation
y
%ED at short-time rating when braking torque is 100%
Speed
Descending
Time t
tb
Time t
tc
t1
FR-BU2-(H)…K
tc
t2 t3
t4
tb=t1+t2+t3+t4
FR-BR-(H)…K
ON
Parameter
List
z Connection diagram
OFF
T *3
Motor
IM
Resistor unit or
discharging resistor P
PR
P
PR
PR
P/+
N/-
*2
Signal for
master/slave
∗1 A jumper is connected across BUE and SD in the
initial status.
∗2 Connect the inverter terminals (P/+, N/-) and
brake unit (FR-BU2) terminals so that their
terminal symbols match with each other.
Incorrect connection will damage the inverter. Do
not remove a jumper across terminal P/+ and P1
except when connecting a DC reactor.
∗3 When the power supply is 400V class, install a
step-down transformer.
A
B
C
P/+
N/-
*2
RES
BUE *1
SD
MSG
SD
MSG
SD
Reset
Brake permission signal
z Outline dimension drawings
<FR-BU2>
PR
A
B
C
P/+
N/-
RES
BUE *1
SD
MSG
SD
MSG
SD
Brake unit
FR-BU2
Brake unit
FR-BU2
When connecting
several brake units
<GZG,GRZG>
Motor
*2
Explanations
of
Parameters
U
V
W
R/L1
S/L2
T/L3
Protective
Functions
Inverter
MC
<FR-BR>
D
D
H
Warranty
W
Compatibility
H
GRZG type
MCCB
Three-phase
AC power supply
H
GZG type
MC
Resistor unit or
discharging resistor
Options
MC
Discharging resistor
W
W
D
(Unit: mm)
(Unit: mm)
(Unit: mm)
Model
W
H
D
Model
W
D
H
FR-BU2-1.5K to 15K
FR-BU2-30K
FR-BU2-H7.5K, H15K
FR-BU2-H30K
68
108
68
108
128
128
128
128
132.5
129.5
132.5
129.5
GZG300W
GRZG200
GRZG300
GRZG400
335
306
334
411
40
26
40
40
78
55
79
79
Model
FR-BR-15K
FR-BR-30K
FR-BR-H15K
FR-BR-H30K
W
H
D
170
340
170
340
450
600
450
600
220
220
220
220
Inquiry
Resistor unit
Operation panel
Parameter unit
FR Configurator
Speed
Ascending
Brake unit
Connection
example
0.4
Standard
Specifications
Motor (kW)
Braking torque
50% 30s
Outline
Dimension
Drawings
Power
Supply
Voltage
Features
The maximum temperature rise of the discharging resistors is approximately 100°C. Use heat-resistant wires and wire to avoid contact
with resistors.
Instructions
y
62
Name (Model)
Specifications, Structure, etc.
z
z
z
z
Enables 100%-torque continuous regeneration to support continuous regenerative operation for line control, etc. (Maximum torque 150% 60s)
Eliminates the need to use a brake unit with each inverter, reducing total space and total cost.
Saves energy since regeneration energy is used for the other inverters and excess energy is returned to the power supply.
Heatsink protrusion type has the heat generating section outside of the enclosure, and exhaust the converter generated heat to the outside
of enclosure.
z Connection diagram
R/L1
S/L2
T/L3
U
*1
V
IM
W
*5
Dedicated stand-alone FR-CV type power
regeneration common converter
reactor (FR-CVL)
MC1
MCCB
R/L11
S/L21
T/L31
Three-phase
AC power supply
R2/L12
S2/L22
T2/L32
R2/L1
S2/L2
T2/L3
P/L+
N/L-
Power regeneration
common converter
FR-CV-(H)…K
P/+
*2
N/-
P24
SD
RDYA
RDYB
RSO
SE
R/L11
S/L21 *4
T/MC1
Inverter
PC
SD
*6
X10
RES
SD
*3
*4
∗1 Keep power input terminals (R/L1, S/L2, T/L3) open. Incorrect connection will damage the inverter. Opposite polarity of terminals N/-, P/+ will damage
the inverter.
∗2 Do not insert an MCCB between the terminals P/+-N/- (between P/L+-P/+, between N/L--N/-). Connect the inverter terminals (P/+, N/-) and power
regeneration common converter terminals so that their terminal symbols match with each other. Incorrect connection will damage the inverter.
Do not remove a jumper across terminal P/+ and P1.
∗3 Assign the terminal for X10 signal using any of Pr. 178 to Pr. 184 (input terminal function selection).
∗4 Always connect the power supply and terminals R/L11, S/L21, T/MC1. If the inverter is operated without connection, the power regeneration common
converter will be damaged.
∗5 Install the dedicated stand-alone reactor (FR-CVL) on horizontal place.
∗6 Be sure to connect terminal RDY of the FR-CV to the X10 or MRS signal assigned terminal of the inverter, and connect terminal SE of the FR-CV to
terminal SD of the inverter. Without proper connecting, FR-CV will be damaged.
z Outline dimension drawings
H
D1
W
D
D
<FR-CVL>
400V
FR-CV-(H)-AT
(Unit mm)
Voltage/Capacity W
H
D
D1 Voltage/Capacity W
H
D
D1
7.5K/11K
110 330 315 115
7.5K/11K/15K
130 330 320 120
15K
130 330 320 120
22K/30K
160 410 350 150
22K/30K
160 410 350 150
200V
D1
W
(Unit mm)
D1 Voltage/Capacity W
H
D
D1
103
7.5K/11K/15K
120 300 305 105
105
122
22K/30K
150 380 305 105
135
37K/55K
400 620 250 135
FR-CVL
Voltage/Capacity
7.5K/11K/15K
22K
30K
37K
55K
(Unit mm)
W
165
165
215
220
250
200V
D
H
H
130
140
160
320
335
D Voltage/Capacity W
H
D
155
7.5K/11K
220 135 200
155
15K
220 135 205
175
22K
220 150 215
200
30K
245 185 220
225
37K
245 230 265
55K
290 230 280
400V
H
FR-CV-(H)
Voltage/Capacity W
H
D
7.5K/11K
90 300 303
15K
120 300 305
22K/30K
150 380 322
37K/55K
400 620 250
400V
<FR-CV-(H)-AT>
200V
<FR-CV-(H)>
W
z Substantially suppresses power harmonics to realize the
equivalent capacity conversion coefficient K5=0 in the "Harmonic
suppression guideline for consumers who receive high voltage or
special high voltage".
z Has the power regeneration function as standard.
z Connects multiple inverters to enable common converter system
operation.
z Specifications
200V
400V
7.5K
15K
30K
55K
H7.5K H15K H30K H55K
Applicable inverter
3.7K to 7.5K to 15K to 30K to 3.7K to 7.5K to 15 to 30K to
capacity (*1)
7.5K
15K
30K
55K
7.5K
15K
30K
55K
Rated input voltage/
Three-phase 200V to 220V 50Hz
Three-phase 380V to 460V 50/
200V to 230V 60Hz
60Hz
frequency
Rated input current (A)
33
61
115
215
17
31
57
110
Rated output voltage (V) (*2)
293V to 335VDC
558V to 670VDC
Type FR-HC……
High power factor
converter
z Outline dimension
FR-HC- (H)…K
(Unit: mm)
200V
Voltage Capacity
Provided appliances
FR-HC
400V
(FR-HCB)
(FR-HCL01)
(FR-HCL02)
∗1 The applicable capacity to the high power
factor converter is the total capacity of the
inverters.
∗2 The output voltage varies with the input voltage
value.
∗3 Reactor 1 FR-HCL01, reactor 2 FR-HCL02 and
outside box FR-HCB are supplied with a high
power factor converter (FR-HC)
7.5K
15K
30K
55K
H7.5K
H15K
H30K
H55K
High Power Factor Converter
FR-HC
W
H
D
220
300
190
250
400
190
340
550
195
480
700
250
220
300
190
250
400
190
340
550
195
480
700
250
Outside box
D
100
130
170
225
100
130
140
190
W
240
260
340
430
240
260
340
400
Reactor 2
FR-HCL02
H
230
270
320
470
220
260
310
380
D
160
170
180
360
160
170
180
285
W
Outside Box
FR-HCB
H
D
190
320
165
270
450
203
190
320
165
270
450
203
Reactor 1, Reactor 2
H
H
H
High power factor converter
W
160
190
220
210
160
190
220
280
Reactor 1
FR-HCL01
H
155
205
230
260
150
195
215
255
W
D
W
W
63
D
D
* Install the reactor (FR-HCL01, 02) on horizontal
plane.
