ETC 3G3MV

Cat.No. I904–E1–2
SYSDRIVE
3G3MV Series
CATALOG
Nomenclature
Panel
Digital Operator:
Used to set parameters, perform various
monitoring, and start and stop the Inverter.
Front cover mounting screw:
RUN indicator
A screw for fixing the front cover.
ALARM indicator:
Displays the operating status of the
Inverter.
RUN (green): Flashes when no RUN
command is input during normal status.
Lights when a RUN command is input
during normal status.
Alarm (Red): Lights when an error occurs. Flashes when a warning occurs.
Front cover:
Remove this cover when wiring the
terminal block or setting the input
method selection switches.
Bottom cover:
Remove this cover when wiring the
terminal block.
6
Nomenclature
Digital Operator
Data display
Indicators
(Setting/Monitor
item indicators)
FREQUENCY
adjuster
Operation keys
Appearance
Name
Function
Data display
Displays relevant data items, such as frequency reference, output frequency, and parameter set
values.
Frequency adjuster
Sets the frequency reference within a range between 0 Hz and the maximum frequency.
Frequency
reference indicator
The frequency reference can be monitored or set while this indicator is lit.
Output frequency
indicator
The output frequency of the Inverter can be monitored while this indicator is lit.
Output current
indicator
The output current of the Inverter can be monitored while this indicator is lit.
Multi-function
monitor indicator
The values set in U01 through U10 are monitored while this indicator is lit.
Forward/Reverse
selection indicator
The direction of rotation can be selected while this indicator is lit when operating the Inverter with
the RUN Key.
Local/Remote
selection indicator
The operation of the Inverter through the Digital Operator or according to the set parameters is
selectable while this indicator is lit. (See note 1.)
Parameter setting
indicator
The parameters in n001 through n179 can be set or monitored while this indicator is lit.
(See note 2.)
Mode Key
Switches the simplified-LED (setting and monitor) item indicators in sequence.
Parameter being set will be canceled if this key is pressed before entering the setting.
Increment Key
Increases multi-function monitor numbers, parameter numbers, and parameter set values.
Decrement Key
Decreases multi-function monitor numbers, parameter numbers, and parameter set values.
Enter Key
Enters multi-function monitor numbers, parameter numbers, and internal data values after they are
set or changed.
RUN Key
Starts the Inverter running when the 3G3MV is in operation with the Digital Operator.
STOP/RESET Key
Stops the Inverter unless parameter n007 is set to disable the STOP Key.
Used to reset the Inverter when an error occurs. (See note 3.)
Note: 1. The status of the local/remote selection indicator can be only monitored while the Inverter is in operation. Any RUN command input is ignored while this indicator is lit.
2. While the Inverter is in operation, the parameters can be only monitored and only some parameters can be changed. Any
RUN command input is ignored while the parameter setting indicator is lit.
3. For safety reasons, the reset function cannot be used while an operation instruction (forward/reverse) is being input. Turn
the operation instruction OFF before using this function.
7
Using Digital Operator
Selecting Indicators
Power ON
represents a lit indicator.
Output
frequency
Frequency
reference
Output current
Parameter
settings
Local/remote
selection
Parameter n001
Remote mode
Forward
Parameter n002
Local mode
Reverse
Direction of
rotation
Multi-function
monitor
Frequency reference
Output frequency
Other monitor items
Other parameters
Note: If the power is turned OFF with the FOUT or IOUT indicator lit, the same indicator will light when the power is turned ON again.
In other cases, the FREF indicator will light when the power is turned ON.
Example of Frequency Reference Settings
Flashing
Key sequence
Indicator
Display example
Explanation
Power ON
Note
If the FREF indicator has not been lit, press the Mode
Key repeatedly until the FREF indicator is lit.
Use the Increment or Decrement Key to set the frequency
reference.
The data display will flash while the frequency reference is
set. (see note)
Press the Enter Key so that the set value will be entered and
the data display will be lit. (see note)
Note: The Enter Key need not be pressed when performing the setting for n08. The frequency reference will change when the set
value is changed with the Increment or Decrement Key while the data display is continuously lit.
8
Using Digital Operator
Example of Multi-function Display
Frequency
reference
DC bus
voltage
Monitor
data
Complete
Key sequence
Indicator
Display
Explanation
Power ON
Press the Mode Key repeatedly until the MNTR indicator is
lit.
U01 will be displayed.
Use the Increment or Decrement Key to select the monitor
item to be displayed.
Press the Enter Key so that the data of the selected monitor
item will be displayed.
The monitor number display will appear again by pressing
the Mode Key.
Status Monitor
Item
Display
U-01
Frequency reference
U-02
Output frequency
U-03
Output current
Display
unit
Hz (see
note 1)
Hz (see
note 1)
A
Function
U-04
Output voltage
V
Monitors the internal output voltage reference value of the Inverter.
U-05
U-06
DC bus voltage
Input terminal status
V
---
Monitors the DC voltage of the internal main circuit of the Inverter.
Monitors the frequency reference. (Same as FREF)
Monitors the output frequency. (Same as FOUT)
Monitors the output current. (Same as IOUT)
Shows the ON/OFF status of inputs.
: ON
: OFF
Terminal S1: Multi-function input 1
Terminal S2: Multi-function input 2
Terminal S3: Multi-function input 3
Terminal S4: Multi-function input 4
Terminal S5: Multi-function input 5
Terminal S6: Multi-function input 6
Terminal S7: Multi-function input 7
U-07
Output terminal
status
---
Not
used
Shows the ON/OFF status of outputs.
: ON
U-08
Torque monitor
%
: OFF
Terminal MA: Multi-function contact output
Terminal P1: Multi-function photo-coupler output 1
Not
Terminal P2: Multi-function photo-coupler output 2
used
Displays the torque being currently output as a percentage of the rated motor
torque. This display can only be made in vector control mode.