Name (Model)
Specifications, Structure, etc.
z Specifications
z Connection diagram
Rated input AC
voltage∗2
Three phase 380 to 480V
Permissible AC
voltage fluctuation∗2
323 to 528V
Three-phase
AC power
supply
31
Maximum frequency∗2
120Hz
2kHz or less∗3
Protective structure
(JEM 1030)
Open type (IP00)
Cooling system
Self-cooling
Maximum wiring
length
100m or less
FR-BMF
X
Y
Z
TH0
T*
TH1
ON
PWM carrier frequency
Inverter
R
U
S
V
W
T
MC
OFF
MC
MC
* Install a step-down transformer.
9.5
Terminal Connection
Diagram
Terminal Specification
Explanation
5.5
Surrounding air
temperature
-10°C to +50°C(non-freezing)
Ambient humidity
90%RH maximum (non-condensing)
Atmosphere
Indoors (free from corrosive gas, flammable gas,
oil mist, dust and dirt)
Altitude/vibration
Maximum 1,000m above sea level, 5.9m/s2 or
less at 10 to 55Hz (directions of X, Y, Z
axes) ∗4
The applied motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi 4-pole standard motor.
The capacity depends on the specifications of the inverter (400V class) connected.
The setting of Pr.72 PWM frequency selection should be 2kHz or less.
When using with the filter pack installed on the rear panel, do not install this combination on moving objects or places that have vibrations
(exceeding 1.96m/s2).
z Outline dimension
FR-BMF-H7.5K
FR-BMF-H15K
230
208
195
150
4-M5
13.5
2- φ 10 hole
260
230
195
180
2- φ 6 hole
75
45
Motor
IM
Connection
example
150 60s, 200% 0.5s
(inverse-time characteristics)
MCCB
Standard
Specifications
17
∗1
∗2
∗3
∗4
within 100m
15
Overload current
rating∗2
Environment
4-M8
100
50 31
Protective
Functions
4-M4
Rating
plate
Options
245
285
380
480
500
457
Instructions
33
Control terminal block (M3)
10
Motor
10
Red White Blue
(U) (V) (W)
Isolation cap color
Main terminal block (M4)
10
Crimping terminal 5.5-4
80
6
420
7.5
6
Crimping terminal: 8-6
Compatibility
Control terminal block (M3)
(Unit: mm)
Warranty
2.3
Inquiry
2.3
Main terminal block (M5)
2.3
Red White Blue
(U) (V) (W)
Isolation cap color
2.3
Terminal layout
TH0 TH1
X Y Z
205
165
Earth terminal
(M6)
7.5
60
Earth terminal (M5)
Rating
plate
149.5
Terminal layout
TH0 TH1
X Y Z
325
245
325
340
138
6-M5
370
FR-BMF-H…K
11
Rated current (A)
Approximate mass
(kg)
suppression filter
7.5
Outline
Dimension
Drawings
5.5
Operation panel
Parameter unit
FR Configurator
Applicable motor
capacity (kW) ∗1
15
Parameter
List
7.5
Explanations
of
Parameters
Model FR-BMF-H…K
Surge voltage
Features
z When driving the 400V class motor by the inverter, this filter suppresses the surge voltage generates at the motor terminal.
z This can be applied to FR-E740-5.5K to 15K.
z This can be applied to the non insulation-enhanced motor.
64
Peripheral devices/cable size list
Single-Phase 100V Single-Phase 200V
Three-phase 400V
Three-phase 200V
Inverter Model
∗1
Motor
Output
(kW)
Moulded Case Circuit Breaker (MCCB)∗1
or Earth Leakage Current Breaker (ELB)∗2
Magnetic
Contactor (MC)∗3
Reactor connection
Reactor connection
Without
With
Without
With
R/L1,
S/L2,
T/L3∗4
Reactor
U, V, W FR-HAL FR-HEL
FR-E720-0.1K(SC)
0.1
30AF 5A
30AF 5A
S-N10
S-N10
2
2
0.4K*7
0.4K*7
FR-E720-0.2K(SC)
0.2
30AF 5A
30AF 5A
S-N10
S-N10
2
2
0.4K*7
0.4K*7
FR-E720-0.4K(SC)
0.4
30AF 5A
30AF 5A
S-N10
S-N10
2
2
0.4K
0.4K
FR-E720-0.75K(SC)
0.75
30AF 10A
30AF 10A
S-N10
S-N10
2
2
0.75K
0.75K
FR-E720-1.5K(SC)
1.5
30AF 15A
30AF 15A
S-N10
S-N10
2
2
1.5K
1.5K
FR-E720-2.2K(SC)
2.2
30AF 20A
30AF 15A
S-N10
S-N10
2
2
2.2K
2.2K
FR-E720-3.7K(SC)
3.7
30AF 30A
30AF 30A
S-N20, S-N21
S-N10
3.5
3.5
3.7K
3.7K
FR-E720-5.5K(SC)
5.5
50AF 50A
50AF 40A
S-N25
S-N20, S-N21
5.5
5.5
5.5K
5.5K
FR-E720-7.5K(SC)
7.5
100AF 60A
50AF 50A
S-N25
S-N25
14
8
7.5K
7.5K
FR-E720-11K(SC)
11
100AF 75A
100AF 75A
S-N35
S-N35
14
14
11K
11K
FR-E720-15K(SC)
15
225AF 125A
100AF 100A
S-N50
S-N50
22
22
15K
15K
FR-E740-0.4K(SC)
0.4
30AF 5A
30AF 5A
S-N10
S-N10
2
2
H0.4K
H0.4K
FR-E740-0.75K(SC)
0.75
30AF 5A
30AF 5A
S-N10
S-N10
2
2
H0.75K
H0.75K
FR-E740-1.5K(SC)
1.5
30AF 10A
30AF 10A
S-N10
S-N10
2
2
H1.5K
H1.5K
FR-E740-2.2K(SC)
2.2
30AF 15A
30AF 10A
S-N10
S-N10
2
2
H2.2K
H2.2K
FR-E740-3.7K(SC)
3.7
30AF 20A
30AF 15A
S-N10
S-N10
2
2
H3.7K
H3.7K
FR-E740-5.5K(SC)
5.5
30AF 30A
30AF 20A
S-N20, S-N21 S-N11, S-N12
3.5
2
H5.5K
H5.5K
FR-E740-7.5K(SC)
7.5
30AF 30A
30AF 30A
S-N20, S-N21 S-N20, S-N21
3.5
3.5
H7.5K
H7.5K
FR-E740-11K(SC)
11
50AF 50A
50AF 40A
S-N20, S-N21 S-N20, S-N21
5.5
5.5
H11K
H11K
FR-E740-15K(SC)
15
100AF 60A
50AF 50A
S-N25
S-N20, S-N21
8
8
H15K
H15K
FR-E720S-0.1K(SC)
0.1
30AF 5A
30AF 5A
S-N10
S-N10
2
2
0.4K*7
0.4K*7
FR-E720S-0.2K(SC)
0.2
30AF 5A
30AF 5A
S-N10
S-N10
2
2
0.4K*7
0.4K*7
FR-E720S-0.4K(SC)
0.4
30AF 10A
30AF 10A
S-N10
S-N10
2
2
0.75K*7
0.75K*7
FR-E720S-0.75K(SC)
0.75
30AF 15A
30AF 10A
S-N10
S-N10
2
2
1.5K*7
1.5K*7
FR-E720S-1.5K(SC)
1.5
30AF 20A
30AF 20A
S-N10
S-N10
2
2
2.2K*7
2.2K*7
FR-E720S-2.2K(SC)
2.2
50AF 40A
30AF 30A
S-N20, S-N21
S-N10
3.5
2
3.7K*7
3.7K*7
FR-E710W-0.1K
0.1
30AF 10A
30AF 5A
S-N10
S-N10
2
2
0.75K*6, *7
−−− *8
FR-E710W-0.2K
0.2
30AF 10A
30AF 10A
S-N10
S-N10
2
2
1.5K*6, *7
−−− *8
FR-E710W-0.4K
0.4
30AF 15A
30AF 15A
S-N10
S-N10
2
2
2.2K*6, *7
−−− *8
FR-E710W-0.75K
0.75
30AF 30A
30AF 20A
S-N10
S-N10
3.5
2
3.7K*6, *7
−−− *8
MCCB
INV
IM
MCCB
INV
IM
Select an MCCB according to the inverter power supply capacity.