Note: 1. The units used for frequency reference (U-01) and output frequency (U-02) are determined by the setting of n035 (frequency reference setting/display unit selection; factory set to Hz).
9
Using Digital Operator
Item
U-09
Display
Error log (most
recent one)
Display
unit
---
Function
The four most recent errors can be checked.
Error
generation
item
Error
Note
U-10
Software No.
---
“1” means that the latest error is displayed. Press the Increment Key to display the second latest error. A maximum of four errors can be displayed.
OMRON use only.
U-11
Output power
W
Monitors the output power of the Inverter (see note 1)
U-13
Accumulated
operating time
Communications
error
U-15
10H
---
Monitors the accumulated operating time in 10-hour units (see note 2)
Displays the contents (same as register number 003D Hex) of general-purpose
serial communications (RS422/485) errors
(Not used)
CRC error
Data length error
(Not used)
Parity error
Overrun error
Framing error
Communications time over
U-16
PID feedback
%
Monitors the PID control feedback (Max. frequency: 100%)
U-17
PID input
%
Monitors the PID control input (Max. frequency: 100%)
U-18
PID output
%
Monitors the PID output (Max. frequency: 100%)
Note: 1. Monitoring is not possible in vector control mode. “----” will be displayed.
2. The accumulated operating time monitoring function is available only with 200-V-class, 5.5/7.5-kW Inverters and
400-V-class, 5.5/7.5-kW Inverters.
10
Using Digital Operator
Example of Parameter Settings
Cancels set data.
Complete
In approximately 1 s.
Key sequence
Indicator
Display example
Explanation
Power ON
Press the Mode Key repeatedly until the PRGM indicator is
lit.
Use the Increment or Decrement Key to set the parameter
number.
Press the Enter Key.
The data of the selected parameter number will be displayed.
Use the Increment or Decrement Key to set the data. At that
time the display will flash.
In approximately 1 s.
Press the Enter Key so that the set value will be entered and
the data display will be lit. (see note 1)
The parameter number will be displayed.
Note: 1. To cancel the set value, press the Mode Key instead. The parameter number will be displayed.
2. There are parameters that cannot be changed while the Inverter is in operation. Refer to the list of parameters. When attempting to change such parameters, the data display will not change by pressing the Increment or Decrement Key.
11
List of Parameters
List of Parameters
Function Group 1 (n001 through n049)
Parameter
No.
Name
Description
n001
Parameter write-prohibit selection/parameter initialization
Used to prohibit parameters to be written, sets parameters,
or change the monitor range of parameters.
n002
Control mode selection
Used to select the control mode of the Inverter.
Note The set value in n002 is not initialized when parameter
initialization is performed using n001.
Setting
range
Unit of setting (see
note 3)
Default setting
Changes
during
operation
Reference
page
0 to 9
1
1
No
20
0, 1
1
0
No
20
Used to initialize parameters to default values.
Note Some parameters will be initialized if n002 is changed.
For details refer to the reference page.
n003
Operation mode
selection
Used to select the input method for the RUN and STOP
commands in remote mode.
0 to 3
1
0
No
20
n004
Frequency reference
selection
Used to set the input method for the frequency reference in
remote mode.
0 to 9
1
0
No
20
n005
Interruption mode
selection
Used to set the stopping method for use when the STOP
command is input.
0, 1
1
0
No
20
n006
Reverse rotationprohibit selection
Used to select the operation with the reverse command
input.
0, 1
1
0
No
20
n007
STOP/RESET Key
function selection
Used to select the stop method in remote mode with n003
for operation mode selection set to 0.
0, 1
1
0
No
20
n008
Frequency selection
in local mode
Used to set the input method for the frequency reference in
local mode.
0, 1
1
0
No
20
n009
Key sequential frequency setting
Used to enable the Enter Key for setting the frequency
reference with the Increment and Decrement Keys.
0, 1
1
0
No
21
n010
Operation selection
at Digital Operator
interruption
Used to select whether or not to detect the OPR error (Digital Operator connection error).
0, 1
1
0
No
21
n011
Maximum frequency
(FMAX)
Used to set the V/f pattern as the basic characteristic of
the Inverter.
50.0 to
400.0
0.1 Hz
60.0
No
21
n012
Maximum voltage
(VMAX)
V/f control mode: Set output voltage per frequency
0.1 to 255.0
(0.1 to
510.0)
0.1 V
200.0
(400.0)
No
21
Vector control mode: Set for torque adjustment
n013
Maximum voltage
frequency (FA)
0.2 to 400.0
0.1 Hz
60.0
No
21
n014
Middle output frequency (FB)
0.1 to 399.9
0.1 Hz
1.5
No
21
n015
Middle output frequency voltage (VC)
0.1 to 255.0
(0.1 to
510.0)
0.1 V
12.0 (24.0)
(see note 2)
No
21
n016
Minimum output frequency (FMIN)
0.1 to 10.0
0.1 Hz
1.5
No
21
n017
Minimum output frequency voltage
(VMIN)
0.1 to 50.0
(0.1 to
100.0)
0.1 V
12.0 (24.0)
(see note 2)
No
21
n018
Acceleration/Deceleration time setting
Unit (n018)
Used to select the unit of acceleration or deceleration time
of the Inverter.
0, 1
1
0
No
21
n019
Acceleration time 1
Acceleration time: The time required to go from 0% to
100% of the maximum frequency.
0.0 to 6000
10.0
Yes
21
n020
Deceleration time 1
10.0
Yes
21
n021
Acceleration time 2
10.0
Yes
21
n022
Deceleration time 2
Deceleration time: The time required to go from 100% to
0% of the maximum frequency.