Install one MCCB per inverter.
∗2
HIV Cables, etc.
(mm2)∗5
For the use in the United States or Canada, select a UL and cUL certified fuse with Class T fuse equivalent cut-off speed or faster with the appropriate
rating for branch circuit protection. Alternatively, select a UL489 molded case circuit breaker (MCCB).
∗3
Magnetic contactor is selected based on the AC-1 class. The electrical durability of magnetic contactor is 500,000 times. When the magnetic contactor is
used for emergency stop during motor driving, the electrical durability is 25 times.
When using the MC for emergency stop during motor driving or using on the motor side during commercial-power supply operation, select the MC with
class AC-3 rated current for the motor rated current.
∗4
∗5
When using a single-phase power input model, terminals are R/L1 and S/L2.
The cable size is that of the cable (HIV cable (600V class 2 vinyl-insulated cable) etc.) with continuous maximum permissible temperature of 75°C.
Assumes that the surrounding air temperature is 50°C or less and the wiring distance is 20m or less.
∗6
When connecting a single-phase 100V power input inverter to a power transformer (50kVA or more), install a AC reactor (FR-HAL) so that the performance
is more reliable.
∗7
The power factor may be slightly lower.
∗8
Single-phase 100V power input model is not compatible with DC reactor.
Note
y When the inverter capacity is larger than the motor capacity, select an MCCB and a magnetic contactor according to
the inverter type and cable and reactor according to the motor output.
y When the breaker on the inverter primary side trips, check for the wiring fault (short circuit), damage to internal parts
of the inverter, etc. Identify the cause of the trip, then remove the cause and power on the breaker.
65
0
60
40
20
0
2 3.5 8 142238 80150
5.5
30 60100
0.1 0.2
0.75 2.2 5.5 11 20
0.4
1.5 3.7 7.5 15
Motor capacity (kW)
Example of leakage current of threephase induction motor during the
commercial power supply operation
(Totally-enclosed fan-cooled
type motor 400V60Hz)
2. 0
1. 0
0. 7
0. 5
0. 3
0. 2
0. 1
1.5
2.2
3.7 7.5 15
5.5 11 20
Cable size (mm )
Motor capacity (kW)
For " " connection, the amount of leakage current is appox.1/3 of the above value.
2
Breaker Designed for
Harmonic and Surge
Standard Breaker
Suppression
5m
33 ×
= 0.17
1,000m
Leakage current
Ign (mA)
Leakage current
Igi (mA)
Leakage current
Ig2 (mA)
Motor leakage
current Igm (mA)
Total leakage
current (mA)
Rated sensitivity
current (mA)
(≥Ig×10)
0 (without noise filter)
1
33 ×
50m
1,000m
= 1.65
0.18
3.00
6.66
30
100
Connection
example
Standard
Specifications
Outline
Dimension
Drawings
Terminal Connection
Diagram
Terminal Specification
Explanation
Leakage current
Ig1 (mA)
0.1
0.07
0.05
0.03
0.02
leakage currents (mA)
leakage currents (mA)
Example of leakage current per 1km during
the commercial power supply operation
when the CV cable is routed in metal conduit
(Three-phase three-wire delta
connection 400V60Hz)
80
2 In the
connection earthed-neutral system, the sensitivity current is blunt
against an earth (ground) fault in the inverter output side. Earthing (Grounding)
must conform to the requirements of national and local safety regulations and
electrical codes. (NEC section 250, IEC 536 class 1 and other applicable
standards)
zSelection example (in the case of the above figure)
Cable size (mm2)
100
(Note) 1 Install the earth leakage breaker (ELB) on the input side of the inverter.
1.0
0.7
0.5
0.3
0.2
2 3.5 8 142238 80150
5.5
30 60 100
120
Igm
Operation panel
Parameter unit
FR Configurator
20
Ig2
Igi
Parameter
List
40
Ign
Explanations
of
Parameters
60
Ig1
Protective
Functions
80
3φ
IM 200V2.2kW
Inverter
Options
100
Noise
filter
Instructions
120
50m
(200V 60Hz)
Leakage currents (mA)
Leakage currents (mA)
(200V 60Hz)
ELB
5.5mm2
5m
Motor
Example of leakage current
of three-phase induction motor
during the commercial
power supply operation
Example of leakage current of
cable path per 1km during the
commercial power supply operation
when the CV cable is routed in
metal conduit
5.5mm2
Compatibility
y
Breaker designed for harmonic and surge suppression
Rated sensitivity current I∆n≥10×(Ig1+Ign+Igi+Ig2+Igm)
Standard breaker
Rated sensitivity current I∆n≥10×{Ig1+Ign+Igi+3X(Ig2+Igm)}
Ig1, Ig2: Leakage currents in wire path during commercial power supply
operation
Ign
: Leakage current of inverter input side noise filter
Igm
: Leakage current of motor during commercial power supply operation
Igi
: Leakage current of inverter unit
Warranty
y
Example
Inquiry
When using the earth leakage current breaker with the inverter
circuit, select its rated sensitivity current as follows,
independently of the PWM carrier frequency.
Features
Selecting the rated sensitivity current for the earth leakage current breaker
66
Precautions for Operation/Selection
Precautions for use of the inverter
Installation
z Avoid hostile environment where oil mist, fluff, dust particles,
Safety Precautions
z To operate the inverter correctly and safely, be sure to read the
place or put it in an ingress-protected "enclosed" enclosure.
"instruction manual" before starting operation.
z This product has not been designed or manufactured for use
When placing the inverter in an enclosure, determine the
with any equipment or system operated under life-threatening
cooling system and enclosure dimensions so that the
conditions.
surrounding air temperature of the inverter is within the
z Please contact our sales office when you are considering using
this product in special applications such as passenger mobile,
medical,
aerospace,
nuclear,
power
or
undersea
relay
permissible value. (refer to page 9 for the specified value)
z Do not install the inverter on wood or other flammable material
as it will be hot partly.
z Install the inverter in the vertical orientation.
equipment or system.
z Although this product is manufactured under strict quality
control, safety devices should be installed when a serious
Setting
z The inverter can be operated as fast as a maximum of 400Hz by
accident or loss is expected by a failure of this product.
z The load used should be a three-phase induction motor only.
parameter setting. Therefore, incorrect setting can cause a
danger. Set the upper limit using the maximum frequency limit
Operation
setting function.
z A magnetic contactor (MC) provided on the input side should
z A setting higher than the initial value of DC injection brake
not be used to make frequent starts and stops. It could cause
operation voltage or operation time can cause motor overheat
(electronic thermal relay error).
the inverter to fail.
z However, at this time, the motor cannot be brought to a sudden
z Do not set Pr. 70 Special regenerative brake duty except for using
stop. Hence, provide a mechanical stopping/holding mechanism
the optional brake resistor. This function is used to protect the
for the machine/equipment which requires an emergency stop.
brake resistor from overheating. Do not set the value exceeding
z It will take time for the capacitor to discharge after shutoff of the
inverter power supply.
When accessing the inverter for
inspection, wait for at least 10 minutes after the power supply
has been switched off, and check to make sure that there are no
residual voltage using a tester or the like.
Wiring
z Application of power to the output terminals (U, V, W) of the
inverter will damage the inverter. Therefore, fully check the
wiring and sequence to ensure that wiring is correct, etc. before
powering on.
z The terminals P/+, PR, P1, N/- are provided for connection of a
dedicated option. Do not connect anything other than a
dedicated option and DC power supply.
Do not short the frequency setting power supply terminal 10 and
common terminal 5 or the terminal PC and terminal SD.
Power supply
z When the inverter is connected
under a large-capacity power
transformer (500kVA or more
transformer) or when a power
capacitor is to be switched over,
1500
Power
supply
system 1000
capacity
(kVA)
500
Range
requiring
installation
of the reactor
an excessive peak current may
flow in the power input circuit,
0
Wiring length (m)
10
damaging the inverter.
Also when connecting a single-phase 100V power input inverter
to a power transformer (50kVA or more), install a AC reactor
(FR-HAL) so that the performance is more reliable.
To prevent this, always install an optional AC reactor (FR-HAL).
z If a surge voltage occurs in the power supply system, this surge
energy may flow into the inverter, causing the inverter to display
overvoltage protection (E.OV…) and come to an inverter trip. To
prevent this, always install an optional AC reactor (FR-HAL).