Note The actual acceleration or deceleration time is obtained
from the following formula.
Acceleration/Deceleration time = (Acceleration/Deceleration time set value) × (Frequency reference value) ÷
(Max. frequency)
0.1 s
(change in
n018)
10.0
Yes
21
Note: 1. The values in brackets are those for 400-V-class Inverters.
2. The default settings for middle output frequency voltage (n015) and the minimum output frequency voltage (n017) are 10.0
V for 200-V-class, 5.5/7.5-kW Inverters and 20.0 V for 400-V-class, 5.5/7.5-kW Inverters.
3. Values longer than 4 digits are rounded up to the next unit multiple.
12
List of Parameters
Parameter
No.
Name
Description
Setting
range
Unit of
setting
(see
note)
Default
setting
Changes
during operation
Reference
page
n023
S-shape acceleration/deceleration
characteristic
Used to set S-shape acceleration/deceleration characteristics.
0 to 3
1
0
No
21
n024
Frequency reference
1
0.1 Hz
(change
in n035)
Yes
22
Frequency reference
2
0.0 to
max. frequency
6.0
n025
Used to set internal frequency references.
Note Frequency reference 1 is enabled in remote mode
with n004 for frequency reference selection set to 1.
0.0
Yes
22
0.0
Yes
22
0.0
Yes
22
Note These frequency references are selected with multi-step speed references (multi-function input). See
the reference pages for the relationship between
multi-step speed references and frequency references.
n026
Frequency reference
3
n027
Frequency reference
4
n028
Frequency reference
5
0.0
Yes
22
n029
Frequency reference
6
0.0
Yes
22
n030
Frequency reference
7
0.0
Yes
22
n031
Frequency reference
8
0.0
Yes
22
n032
Inching frequency
command
Used to set the inching frequency command.
6.0
Yes
22
n033
Frequency reference
upper limit
0 to 110
1%
100
No
22
n034
Frequency reference
lower limit
Used to set the upper and lower frequency reference
limits in percentage based on the maximum frequency
as 100%.
0 to 110
1%
0
No
22
n035
Frequency reference
setting/display unit
selection
Used to set the unit of frequency reference and frequency-related values to be set or monitored through
the Digital Operator.
0 to
3999
1
0
No
22
n036
Rated motor current
Used to set the rated motor current for motor overload
detection (OL1) based on the rated motor current.
Note Motor overload detection (OL1) is disabled by setting the parameter to 0.0.
0.0 to
150% of
rated
output
current
of the
Inverter
0.1 A
Varies
with the
capacity.
No
22
n037
Motor protection
characteristics
Used to set the motor overload detection (OL1) for the
electronic thermal characteristics of the motor.
0 to 2
1
0
No
23
n038
Motor protective
time setting
Used to set the electric thermal characteristics of the
motor to be connected in 1-minute increments.
1 to 60
1 min
8
No
23
n039
Cooling fan operation function
Used to operate the Cooling Fan of the Inverter while
the Inverter is turned on or only while the Inverter is in
operation.
0, 1
1
0
No
23
n040 to
n049
Not used
---
---
---
---
---
---
Note: Values longer than 4 digits are rounded up to the next unit multiple.
Function Group 2 (n050 through n079)
Parameter
No.
Name
n050
Multi-function input 1
(Input terminal S1)
n051
Description
Used to select the functions of multi-function input terminals S1 through S7.
Setting
range
Unit of
setting
Default
setting
Changes
during operation
Reference
page
1 to 25
1
1
No
23
Multi-function input 2
(Input terminal S2)
1 to 25
1
2
No
23
n052
Multi-function input 3
(Input terminal S3)
0 to 25
1
3
No
23
n053
Multi-function input 4
(Input terminal S4)
1 to 25
1
5
No
23
n054
Multi-function input 5
(Input terminal S5)
1 to 25
1
6
No
23
n055
Multi-function input 6
(Input terminal S6)
1 to 25
1
7
No
23
n056
Multi-function input 7
(Input terminal S7)
1 to 25,
34, 35
1
10
No
23
13
List of Parameters
Parameter
No.
Name
n057
Multi-function output
(MA/MB and MC
output terminals)
n058
Description
Used to select the functions of multi-function output
terminals.
Setting
range
Unit of
setting
Default
setting
Changes
during operation
Reference
page
0 to 7,
10 to 19
1
0
No
24
Multi-function output
2 (P1-PC output terminals)
0 to 7,
10 to 19
1
1
No
24
n059
Multi-function output
3 (P2-PC output terminals)
0 to 7,
10 to 19
1
2
No
24
n060
Frequency reference
gain
0 to 255
1%
100
Yes
25
n061
Frequency reference
bias
–100 to
100
1%
0
Yes
25
n062
Analog frequency
reference filter time
Used to set the digital filter with a first-order lag for analog frequency references to be input.
0.00 to
2.00
0.01 s
0.10
No
25
n063
Not used
---
---
---
---
---
---
n064
Frequency reference
loss processing
selection
(see note)
Used to specify the processing that is performed when
frequency references from control circuit terminals suddenly drop.
0, 1
1
0
No
---
Used to the input characteristics of analog frequency
references.
0: Disabled (operates in compliance with frequency
reference)
1: Enabled (continues to operate at 80% of the frequency reference before loss)
(“Frequency reference loss” is defined to be a drop of
more than 90% in the frequency reference within
400 ms.)
n065
Multi-function analog
output type selection
Used to select the multi-function analog output type.
0, 1
1
0
No
25
n066
Multi-function analog
output
Used to select the monitor item with n065 set to 0.
0 to 5
1
0
No
25
n067
Multi-function analog
output gain
Used to set the output characteristics of multi-function
analog output.
0.00 to
2.00
0.01
1.00
Yes
25
n068
Multi-function analog
voltage input gain
Used to set the input characteristics of multi-function
analog voltage input.
–255 to
255
1%
100
Yes
25
n069
Multi-function analog
voltage input bias
–100 to
100
1%
0
Yes
25
n070
Multi-function analog
voltage input filter
time constant
Used to set a primary delay digital filter for multi-function analog voltage input.
0.00 to
2.00
0.01 s
0.10
Yes
25
n071
Multi-function analog
current input gain
Used to set the input characteristics of multi-function
analog current input.
–255 to
255
1%
100
Yes
25
n072
Multi-function analog
current input bias
–100 to
100
1%
0
Yes
25
n073
Multi-function analog
current input filter
time constant
Used to set a primary delay digital filter for multi-function analog current input.
0.00 to
2.00
0.01 s
0.10
Yes
26
n074
Pulse train frequency reference
gain
Used to set the input characteristics of pulse train input.
–255 to
255
1%
100
Yes
26
n075
Pulse train frequency reference
bias
–100 to
100
1%
0
Yes
26
n076
Pulse train frequency reference filter time constant
Used to set a primary delay digital filter for pulse train
frequency references to be input.
0.00 to
2.00
0.01 s
0.10
Yes
---
n077
Multi-function analog
input function selection
Used to select the function for allocation to the Digital
Operator’s multi-function analog input terminals.
0 to 4
1
0
No
---
n078
Multi-function analog
input terminal selection
Used to set voltage input or current input for multi-function analog input terminals.
0, 1
1
0
No
---
n079
Multi-function analog
input frequency bias
Used to set the standard bias value when the multifunction analog input function selection (n077) is set to
frequency bias (set value: 3).
0 to 50
1%
10
No
---
Note: The frequency reference loss processing selection setting is available only with 5.5/7.5-kW Inverters.
14
List of Parameters
Function Group 3 (n080 through n0119)
Parameter
No.
Name
Description
Setting
range
Unit of
setting
(see
note 2)
Default
setting
Changes
during
operation
Reference
page
n080
Carrier frequency
selection
Used to set the carrier frequency.
1 to 4, 7
to 9
1
Varies
with the
capacity.
No
26
n081
Momentary power
interruption compensation
Used to specify the processing that is performed when
a momentary power interruption occurs.
0 to 2
1
0
No
26
n082
Number of fault
retries
Used set the number of times that reset and restart are
automatically attempted for the Inverter when the
Inverter has an overvoltage fault or overcurrent fault.
0 to 10
1
0
No
26
n083
Jump frequency 1
Used to set the frequency jump function.
0.00 to
400.0
0.01 Hz
0.00
No
27
n084
Jump frequency 2
Note Set n083 to n085 to satisfy the following condition.
n083 y n084 y n085
0.00 to
400.0
0.01 Hz
0.00
No
27
n085
Jump frequency 3
0.00 to
400.0
0.01 Hz
0.00
No
27
n086
Jump width
0.00 to
25.50
0.01 Hz
0.00
No
27
n087
Accumulated operating time function
selection (see note 1)
Used to select the function that displays the accumulated operating time (U-13).
0, 1
1
0
No
---
n088
Accumulated operating time (see note 1)
Used to set the default value for accumulated operating
time in time units.
Note The operating time is accumulated from the set values.
0 to
6550
1=10H
0
No
---
n089
DC injection braking
current
0 to 100
1%
50
No
27
n090
DC injection brakingto-stop time
0.0 to
25.5
0.1 s
0.5
No
27
n091
Startup DC injection
braking time
0.0 to
25.5
0.1 s
0.0
No
27
n092
Stall prevention during deceleration
Used to select a function to change the deceleration
time of the motor automatically so that there will be no
overvoltage imposed on the motor during deceleration.
0, 1
1
0
No
27
n093
Stall prevention level
during acceleration
Used to select a function to stop the acceleration of the
motor automatically for stall prevention during
acceleration.
30 to
200
1%
170
No
27
n094
Stall prevention level
during operation
Used to select a function to reduce the output
frequency of the Inverter automatically for stall
prevention during operation.
30 to
200
1%
160
No
28
n095
Frequency detection
level
Used to set the frequency to be detected.
0.00 to
400.0
0.01 Hz
0.00
No
28
n096
Overtorque detection
function selection 1
Used to enable or disable overtorque detection and
select the processing method after overtorque
detection.
0 to 4
1
0
No
28
n097
Overtorque detection
function selection 2
Used to select the item to detect overtorque.
0, 1
1
0
No
28
n098
Overtorque detection
level
Used to set overtorque detection level.
30 to
200
1%
160
No
28
n099
Overtorque detection
time
Used to set the detection time of overtorque.
0.1 to
10.0
0.1 s
0.1
No
28
n100
UP/DOWN frequency
memory
Used to store the adjusted frequency reference with the
UP/DOWN function.
0, 1
1
0
No
29
n101
High-speed search
deceleration time
(see note 1)
Used to set the output frequency deceleration time during execution of high-speed search in second units.
Note Set the time to be taken in going from the maximum
frequency to 0 Hz.
0.0 to
10.0
0.1 s
2.0 s
No
---
n102
High-speed search
operating level
(see note 1)
Used to set the operating level for high-speed search.
0 to 200
1%
150
No
---
Note Set n088 to 0 to clear the value.
Used to impose DC on the induction motor for braking
control.
Note: 1. Settings marked with an asterisk are available only with 5.5/7.5-kW Inverters.
2. Values longer than 4 digits are rounded up to the next unit multiple.
15
List of Parameters
Parameter
No.
Name
Description
Setting
range
Unit of
setting
(see
note)
Default
setting
Changes
during
operation
Reference
page
n103
Torque compensation gain
Used to set the gain of the torque compensation function.