67
etc. are suspended in the air, and install the inverter in a clean
permissible duty of the brake resistor.
Precautions for selection
Power transfer mechanism (reduction
Inverter capacity selection
Features
gear, belt, chain, etc.)
z When an oil-lubricated gear box, speed change/reduction gear
low acoustic noise operation with the surrounding air
temperature exceeding 40°C (totally-enclosed structure is
30°C), decrease the output current according to the rating table
on page 7 . (Also change the Pr. 9 Electronic thermal O/L relay
setting.)
power transfer mechanism.
Instructions for overload operation
z When performing operation of frequent start/stop of the inverter,
rise/fall in the temperature of the transistor element of the
inverter will repeat due to a repeated flow of large current,
Starting torque of the motor
shortening the life from thermal fatigue. Since thermal fatigue is
z The start and acceleration characteristics of the motor driven by
the inverter are restricted by the overload current rating of that
inverter. Generally the torque characteristic is less than when
the motor is started by a commercial power supply. If torque
boost adjustment, Advanced magnetic flux vector control, or
General-purpose magnetic flux vector control cannot provide
enough torque when a large starting torque is necessary, select
the inverter of one rank higher capacity or increase the
capacities of both the motor and inverter.
Acceleration/deceleration times
z The acceleration/deceleration time of the motor depends on the
related to the amount of current, the life can be increased by
Connection
example
strength shortage due to the noise, life or centrifugal force of the
Standard
Specifications
z Setting 2kHz or more in Pr. 72 PWM frequency selection to perform
higher than 60Hz, fully note that such operation will cause
Outline
Dimension
Drawings
output current of the inverter.
lubrication, causing seizure. When performing fast operation at
reducing current at locked condition, starting current, etc.
Decreasing current may increase the life. However, decreasing
current will result in insufficient torque and the inverter may not
start. Therefore, choose the inverter which has enough
allowance for current.
Terminal Connection
Diagram
Terminal Specification
Explanation
1.1 times the total rated motor current is less than the rated
continuous operation at low speed only may deteriorate oil
Operation panel
Parameter unit
FR Configurator
parallel with a single inverter, select the inverter capacity so that
or similar device is used in the power transfer system, note that
Parameter
List
z When operating a special motor or more than one motor in
the load (J).
z When the torque limit function or stall prevention function is
activated
during
acceleration/deceleration,
increase
the
Explanations
of
Parameters
motor-generated torque, load torque and moment of inertia of
longer.
z To decrease the acceleration/deceleration time, increase the
torque boost value (setting of a too large value may activate the
Protective
Functions
acceleration/deceleration time as the actual time may become
stall prevention function at a start, longer the acceleration time),
Options
use the advanced magnetic flux vector control or generalpurpose magnetic flux vector control or increase the inverter
and motor capacities. To decrease the deceleration time, it is
Instructions
necessary to add optional brake resistor MRS type, MYS type,
or FR-ABR (for the 0.4K or more), the brake unit (FR-BU2),
power regeneration common converter (FR-CV), or a similar
Inquiry
Warranty
Compatibility
Motor
device to absorb braking energy.
68
Precautions for Peripheral Device Selection
Installation and selection of
moulded case circuit breaker
Install a moulded case circuit breaker (MCCB) on the power
receiving side to protect the wiring of the inverter input side. For
MCCB selection, refer to page 65 since it depends on the inverter
power supply side power factor (which changes depending on the
power supply voltage, output frequency and load). Especially for a
completely electromagnetic MCCB, one of a slightly large capacity
must be selected since its operation characteristic varies with
harmonic currents. (Check it in the data of the corresponding
breaker.) As an earth leakage current breaker, use the Mitsubishi
earth leakage current breaker designed for harmonics and surge
suppression. (Refer to page 66)
When installing a moulded case circuit breaker on the output side
of the inverter, contact each manufacturer for selection of the
moulded case circuit breaker.
Handling of the inverter input side
magnetic contactor
z For operation via external terminal (terminal STF or STR used),
provide an input side MC to prevent an accident caused by a
natural restart at power recovery after a power failure, such as
an instantaneous power failure, and to ensure safety for
maintenance work. Do not use this magnetic contactor to make
frequent starts and stops. (The switching life of the inverter input
circuit is about 1,000,000 times.) For parameter unit operation,
an automatic restart after power failure is not made and the MC
cannot be used to make a start. Note that the primary side MC
may be used to make a stop but the regenerative brake specific
to the inverter does not operate and the motor is coasted to a
stop.
z Installation of a magnetic contactor at the input side is
recommended. A magnetic contactor avoids overheat or
burnout of a brake resistor when heat capacity of the resistor is
insufficient or a brake regenerative transistor is damaged with
short while connecting an optional brake resistor. In this case,
shut-off the magnetic contactor when fault occurs and inverter
trips.
Handling of the inverter output
side magnetic contactor
Switch the magnetic contactor between the inverter and motor
only when both the inverter and motor are at a stop. When the
magnetic contactor is turned on while the inverter is operating,
overcurrent protection of the inverter and such will activate. When
an MC is provided for switching to the commercial power supply,
for example, switch it on/off after the inverter and motor have
stopped.
Thermal relay installation
The inverter has an electronic thermal relay function to protect the
motor from overheating. However, when running multiple motors
with one inverter or operating a multi-pole motor, provide a thermal
relay (OCR) between the inverter and motor. In this case, set the
electronic thermal relay function of the inverter to 0A. And for the
setting of the thermal relay, add the line-to line leakage current
(refer to page 70) to the current value on the motor rating plate.
For low-speed operation where the cooling capability of the motor
reduces, it is recommended to use a thermal relay protector
incorporated motor.
Measuring instrument on the
output side
69
When the inverter-to-motor wiring length is large, especially in the
400V class, small-capacity models, the meters and CTs may
generate heat due to line-to-line leakage current. Therefore,
choose the equipment which has enough allowance for the current
rating.
Disuse of power factor improving
capacitor (power capacitor)
The power factor improving capacitor and surge suppressor on the
inverter output side may be overheated or damaged by the
harmonic components of the inverter output. Also, since an
excessive current flows in the inverter to activate overcurrent
protection, do not install a capacitor or surge suppressor. For
power factor improvement, use a DC reactor (refer to page 58).
Wire thickness and wiring distance
When the wiring length between the inverter and motor is long,
use thick wires so that the voltage drop of the main circuit cable is
2% or less especially at low frequency output. (A selection
example for the wiring distance of 20m is shown on page 65)
Especially at a long wiring distance, the maximum wiring length
should be within the length in the table below since the overcurrent
protection function may be misactivated by the influence of a
charging current due to the stray capacitances of the wiring.
(The overall wiring length for connection of multiple motors should
be within the value in the table below.)
Pr. 72 Setting
0.1K
(carrier frequency)
100V,
200m
1 or less 200V
400V
—
100V,
30m
2 to 15 200V
400V
—
0.2K
0.4K
0.75K
1.5K
2.2K
3.7K or
more
200m
300m
500m
500m
500m
500m
—
200m
200m
300m
500m
500m
100m
200m
300m
500m
500m
500m
—
30m
100m
200m
300m
500m
When using the automatic restart after instantaneous power failure
function with wiring length exceeding 100m, select without
frequency search (Pr. 162 = "1, 11").
Use the recommended connection cable when connecting the
parameter unit.
For remote operation via analog signal, wire the control cable
between the operation box or operation signal and inverter within
30m and away from the power circuits (main circuit and relay
sequence circuit) to prevent induction from other devices.
When using the external potentiometer instead of the parameter
unit to set the frequency, use a shielded or twisted cable, and do
not earth (ground) the shield, but connect it to terminal 5 as shown
below.
(3)
(2)
(1)
Frequency setting Twisted
potentiometer
cable
10(10E)
2
5
(3)
Shielded cable
(2)
(1)
Frequency setting
potentiometer
10(10E)
2
5
Since its value depends on the static capacitances, carrier
the inverter and motor before use. In addition, always use the
frequency, etc., low acoustic noise operation at the increased
earth (ground) terminal of the inverter to earth (ground) the
carrier frequency of the inverter will increase the leakage current.
inverter. (Do not use the case and chassis)
Therefore, take the following measures. Select the earth leakage
current breaker according to its rated sensitivity current,
independently of the carrier frequency setting. (Refer to page 66)
Type
Influence and Measures
following measure example and consider taking the measures.
y Leakage currents may flow not only into the inverter's
Depending on the installation condition, the inverter may be
own line but also into the other line through the earth
affected by noise in a non-low noise (initial) status.