0.0 to
2.5
0.1
1.0
Yes
---
n104
Torque compensation primary delay
time constant
Used to set the response speed of the torque compensation function.
0.0 to
25.5
0.1 s
0.3
No
---
n105
Torque compensation core loss
Used to set the core loss of the motor in use.
Note This parameter is enabled in V/f control mode only.
0.0 to
6,550
0.1 W
Varies
with the
capacity.
No
---
n106
Rated motor slip
Used to set the rated slip value of the motor in use.
0.0 to
20.0
0.1 Hz
Varies
with the
capacity.
Yes
---
n107
Motor phase-to-neutral resistance
Used to set this parameter to 1/2 of the phase-to-phase
resistance or phase-to-neutral resistance of the motor.
0.000 to
65.50
0.001 Ω
Varies
with the
capacity
No
---
n108
Motor leakage
inductance
Used to set the leakage inductance of the motor in use.
0.00 to
655.0
0.01 mH
Varies
with the
capacity.
No
---
n109
Torque compensation limit
Used to set a limit on the torque compensation function
in vector control mode.
0 to 250
1%
150
No
---
n110
Motor no-load current
Used to set the no-load current of the motor in use
based on the rated motor current as 100%.
0 to 99
1%
Varies
with the
capacity
No
---
n111
Slip compensation
gain
Used to set the gain of the slip compensation function.
Note The default is set to 1.0 in vector control mode.
0.0 to
2.5
0.1
0.0
Yes
---
Note The slip compensation function is disabled with
n111 set to 0.0.
n112
Slip compensation
primary delay time
Used for the response speed of the slip compensation
function.
Note The default is set to 0.2 in vector control mode.
0.0 to
25.5
0.1 s
2.0
No
---
n113
Slip compensation
during regeneration
Used to select the slip compensation function in regenerative operation.
Note This parameter is valid only in vector control mode.
0, 1
1
0
No
---
n114
Not used
---
---
---
---
---
---
n115
Stall prevention level
automatic suppression selection
Used to select whether or not to automatically decrease
the level for stall prevention during operation if the frequency lies in a constant output range exceeding the frequency set in n013 for max. voltage frequency (a range
greater than the rated motor frequency).
0, 1
1
0
No
---
n116
Stall prevention acceleration/deceleration time setting
Used to set the acceleration/deceleration time for the stall
prevention function during operation.
0, 1
1
0
No
---
n117 to
n119
Not used
---
---
---
---
---
---
Note: Values longer than 4 digits are rounded up to the next unit multiple.
16
List of Parameters
Function Group 4 (n120 through n179)
Parameter
No.
Name
Description
Setting
range
Unit of
setting
(see
note)
n120
Frequency reference
9
0.00 Hz
to max.
n121
Frequency reference
10
0.01 Hz
(Changeable with
n035
settings)
n122
Frequency reference
11
Used to set the internal frequency references.
Note These frequency references are selected with multi-step speed references (multi-function inputs).
See the reference pages for the relationship
between multi-step frequency references and frequency references.
n123
Default
setting
Changes
during
operation
Reference
page
0.00
Yes
22
0.00
Yes
22
0.00
Yes
22
Frequency reference
12
0.00
Yes
22
n124
Frequency reference
13
0.00
Yes
22
n125
Frequency reference
14
0.00
Yes
22
n126
Frequency reference
15
0.00
Yes
22
n127
Frequency reference
16
0.00
Yes
22
n128
PID control selection
Used to select the PID control method.
0 to 8
1
0
No
---
n129
Feedback value
adjustment gain
Used to set the value by which the feedback value is
multiplied.
0.00 to
10.00
0.01
1.00
Yes
---
n130
Proportional (P) gain
Used to set the proportional (P) gain for PID control.
Note PID control is disabled with this parameter set to
0.0.
0.0 to
25.0
0.1
1.0
Yes
---
n131
Integral (I) time
Used to set the integral (I) time for PID control.
Note Integral control is disabled with this parameter set to
0.0.
0.0 to
360.0
0.1 s
1.0
Yes
---
n132
Derivative (D) time
Used to set the derivative (D) time for PID control.
Note Derivative control is disabled with this parameter
set to 0.0.
0.00 to
2.50
0.01 s
0.00
Yes
---
n133
PID offset adjustment
This parameter is for the offset adjustment of all PID
control.
–100 to
100
1%
0
Yes
---
n134
Integral (I) upper
limit
Used to set the upper limit value of integral control output.
0 to 100
1%
100
Yes
---
n135
PID primary delay
time
Used to set the primary delay time constant for the frequency reference after PID control.
0.0 to
10.0
0.1 s
0.0
Yes
---
n136
Feedback loss
detection selection
Used to set the detection method of feedback loss in
PID control.
0 to 2
1
0
No
---
n137
Feedback loss
detection level
Used to set the detection level of feedback loss.
0 to 100
1%
0
No
---
n138
Feedback loss
detection time
Used to set the detection time of feedback loss.
0.0 to
25.5
0.1 s
1.0
No
---
n139
Energy-saving control selection
Used to select the energy-saving control function.
Note This parameter is enabled in V/f control mode only.
0, 1
1
0
No
---
n140
Energy-saving control coefficient K2
Used to set the coefficient for the primary level of energy-saving control.
0.0 to
6,550
0.1
Varies
with the
capacity
No
---
n141
Energy-saving voltage lower limit at
60-Hz output
0 to 120
1%
50
No
---
n142
Energy-saving voltage lower limit at
6-Hz output
These parameters prevent the output voltage of the
Inverter from dropping excessively so that the motor will
not stall or come to a stop at the primary level of energy-saving control.
0 to 25
1%
12
No
---
n143
Power averaging
time
Used to set the time required to calculate the average
of power used in energy-saving control.