(ground) cable, etc. These leakage currents may
z The noise level can be reduced by decreasing the carrier
operate earth (ground) leakage circuit breakers and
earth leakage relays unnecessarily.
frequency (Pr. 72).
y If the carrier frequency setting is high, decrease the Pr.
72 PWM frequency selection setting.
Note that motor noise increases. Select Pr. 240 Soft-
BSF01, FR-BLF produces an effect.
PWM operation selection to make the sound inoffensive.
z As measures against induction noise from the power cable of
y By using earth leakage circuit breakers designed for
the inverter, an effect is produced by putting a distance of 30cm
harmonic and surge suppression in the inverter's own
(at least 10cm) or more and using a twisted pair shielded cable
line and other line, operation can be performed with the
carrier frequency kept high (with low noise).
as a signal cable. Do not earth (ground) shield but connect it to
signal common cable.
Inverter
power
supply
Install capacitor type FR-BIF filter
on inverter input side.
Separate inverter and power
line by more than 30cm (at
least 10cm) from sensor circuit.
Control
power
supply
Do not earth (ground)
enclosure directly.
FRBSF01
Inverter
FRBIF
Power
supply
for sensor
FRBSF01
Install common mode filter
on inverter output side.
FR- BLF
FR- BSF01
current path
Use a twisted pair shielded cable
Sensor
C
NV2
Motor
C
Leakage
breaker
IM Motor
Use 4-core cable for motor
power cable and use one
cable as earth (ground) cable.
Motor
C
Leakage
breaker
Explanations
of
Parameters
Decrease
Enclosure carrier frequency
Undesirable
Line leakage current
Type
Influence and Measures
• This leakage current flows via a static capacitance
Do not earth (ground) shield but
connect it to signal common cable.
Protective
Functions
FR- BLF
Install common mode filter
FR- BSF01
on inverter input side.
NV1
Power
supply
Parameter
List
Inverter
Noise reduction examples
between the inverter output cables.
Do not earth (ground) control cable.
Terminal Connection
Diagram
Terminal Specification
Explanation
measures
Operation panel
Parameter unit
FR Configurator
z As measures against sensor malfunction, line noise filter FR-
Influence and
• The external thermal relay may be operated
unnecessarily by the harmonics of the leakage current.
When the wiring length is long (50m or more) for the
Options
filter FR-BIF produces an effect.
400V class small capacity model (7.5kW or less), the
external thermal relay is likely to operate unnecessarily
because the ratio of the leakage current to the rated
Influence and
measures
motor current increases.
Instructions
z As measures against AM radio broadcasting noise, radio noise
z Countermeasures
z Countermeasures
• Use Pr.9 Electronic thermal O/L relay.
• If the carrier frequency setting is high, decrease the Pr.
72 PWM frequency selection setting.
Note that motor noise increases. Select Pr. 240 Soft-PWM
Motor
electromagnetic noise tends to increase. Therefore, refer to the
To-earth (ground) leakage currents
operation selection to make the sound inoffensive.
To ensure that the motor is protected against line-toline leakage currents, it is recommended to use a
temperature sensor to directly detect motor
Compatibility
When performing low-noise operation at higher carrier frequency,
temperature.
MCCB
Undesirable
current path
Power
supply
MC
Thermal relay
Motor
IM
Inverter
Warranty
Noise
Connection
example
and earth and in the motor, through which a leakage current flows.
due to high-speed switching operation. Be sure to earth (ground)
Standard
Specifications
Capacitances exist between the inverter I/O cables, other cables
leakage currents occur than in the non-low acoustic noise mode
Outline
Dimension
Drawings
When the inverter is run in the low acoustic noise mode, more
Features
Leakage currents
Line-to-line static
capacitances
Line-to-line leakage currents path
Inquiry
Earth (Ground)
70
zHarmonic suppression guideline
Harmonic currents flow from the inverter to a power receiving point
via a power transformer. The harmonic suppression guideline was
For compliance to "Harmonic suppression guideline of the
transistorized inverter (input current of 20A or less) for consumers
other than specific consumers" published by JEMA.
established to protect other consumers from these outgoing
Input
harmonic currents.
Power
The three-phase 200V input specifications 3.7kW or less (single-
Supply
phase 200V power input model 2.2kW or less, single-phase 100V
Single-phase
power input model 0.75kW) are previously covered by "Harmonic
100V
suppression guideline for household appliances and generalpurpose products" and other models are covered by "Harmonic
Target
Countermeasures
Capacity
Connect the AC reactor or DC reactor
0.75kW or less
instruction manual.
Single-phase
200V
Reference materials
2.2kW or less
y "Harmonic suppression guideline of
suppression guideline for consumers who receive high voltage or
special high voltage". However, the transistorized inverter has
been excluded from the target products covered by "Harmonic
suppression guideline for household appliances and generalpurpose products" in January 2004 and "Harmonic suppression
guideline for household appliances and general-purpose products"
recommended in a catalog or an
the general-purpose inverter (input
Three-phase
200V
current of 20A or less)"
JEM-TR226 (revised in Dec. 2003):
3.7kW or less
Japan Electrical Manufacturer's
Association
zCalculation of outgoing harmonic current
was repealed on September 6, 2004.
Outgoing harmonic current = fundamental wave current (value converted
All capacity and all models of general-purpose inverter used by
from received power voltage) × operation ratio × harmonic content
yOperation ratio: Operation ratio = actual load factor operation
specific consumers are covered by "Harmonic suppression
time ratio during 30 minutes
guideline for consumers who receive high voltage or special high
yHarmonic content: Found in Table.
voltage".
y "Harmonic suppression guideline for consumers who receive high
Power
Supply
Target
Countermeasures
Capacity
Make a judgment based on "Harmonic
suppression guideline for consumers who
receive high voltage or special high voltage"
Reactor
Not used
Used
Three-phase
(AC side)
bridge
Used
(Capacitor
(DC side)
smoothing)
Used
(AC, DC sides)
Single-phase
Not used
bridge
(Capacitor
Used
smoothing) (AC side) *
necessary. For calculation method of power
supply harmonics, refer to materials below.
Single-phase
200V
All
Reference materials
Three-phase
capacities
y "Harmonic suppression measures of the
200V
inverter"
Three-phase
Jan. 2004 Japan Electrical Manufacturer's
400V
Association
y "Calculation method of harmonic current of
the general-purpose inverter used by
specific consumers"
JEM-TR201 (revised in Dec. 2003): Japan
Electrical Manufacturer's Association
Japan Electrical Manufacturer's Association
71
Rated
Current [A]
Applied
Motor kW
September 1994 and take measures if
100V
38
14.5 7.4
3.4
3.2
1.9
1.7
1.3
30
13
8.4
5.0
4.7
3.2
3.0
2.2
28
9.1
7.2
4.1
3.2
2.4
1.6
1.4
50
24
5.1
4.0
1.5
1.4
-
-
6.0
3.9
1.6
1.2
0.6
0.1
-
-
Inverter Drive
Trade and Industry (formerly Ministry of
Single-phase
7th 11th 13th 17th 19th 23rd 25th
41 8.5 7.7 4.3 3.1 2.6 1.8
Table 2: Rated Capacities and Outgoing Harmonic Currents for Three-phase
issued by the Japanese Ministry of Economy,
International Trade and Industry) in
5th
65
∗ The harmonic contents for "single-phase bridge/with reactor" in the table 4 are
values when the reactor value is 20%. Since a 20% reactor is large and considered
to be not practical, harmonic contents when a 5% reactor is used is written in the
technical data JEM-TR201 of The Japan Electrical Manufacturers' Association and
this value is recommended for calculation for the actual practice.
0.4
0.75
1.5
2.2
3.7
5.5
7.5
11
15
200V 400V
Rated Capacity (kVA)
Input
Table 1: Harmonic Contents (Values at the fundamental current of 100%)
Fundamental Wave Current
Converted from 6.6kV (mA)
voltage or special high voltage"
This guideline sets forth the maximum values of harmonic currents
outgoing from a high-voltage or especially high-voltage consumer
who will install, add or renew harmonic generating equipment. If any
of the maximum values is exceeded, this guideline requires that
consumer to take certain suppression measures.
Users who use models other than the target models are not covered
by the guideline. However, we ask to connect an AC reactor or a DC
reactor as before to the users who are not covered by the guideline.
For compliance to the harmonic suppression guideline for
consumers who receive high voltage or special high voltage
Outgoing Harmonic Current Converted from
6.6kV (mA)
(No reactor, 100% operation ratio)
5th
7th
11th 13th 17th 19th 23rd 25th
1.61
0.81
49
0.57 31.85 20.09 4.165 3.773 2.107 1.519 1.274 0.882
2.74
1.37
83
0.97 53.95 34.03 7.055 6.391 3.569 2.573 2.158 1.494
5.50
2.75
167
1.95 108.6 68.47 14.20 12.86 7.181 5.177 4.342 3.006
7.93
3.96
240
2.81 156.0 98.40 20.40 18.48 10.32 7.440 6.240 4.320
13.0
6.50
394
4.61 257.1 161.5 33.49 30.34 16.94 12.21 10.24 7.092
19.1
9.55
579
6.77 376.1 237.4 49.22 44.58 24.90 17.95 15.05 10.42
25.6
12.8
776
9.07 504.4 318.2 65.96 59.75 33.37 24.06 20.18 13.97
36.9
18.5
1121
13.1 728.7 459.6 95.29 86.32 48.20 34.75 29.15 20.18
49.8
24.9
1509
17.6 980.9 618.7 128.3 116.2 64.89 46.78 39.24 27.16
Application to Motor
Application to standard motors
The motor operated by the inverter may be less in motor torque
(especially starting torque) than the one driven by the commercial
power supply. It is necessary to fully check the load torque
characteristic of the machine.
Motor torque
When the Mitsubishi standard squirrel-cage motor (SF-JR, 4-pole) and inverter of the same capacity are used, the torque characteristics are as shown
below.
200V
100
95
85
80
70
63
Continuous operation torque *1
(0.1K to 3.7K)
50
45
130
70
65
60
53
20
30
40
60
0
0.5 3
Output frequency (Hz) 120
6
20
30
40
50
Output frequency (Hz) 120
50
35
30
Connection
example
Instructions
Continuous operation torque *1
100
90
80
70
130
120
Continuous operation
torque *1
85
75
70
65
Maximum torque
for short time
Motor
200V
When boost is increased
Maximum torque at initial setting (boost setting)
45
38
30
25
3 6
20
30
60
Output frequency (Hz)
120
3 6
20
30
50
Output frequency (Hz)
Compatibility
150
140
When boost is increased
Maximum torque at initial setting (boost setting)
220V
Maximum torque
for short time
Output torque (%)
Output torque (%)
V/F control ∗4
Options
6
Continuous operation torque *1 (5.5K)
Continuous operation torque *1 (7.5K to 15K)
Continuous operation torque *1 (7.5K to 15K)
0
0.5 3
Continuous operation torque *1
(0.1K to 3.7K)
38
Continuous operation torque *1 (5.5K)
Operation panel
Parameter unit
FR Configurator
85
80
Explanations
of
Parameters
220V
Maximum torque for short time (0.1K to 3.7K)
Maximum torque for short time
(5.5K to 15K)
Parameter
List
170
Maximum torque for short time
(0.1K to 3.7K)
Maximum torque for short time
(5.5K to 15K)
Protective
Functions
150
50Hz Torque Reference∗3
Output torque (%)
200
Output torque (%)
Advanced magnetic flux vector control
60Hz Torque Reference∗3
Standard
Specifications
Torque characteristic
The machine-installed motor operated by the inverter may be slightly
greater in vibration than the one driven by the commercial power supply.
The possible causes of vibration are as follows.
1. Vibration due to imbalance of the rotator itself including the machine
2. Resonance due to the natural oscillation of the mechanical system.
Caution is required especially when the machine used at constant
speed is operated at variable speed. The frequency jump function
allows resonance points to be avoided during operation.(During
acceleration/deceleration, the frequency within the set area is
passed through.) An effect is also produced if Pr. 72 PWM frequency
selection is changed. When a two-pole motor is operated at higher
than 60Hz, caution should be taken since such operation may cause
abnormal vibration.
Outline
Dimension
Drawings
The motor operated by the inverter has a limit on the continuous
operating torque since it is slightly higher in temperature rise than the
one operated by a commercial power supply. At a low speed, reduce
the output torque of the motor since the cooling effect decreases.
When 100% torque is needed continuously at low speed, consider
using a constant-torque motor. (Refer to page 73)
Features
Vibration
Terminal Connection
Diagram
Terminal Specification
Explanation
Motor loss and temperature rise
120
∗1 Continuous operation torque is for checking the limit of permissible load torque when using the motor within the permissible ambient temperature, and is not
Warranty
the motor output torque itself. Maximum torque for short time is the amount of torque a motor can output.
Continuous operation torque of a single-phase 100V power input model is 90% of the continuous operation torque indicated above.
∗2 Depending on the motor capacity or the number of motor poles, the operation at 60Hz or more may not be performed. Make sure to check the permissible
maximum operating frequency of the motor.
Inquiry
∗3 A 60Hz torque reference indicates that the rated torque of the motor run at 60Hz is 100%, and a 50Hz torque reference indicates that the rated torque of the
motor run at 50Hz is 100%.
∗4 Under V/F control, same torque characteristic applies to the SF-JR type with 2, 4, and 6 poles.
72
Application to constant-torque motors
SF-HRCA type
(Advanced magnetic flux vector
control)
Standard specifications
(indoor type)
z Continuous operation with 100% torque even at low speed of 3Hz is
possible
Load torque is not need to be reduced even at a low speed and
constant torque (100% torque) continuous operation is possible
within the range of speed ratio 1/20 (3 to 60Hz). (The characteristic
of motor running at 60Hz or more is that output torque is constant.)
Continuous operation torque of a single-phase 100V power input
model is 90% of the indicated value.
z Installation size is the same as that of the standard motor
 Note that operation characteristic in the chart below can not be
obtained if V/F control is employed.
Output Number
(kW)
of Poles
Frequency
Common Specifications
Range
0.2
Standard frequency 60Hz
0.4
z rotation direction (CCW) is
0.75
counterclockwise when
1.5
3 to 120Hz
2.2
3.7
viewed from the motor end
zLead wire
4
3.7kW or less ..... 3 wires
5.5
5.5kW or more ... 6 or 12
7.5
wires
11
zSurrounding air temperature:
3 to 100Hz
15
40°C maximum
Protective structure is IP44
150
60Hz Torque Reference
60Hz Torque Reference
(when inverter is 0.2kW to 7.5kW)
(when inverter is 11kW or 15kW)
Maximum torque for short time
220V
100
Continuous operation torque
200V
70(60)
63(50)
50(45)
45(40)
0
0.5 3
60
Output frequency (Hz)
120
Output torque (%) (60 Hz is standard)
Output torque (%) (60 Hz is standard)
z Torque characteristic (during advanced magnetic flux vector control, and initial value for other parameters)
Maximum torque for short time
150
220V
200V
Continuous operation torque
100
85
80
60
57
0
0.5 3
60
Output frequency (Hz)
100
Values in parenthesis apply to the 0.2kW to 0.75kW
* Please contact us separately when 150% or more of maximum torque for short time is necessary.
y When rapid acceleration/deceleration is needed, the inverter capacity may need to be one rank higher.
y When two or more motors are operated in parallel, torque imbalance is likely to occur as motor slip is smaller than that of the standard motor.
73
Application to geared motor
3 to
2.2
120Hz
6 to 60Hz
(1.5kW, 2.2kW)
3 to
120Hz
GM-D
25 to
3 to 60Hz
120Hz
(0.4kW, 0.75kW)
25 to
(1.5kW, 7.5kW)
6 to 60Hz
7.5
115Hz
zTorque characteristic (range during advanced magnetic flux vector control)
(when 1.5kW to 7.5kW)
250.0
Maximum torque
for short time
150.0
100.0
70.0
50.0
0.0
50.0
Continuous operation
torque
0 36
20
40
60
80
100
120
Output frequency (Hz)
1.5kW to 3.7kW
Maximum torque
for short time
200.0
Parameter
List
200.0
Output torque (%) (60 Hz is standard)
Output torque (%) (60 Hz is standard)
250.0
Operation panel
Parameter unit
FR Configurator
(when 0.1kW to 0.75kW)
5.5kW, 7.5kW
170.0
150.0
100.0
70.0
50.0
30.0
0.0
1.5kW to 3.7kW
50.0
Continuous operation
torque
5.5kW, 7.5kW
0 3610 20
40
60
Connection
example
Terminal Connection
Diagram
Terminal Specification
Explanation
5.5
80
100
120
Output frequency (Hz)
Explanations
of
Parameters
3.7
Protective
Functions
4
2.2
Options
0.4 to
Instructions
GM-HY2
(0.1kW to 0.75kW)
Motor
GM-SY
0.1 to
Standard
Specifications
3 to 60Hz
GM-S
Outline
Dimension
Drawings
Grease
Oil
Lubrication Lubrication
Constant Torque
Range When Using
Advanced Magnetic
Flux Vector Control
Compatibility
Inverter Output Number
Type
(kW) of Poles
Available
Frequency Range
(base frequency
60Hz)
Warranty
z Wide constant torque range even with the standard type(when using
advanced magnetic flux vector control)
Load torque is not need to be reduced even at a low speed and
constant torque (100% torque) continuous operation is possible
within the range of speed ratio 1/20 (3 to 60Hz). (0.1K to 0.75K)
z Wide speed control range
The motor can be used in the wide speed deviation range of 3 to
120Hz
The characteristic of motor running at 60Hz or more is that output
torque is constant. (0.1K to 0.75K)
Note that operation characteristic in the chart below can not be
obtained if V/F control is employed.