1 to 200
1 (24
ms)
1
No
---
n144
Probe operation
voltage limit
0 to 100
1%
0
No
---
Power averaging time (ms) = Set value x 24 (ms)
Used to set the range of voltage control for the secondary level of energy-saving control.
Note No probe operation is available with the parameter
set to 0.
Note: Values longer than 4 digits are rounded up to the next unit multiple.
17
List of Parameters
Parameter
No.
Name
Description
n145
Probe operation
control voltage step
at 100%
Used to set the range of probe operation voltage in
percentage based on the rated motor voltage as 100%.
n146
Probe operation
control voltage step
at 5%
n147
Not used
n149
Setting
range
Unit of
setting
(see
note)
Default
setting
Changes
during
operation
Reference
page
0.1 to
10.0
0.1%
0.5
No
---
0.1 to
10.0
0.1%
0.2
No
---
---
---
---
---
---
---
Pulse train input
scale
Used to set this parameter to the pulse train input scale
so that frequency references can be executed by pulse
train input.
100 to
3,300
1 (10
Hz)
2,500
No
26
n150
Multi-function analog
output, pulse train
frequency selection.
Used to select the relationship between the pulse train
output frequency and output frequency.
0, 1, 6,
12, 24,
36
1
0
No
---
n151
RS-422/485 communications time-over
detection selection
The set value in the parameter determines whether
communications time-over detection will be performed
with “CE” displayed if there is an interval of more than 2
s between normal communications and how the
detected communications time-over will be processed.
0 to 4
1
0
No
---
n152
RS-422/485 communications frequency
reference/display
unit selection
Used to set the unit of frequency reference and frequency-related values to be set or monitored through
communications.
0 to 3
1
0
No
---
n153
RS-422/485 communications Slave
address
Used to set the Slave address (Slave unit number) for
communications.
00 to 32
1
00
No
---
n154
RS-422/485 baud
rate selection
Used to select the communications baud rate.
0 to 3
1
2
No
---
n155
RS-422/485 parity
selection
Used to select the parity check function for communications data.
0 to 2
1
0
No
---
n156
RS-422/485 send
wait time
Used to set the time to wait for a response after the
DSR (data-send-request) message is received from the
Master.
10 to 65
1 ms
10
No
---
n157
RS-422/485 RTS
control selection
Used to select whether or not to enable the RTS
(request-to-send) communications control function.
0, 1
1
0
No
---
n158
Motor code
Used to set the code to automatically set the constants
for energy-saving control.
0 to 70
1
Varies
with the
capacity.
No
---
n159
Energy-saving voltage upper limit at
60-Hz output
These parameters prevent the motor from over excitation due to voltage changes during energy-saving control.
0 to 120
1%
120
No
---
n160
Energy-saving upper
limit voltage at 6-Hz
output
0 to 25
1%
16
No
---
n161
Power detection
width for probe
operation switching
Used to set the detection width of power that sets the
Inverter into probe operation.
0 to 100
1%
10
No
---
n162
Power detection filter constant
Used to set the filter time constant of the power detection block of the Inverter operating in probe operation.
Filter time constant (ms) = Set value in n162 x 4 (ms)
Note The Inverter will operate with a time constant of 20
ms if the value is set to 0.
0 to 255
1 (4 ms)
5
No
---
n163
PID output gain
Used to set the rate by which PID control value is multiplied for PID control.
0.0 to
25.0
0.1
1.0
No
---
n164
PID feedback input
block selection
Used to set the feedback input block for PID control
detection.
0 to 5
1
0
No
---
n165
Not used
---
---
---
---
---
---
n148
Set the width in percentage based on the power to be
detected as 100%.
Note Normally, the default setting does not need to be
changed.
Note: Values longer than 4 digits are rounded up to the next unit multiple.
18
List of Parameters
Parameter
No.
Name
n166
Input open-phase
detection level
(see note 3)
n167
Input open-phase
detection time
(see note 3)
n168
Output open-phase
detection level
(see note 3)
Description
Setting
range
Used to set the open-phase detection level (voltage
fluctuation) for input power supply voltage.
400 V/100% (200-V class)
800 V/100% (400-V class)
Note Nothing detected if set to 0.
Unit of
setting
(see
note 1)
Default
setting
Changes
during
operation
Reference
page
0 to 100
1%
0
No
---
Used to set the open-phase detection time for input
power supply voltage.
Note Recommended setting: 10 s.
0 to 255
1s
0
No
---
Used to set the open-phase detection level for Inverter
output current.
Note Nothing detected if set to 0.
0 to 100
1%
0
No
---
0.0 to
2.0
0.1 s
0.0
No
---
Note Recommended setting: 7%.
Note Set a lower value if the capacity of the applicable
motor is small compared to the capacity of the
Inverter.
Note Recommended setting: 5%.
n169
Output open-phase
detection time
(see note 3)
Used to set the open-phase detection time for Inverter
output current.
Note Nothing detected if set to 0.0
n170 to
n174
Not used
---
---
---
---
---
---
n175
Low carrier frequency at low speed
This function automatically reduces the carrier frequency to 2.5 kHz if the output frequency is 5 kHz or less,
and the output current is 110% or greater than the rated
Inverter current. Normally this setting is not necessary.
This function improves the overload capacity at low
frequencies.
0, 1
1
0 (see
note 2)
No
---
n176
Parameter copy and
verify function selection
Used to select the function to read, copy, and verify the
parameter between the memory of the Inverter and that
of the Digital Operator.
rdy to
Sno
---
rdy
No
---
n177
Parameter read prohibit selection
Used to select the copy-prohibit function.
0, 1
1
0
No
---
Fault log
Used to display the four most recent faults recorded.
---
---
---
---
---
---
---
---
---
---
Note Recommended setting: 0.2 s.
n178
Set this parameter to store the data in the EEPROM of
the Digital Operator.