Features
Standard specifications
Inquiry
GM-S, GM-D, GM-SY, GM-HY2 series
74
Inverter-driven 400V class motor
When driving a 400V class motor by the inverter, surge voltages attributable to the wiring constants may occur at the motor terminals, deteriorating the
insulation of the motor. In such a case, consider taking the following measures.
(1) Rectifying the motor insulation
1. Use a "400V class inverter driven insulation-enhanced motor".
Note: The four poles of the Mitsubishi standard motor (SF-JR, SB-JR) have the 400V class inverter driving insulation enhanced feature.
2. For the dedicated motor such as the constant-torque motor and low-vibration motor, use the "inverter-driven, dedicated motor".
(2) Suppressing the surge voltage on the inverter side
Connect a filter on the secondary side of the inverter to suppress a surge voltage so that the terminal voltage of the motor is 850V or less. When
driving by the Mitsubishi inverter, connect an optional surge voltage suppression filter (FR-ASF-H/FR-BMF-H) on the inverter output side.
Application to special motors
Motor with brake
Use the motor with brake having independent power supply for the
brake, connect the brake power supply to the inverter input side
power and make the inverter output off using the output stop
terminal (MRS) when the brake is applied (motor stop). Rattle may
be heard according to the type of the brake in the low speed region
but it is not a fault.
Pole changing motor
As this motor differs in rated current from the standard motor,
confirm the maximum current of the motor and select the inverter.
Be sure to change the number of poles after the motor has stopped.
If the number of poles is changed during rotation, the regenerative
overvoltage protection circuit may be activated to cause an inverter
alarm, coasting the motor to a stop.
Submersible motor
Since the motor rated current is larger than that of the standard
motor, make selection of the inverter capacity carefully. In addition,
the wiring distance between the motor and inverter may become
longer, refer to page 65 to perform wiring with a cable thick enough.
Leakage current may flow more than the land motor, take care when
selecting the earth leakage current breaker.
Explosion-proof motor
To drive an explosion-proof type motor in Japan, an explosion-proof
test of the motor and inverter together is necessary. The test is also
necessary when driving an existing explosion-proof motor. Please
contact us for the FR-B, B3 series, which has passed an explosionproof test. The inverter is an non-explosion proof structure, install it
in a safety location.
Geared motor
The continuous operating rotation range of this motor changes
depending on the lubrication system and maker. Especially in the
case of oil lubrication, continuous operation in the low-speed range
only can cause gear seizure. For fast operation at higher than 60Hz,
please consult the motor maker.
Synchronous motor
This motor is not suitable for applications of large load variation or
impact, where out-of-sync is likely to occur. Please contact us when
using this motor because its starting current and rated current are
greater than those of the standard motor and will not rotate stably at
low speed.
Single phase motor
The single phase motor is not suitable for variable operation by the
inverter.
For the capacitor starting system, the capacitor may be damaged
due to harmonic current flowing to the capacitor. For the deviation
phase starting system and repulsion starting system, not only output
torque is not generated at low speed but it will result in starting coil
burnout due to failure of centrifugal force switch inside. Replace
with a three-phase motor for use.
75
Main Differences and Compatibilities with the FR-E500 series
Setting 8: Operation mode switching by external signal
Setting General-purpose magnetic flux vector
Pr. 80 ≠ 9999
User group 1 (16), user group 2 (16)
(Pr. 160, Pr. 173 to Pr. 175 )
1: Output frequency (initial value),
2: Output current,
3: Output voltage
Pr. 450 Second applied motor
Pr. 73 Analog input selection
0: 0 to 10V
1: 0 to 5V (initial value)
Initial value 0: External operation mode is selected at
power ON
Setting 8: deleted (X16 signal is used instead)
Pr. 80 ≠ 9999, Pr. 81 ≠ 9999, Pr. 800 = 30
User group (16) only, setting methods were partially changed
(Pr. 160, Pr. 172, Pr. 173 )
Pr. 178 to Pr. 184 Input terminal function selection setting
Input terminal function selection (Pr. 180 to Pr. 183 ) setting 5: JOG signal (Jog operation selection)
6: None
5: STOP signal (start self-holding selection)
24: MRS signal (output stop)
6: MRS signal (output stop)
25: STOP signal (start self-holding selection)
Long wiring mode
Setting is unnecessary
(Pr. 240 setting 10, 11)
(Pr. 240 setting 0, 11 are deleted)
Cooling fan operation selection (Pr. 244 ) initial setting
0: Cooling fan operates in power-on status.
1: Cooling fan on/off control valid
Stop selection (Pr. 250 ) setting increments
1s
0.1s
RS-485 communication control source from the PU connector Network operation mode (PU operation mode as FRE500 when Pr. 551 = 2)
PU operation mode
Earth (ground) fault detection
400V class: Detects always
400V class: Detects only at a start
Inrush current limit circuit Provided for the 200V class 2.2K or more and 400V class
Provided for the all capacity
Fixed terminal block (can not be removed)
Removable terminal block
Screw type terminal block (Phillips screw M2.5)
Standard control circuit terminal model:
Length of recommended bar terminal is 7mm.
Screw type terminal block (Flathead screw M2 (M3 for
terminal A, B, and C)
Length of recommended blade terminal is 5mm (6mm
Control terminal block
for terminal A, B and C).
Safety stop function model:
Spring clamp terminal block (Fixes a wire with a
pressure of inside spring)
Length of recommended blade terminal is 10mm
Operation panel
Removable operation panel (PA02)
Integrated operation panel (can not be removed)
FR-PU07
FR-PU04 (some functions, such as parameter copy, are
Parameter unit
FR-PU04
unavailable.)
Dedicated plug-in option (installation is incompatible)
for 400V class only
Plug-in option
FR-E5NC : CC-Link communication
FR-A7NC E kit : CC-Link communication
FR-E5ND : DeviceNet communication
FR-A7ND E kit : DeviceNet communication
FR-E5NL : LONWORKS communication
FR-A7NL E kit : LONWORKS communication
FR-E720-0.1K(SC) to 7.5K(SC), FR-E740-0.4K(SC) to 7.5K(SC), FR-E720S-0.1K(SC) to 0.75K(SC), FR-E710WInstallation size
0.1K to 0.75K are compatible in mounting dimensions
Features
Connection
example
Standard
Specifications
Outline
Dimension
Drawings
Terminal Connection
Diagram
Terminal Specification
Explanation
FM terminal function selection (Pr. 54) setting
0: Output frequency (initial value),
1: Output current,
2: Output voltage
Second applied motor
Pr. 71 = 100 to 123
Terminal 2 0 to 5V, 0 to 10V selection (Pr. 73 ) setting
0: 0 to 5V (initial value),
1: 0 to 10V
Operation mode selection (Pr. 79 )
Initial value 1: PU operation mode
.
Operation panel
Parameter unit
FR Configurator
selection , press
.
Parameter
List
After setting "1" in Pr. 40 RUN key rotation direction
Press
Explanations
of
Parameters
Reverse rotation from the inverter operation panel
Protective
Functions
Parameter number change
(Pr. 125 Terminal 2 frequency setting gain frequency)
(Pr. 126 Terminal 4 frequency setting gain frequency)
(Pr. 51 Second electronic thermal O/L relay)
(Pr. 60 Energy saving control selection)
(Pr. 292 Automatic acceleration/deceleration)
Options
Frequency at 5V (10V) input (Pr. 38 )
Frequency at 20mA input frequency (Pr. 39 )
Second electronic thermal O/L relay (Pr. 48 )
Shortest acceleration/deceleration mode (Pr. 60 )
Instructions
Changed/cleared
functions
0.4K to 7.5K: 4%
Motor
Torque boost (Pr. 0) initial value
FR-E520-1.5K to 7.5K: 6%
FR-E540-1.5K to 3.7K: 6%
FR-E540-5.5K, 7.5K: 4%
DC injection brake operation voltage (Pr. 12) initial value
0.4K to 7.5K: 6%
Compatibility
V/F control
General-purpose magnetic flux vector control
FR-E700
V/F control
General-purpose magnetic flux vector control
Advanced magnetic flux vector control
Optimum excitation control
FR-E720-1.5K(SC) to 3.7K(SC): 4%
FR-E720-5.5K(SC), 7.5K(SC): 3%
FR-E740-1.5K(SC) to 3.7K(SC): 4%
FR-E740-5.5K(SC), 7.5K(SC): 3%
Warranty
Control method
FR-E500
Inquiry
Item
76
Warranty
1. Gratis warranty period and coverage
[Gratis warranty period]
Note that an installation period of less than one year after installation in your company or your customer's premises or a
period of less than18 months (counted from the date of production) after shipment from our company, whichever is shorter,
is selected.
[Coverage]
(1) Diagnosis of failure
As a general rule, diagnosis of failure is done on site by the customer.
However, Mitsubishi or Mitsubishi service network can perform this service for an agreed upon fee upon the customer's
request.
There will be no charges if the cause of the breakdown is found to be the fault of Mitsubishi.
(2) Breakdown repairs
There will be a charge for breakdown repairs, exchange replacements and on site visits for the following four conditions
even in gratis warranty period, otherwise there will be no charge.
1)Breakdowns due to improper storage, handling, careless accident, software or hardware design by the customer.
2)Breakdowns due to modifications of the product without the consent of the manufacturer.
3)Breakdowns resulting from using the product outside the specified specifications of the product.
4)Breakdowns that are outside the terms of warranty.
Since the above services are limited to Japan, diagnosis of failures, etc. are not performed abroad.
If you desire the after service abroad, please register with Mitsubishi. For details, consult us in advance.
2. Exclusion of opportunity loss from warranty liability
Regardless of the gratis warranty term, compensation to opportunity losses incurred to your company or your customers by
failures of Mitsubishi products and compensation for damages to products other than Mitsubishi products and other
services are not covered under warranty.
3. Repair period after production is discontinued
Mitsubishi shall accept product repairs for seven years after production of the product is discontinued.
4. Terms of delivery
In regard to the standard product, Mitsubishi shall deliver the standard product without application settings or adjustments
to the customer and Mitsubishi is not liable for on site adjustment or test run of the product.
77
Features
International FA Center
Beijing FA Center
Tianjin FA Center
European FA Center
Shanghai FA Center
Central and Eastern Europe
FA Center
Guangzhou FA Center
North American FA Center
Korean FA Center
Standard
Specifications
UK FA Center
Taiwan FA Center
India FA Center
Connection
example
Russian FA Center
Hong Kong FA Center
Thailand FA Center
MITSUBISHI ELECTRIC AUTOMATION KOREA CO., LTD.
zIndia FA Center
B1F,2F, 1480-6, Gayang-Dong, Gangseo-Gu, Seoul, 157-200,
Mitsubishi Electric Asia Pvt. Ltd. Gurgaon Branch
Korea
2nd Floor, DLF Building No.9B, DLF Cyber City Phase ,
TEL. +82-2-3660-9607 FAX. +82-2-3664-0475
Gurgaon 122002, Haryana, India
zTaiwan FA Center
TEL. +91-124-4630300 FAX. +91-124-4630399
SETSUYO ENTERPRISE CO., LTD.
6F No.105, Wu Kung 3rd RD, Wu-Ku Hsiang Taipei Hsien, zThailand FA Center
MITSUBISHI ELECTRIC AUTOMATION (THAILAND) CO., LTD.
248, Taiwan
Bang-Chan Industrial Estate No.111, Soi Serithai 54,
TEL. +886-2-2299-2499 FAX. +886-2-2299-2509
T.Kannayao, A.Kannayao, Bangkok 10230
zBeijing FA Center
TEL. +66-2-906-3238 FAX. +66-2-906-3239
MITSUBISHI ELECTRIC AUTOMATION (SHANGHAI) LTD.
zASEAN FA Center
BEIJING OFFICE
9F Office Tower 1, Henderson Center, 18 Jianguomennei MITSUBISHI ELECTRIC ASIA PTE, LTD.
307 Alexandra Road #05-01/02, Mitsubishi Electric Building,
Avenue, Dongcheng District, Beijing, China 100005
Singapore 159943
TEL. +86-10-6518-8830 FAX. +86-10-6518-8030
TEL. +65-6470-2480 FAX. +65-6476-7439
Terminal Connection
Diagram
Terminal Specification
Explanation
Operation panel
Parameter unit
FR Configurator
MITSUBISHI ELECTRIC AUTOMATION (Hong Kong) LTD.
10th Floor, Manulife Tower, 169 Electric Road, North Point, Hong
Kong
TEL.+852-2887-8870 FAX. +852-2887-7984
Parameter
List
zKorean FA Center
zHong Kong FA Center
Explanations
of
Parameters
MITSUBISHI ELECTRIC AUTOMATION, INC.
500 Corporate Woods Parkway, Vernon Hills, IL 60061 U.S.A
TEL. +1-847-478-2100 FAX. +1-847-478-0327
Protective
Functions
zNorth American FA Center
Options
Brazil FA Center
Outline
Dimension
Drawings
ASEAN FA Center
zRussian FA Center
Instructions
zEuropean FA Center
MITSUBISHI ELECTRIC EUROPE B.V.
MITSUBISHI ELECTRIC EUROPE B. V. GERMAN BRANCH
-Representative Office in St. Petersburg
Sverdlovskaya Emb.,44, Bld Sch, BC "Benua";195027, Gothaer Strasse 8, D-40880 Ratingen, Germany
TEL. +49-2102-486-0 FAX. +49-2102-486-1120
St.Petersburg, Russia
TEL. +7-812-633-3496 FAX. +7-812-633-3499
zUK FA Center
MITSUBISHI ELECTRIC EUROPE B. V. UK BRANCH
MITSUBISHI ELECTRIC AUTOMATION (SHANGHAI) LTD. Travellers Lane, Hatfield, Hertfordshire, AL10 8XB, U.K.
TEL. +44-1707-276100 FAX. +44-1707-278695
TIANJIN OFFICE
B-2 801/802, Youyi Building, No.50 Youyi Road, Hexi District,
zCentral and Eastern Europe FA Center
Tianjin, China 300061
MITSUBISHI ELECTRIC EUROPE B.V. CZECH BRANCH
TEL +86-22-2813-1015 FAX. +86-22-2813-1017
Avenir Business Park, Radlicka 714/113a,158 00 Praha 5, Czech
Republic
zShanghai FA Center
TEL. +420-251-551-470 FAX. +420-251-551-471
MITSUBISHI ELECTRIC AUTOMATION (SHANGHAI) LTD.
4/F Zhi Fu Plazz, No.80 Xin Chang Road, Shanghai, China
zBrazil FA Center
200003
MELCO-TEC Representacao Comercial e Assessoria Tecnica
TEL. +86-21-6121-2460 FAX. +86-21-6121-2424
Ltda.
Av. Paulista 1439, conj.74, Bela Vista CEP: 01311-200 Sao
zGuangzhou FA Center
MITSUBISHI ELECTRIC AUTOMATION (SHANGHAI) LTD. Paulo-SP-Brazil
TEL. +55-11-3146-2202 FAX. +55-11-3146-2217
GUANGZHOU OFFICE
Rm.1609, North Tower, The Hub Center, No.1068, Xing Gang
East Road, Haizhu District, Guangzhou, China 510335
TEL. +86-20-8923-6713 FAX. +86-20-8923-6715
Inquiry
Warranty
Compatibility
Motor
zTianjin FA Center
78
Safety Warning
To ensure proper use of the products listed in this catalog,
please be sure to read the instruction manual prior to use.
HEAD OFFICE: TOKYO BUILDING 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
L(NA)06051ENG-D (1003)MEE