Fault generation
item
Display
Note The most recent fault is indicated by “1.”
Note This parameter is monitored only.
n179
Software number
Used to display the software number of the Inverter for
OMRON’s control reference use.
Note This parameter is monitored only.
Note: 1. Values longer than 4 digits are rounded up to the next unit multiple.
2. The default setting for 5.5/7.5-kW Inverters is “1.”
3. Functions marked with an asterisk are available only with 5.5/7.5-kW Inverters.
19
Function of Each Parameter
Note: The shaded values indicate default settings.
Parameter Write-prohibit Selection/Parameter
Initialization (n001)
This parameter makes it possible to write-prohibit parameters,
change the parameter set or displayed range, or initialize all parameters to default values.
Value
0
Description
Displays and sets n001. Parameters from n002 to n179 can be
displayed only.
1
Sets or monitors parameters n001 through n049 (i.e., function
group 1 settings).
2
Sets or monitors parameters n001 through n079 (i.e., function
groups 1 and 2 settings).
3
Sets or monitors parameters n001 through n119 (i.e., function
groups 1 through 3 settings).
4
Sets or monitors parameters n001 through n179 (i.e., function
groups 1 through 4 settings).
6
Clears the error log.
8
Initializes parameters to default settings in 2-wire sequence.
9
Initializes parameters in 3-wire sequence.
10
For the USA, initializes parameter in 2-wire sequence
11
For the USA, initializes parameter in 3-wire sequence
Frequency Reference Selection (n004)
(Remote Mode)
Select the method for inputting the frequency reference to the Inverter in remote mode.
Value
Description
0
The FREQ adjuster of the Digital Operator is enabled.
1
Frequency reference 1 (n024) is enabled.
2
The frequency reference control terminal (for 0- to 10-V input) is
enabled.
3
The frequency reference control terminal (for 4- to 20-mA current
input) is enabled.
4
The frequency reference control terminal (for 0- to 20-mA current
input) is enabled.
5
The pulse train command control input is enabled.
6
Frequency reference (0002 Hex) through RS-422/485
communications is enabled.
7
Multi-function analog voltage input (0 to 10 V) is enabled.
8
Multi-function analog current input (4 to 20 mA) is enabled.
9
Frequency reference input from option (CompoBus/D
Communications Unit) is enabled.
Interruption Mode Selection (n005)
Control Mode Selection (n002)
The 3G3MV Inverter operates in vector or V/f control mode to be
selected according to the application.
Value
Description
0
V/f control mode
1
Vector control mode (open loop)
Note:
1. This parameter is not initialized when parameter initialization
is performed using n001 (parameter write-prohibit selection/
parameter initialization).
2. The following parameters are initialized when n002 is
changed. The default values vary with the control mode.
n014: Middle output frequency
n015: Middle output frequency voltage
n016: Minimum output frequency
n017: Minimum output frequency voltage
n104: Torque compensation primary-delay time constant
n111: Slip compensation gain
n112: Slip compensation primary-delay time constant
Operation Mode Selection (n003)
Select the method of operation mode input to start or stop the Inverter in remote mode.
Value
Description
0
The RUN and STOP/RESET Keys of the Digital Operator are
enabled.
1
Multi-function input in 2- or 3-wire sequence through the control
circuit terminals is enabled.
2
RS-422/485 communications are enabled.
3
Input from option (CompoBus/D Communications Unit) is enabled.
Select the stopping method to be used when the STOP command is input.
Value
Frequency deceleration stop (Decelerates to stop in preset time.)
1
Free running (Output shut OFF by STOP command.)
Reverse Rotation-prohibit Selection (n006)
Select the operation to be performed when the reverse rotation
command is input.
Value
20
Description
0
Reverse rotation possible (command accepted)
1
Reverse rotation prohibited (command not accepted)
STOP/RESET Key Function Selection (n007)
When parameter n003 is not set to 0, set whether or not to use
the STOP/RESET Key of the Digital Operator to stop the Inverter
in remote mode. The STOP/RESET Key is always enabled in
local mode regardless of the setting in n007.
Value
Description
0
The STOP/RESET Key of the Digital Operator is enabled.
1
The STOP/RESET Key of the Digital Operator is disabled.
Frequency Reference Selection (n008)
(Local Mode)
Select the input method of frequency references in local mode.
Value
Note: In local mode, RUN commands can be entered using the
Digital Operator only.
Description
0
Description
0
The FREQ adjuster of the Digital Operator is enabled.
1
Key sequences on the Digital Operator are enabled. (Set in n024.)
Function of Each Parameter
Key Sequential Frequency Setting (n009)
Select whether to enable the Enter Key when setting the frequency reference with the Increment and Decrement Keys on
the Digital Operator.
Value
Description
0
The Enter Key is enabled. (The setting is made valid by pressing
the Enter Key.)
1
The Enter Key is disabled. (The setting is directly treated as a
frequency reference without the Enter Key being pressed.)
Operation Selection at Digital Operator
Interruption (n010)
Select whether or not to detect Digital Operator connection
errors.
Value
Description
0
The Digital Operator connection error is not detected (Nonfatal
error)
1
The Digital Operator connection error is detected (Error output
and the Inverter coasts to a stop)
Acceleration/Deceleration Time Setting Unit
(n018)
Select the acceleration or deceleration time unit of the Inverter.
Value
Less than 1,000 s: 0.1-s increments
1,000 s or over: 1-s increments
1
Less than 100 s: 0.01-s increments
100 s or over: 0.1-s increments
Acceleration/Deceleration Time Settings
(n019 to n022)
The acceleration time is the time required to go from 0% to 100%
of the maximum frequency and the deceleration time is the time
required to go from 100% to 0% of the maximum frequency. The
actual acceleration or deceleration time is obtained from the following formula.
Acceleration/Deceleration time =
(Acceleration/Deceleration time set value) × (Frequency reference value) ÷ (Max. frequency)
Value
V/f Pattern Settings (n011 to n017)
Used to set the V/f pattern as the basic characteristic of the
Inverter.
V/f control mode: set output voltage per frequency
Vector control mode: set for torque adjustment
Value
Name
Setting
range
Unit of
setting
Default
settings
n011
Maximum Frequency
(FMAX)
50.0 to 400
0.1 Hz
60.0
n012
Maximum Voltage
(VMAX)
0.1 to 255.0
(0.1 to 510.0)
0.1 V
200.0
(400.0)
n013
Maximum Voltage Frequency (FA)
0.2 to 400.0
0.1 Hz
60.0
n014
Middle Output Frequency (FB)
0.1 to 399.9
0.1 Hz
1.5
n015
Middle Output Frequency Voltage (VC)
0.1 to 255.0
(0.1 to 510.0)
0.1 V
12.0 (24.0)
(see note
2)
n016
Minimum Output Frequency (FMIN)
0.1 to 10.0
0.1 Hz
1.5
n017
Minimum Output Frequency Voltage (VMIN)
0.1 to 50.0
0.1 V
12.0 (24.0)
(see note
2)
Note:
1. () values indicate those for 400-V-class Inverters.
2. The default settings of n015 and n017 are 10.0 V for
200-V-class, 5.5/7.5 Inverters and 20.0 V for 400-V-class,
5.5/7.5 Inverters.
Description
0
Name
Setting
range
Unit of
setting
0.0 to 6000
0.1 s
(Change
in n018.)
Default
settings
n019
Acceleration time 1
n020
Deceleration Time 1
10.0
n021
Acceleration time 2
10.0
n022
Deceleration Time 2
10.0
10.0
S-shape Acceleration/Deceleration Characteristic
Selection (n023)
Any one of three S-shape acceleration/deceleration times (0.2,
0.5, and 1.0 s) is selectable.
Value
Description
0
No S-shape acceleration/deceleration characteristic (Trapezoidal
acceleration/deceleration)
1
S-shape acceleration/deceleration characteristic time is 0.2 s
2
S-shape acceleration/deceleration characteristic time is 0.5 s
3
S-shape acceleration/deceleration characteristic time is 1.0 s
Note: When the S-shape acceleration/deceleration characteristic time is set, the acceleration and deceleration times
will be lengthened according to the S-shape at the beginning and end of acceleration/deceleration.
Output voltage (V)
n012
n015
n017
0
Note:
n016
n014
n013
n011
Frequency
(Hz)
1. Set the parameters so that the following condition will be satisfied.
n016 x n014 < n013 x n011
2. The value set in n015 will be ignored if parameters n014 and
n016 are the same in value.
21
Function of Each Parameter
Frequency References 1 to 16 and Inching
Frequency Command Settings (n024 to n031,
n120 to n127 and n032)
Name
Setting
range
Unit of
setting
0.00 to max.
frequency
0.01 Hz
(Change
in n035.)
Frequency reference 1
n025
Frequency reference 2
n026
Frequency reference 3
0.00
n027
Frequency reference 4
0.00
n028
Frequency reference 5
0.00
n029
Frequency reference 6
0.00
n030
Frequency reference 7
0.00
n031
Frequency reference 8
0.00
n120
Frequency reference 9
0.00
n121
Frequency reference 10
0.00
n122
Frequency reference 11
0.00
n123
Frequency reference 12
0.00
n124
Frequency reference 13
0.00
n125
Frequency reference 14
0.00
n126
Frequency reference 15
0.00
n127
Frequency reference 16
0.00
n032
Inching frequency command
6.00
6.00
0.00
1. Frequency reference 1 is enabled with n004 for frequency
reference selection set to 1. (Remote mode)
2. Frequency references 1 to 16 are enabled by setting multistep speed references 1, 2, and 3 in n36 to n39 for multi-function input. Refer to the following table for the relationship between multi-step speed references 1 to 3 and frequency references 1 to 8.
Frequency
reference
Multi-step
speed
reference 1
Multi-step
speed
reference 2
Multi-step
speed
reference 3
Multi-step
speed
reference 4
Frequency
reference 1
OFF
OFF
OFF
OFF
Frequency
reference 2
ON
OFF
OFF
OFF
Frequency
reference 3
OFF
ON
OFF
OFF
Frequency
reference 4
ON
ON
OFF
OFF
Frequency
reference 5
OFF
OFF
ON
OFF
Frequency
reference 6
ON
OFF
ON
OFF
Frequency
reference 7
OFF
ON
ON
OFF
Frequency
reference 8
ON
ON
ON
OFF
Frequency
reference 9
OFF
OFF
OFF
ON
Frequency
reference 10
ON
OFF
OFF
ON
Frequency
reference 11
OFF
ON
OFF
ON
Frequency
reference 12
ON
ON
OFF
ON
Frequency
reference 13
OFF
OFF
ON
ON
Frequency
reference 14
ON
OFF
ON
ON
22
ON
ON
ON
Frequency
reference 16
ON
ON
ON
ON
1. “ON” and “OFF” represent “input ON” and “input OFF,” respectively.
2. Inching frequency commands take precedence over multistep speed references.
Default
settings
n024
Note:
OFF
Note:
Set internal frequency references.
Value
Frequency
reference 15
Frequency Reference Upper and Lower Limit
Settings (n033 and n034)
Set the upper and lower frequency reference limits in percentage based on the maximum frequency as 100%.
Value
Name
Setting
range
Unit of
setting
Default
settings
n33
Frequency Reference
Upper Limit
0 to 110
1%
100
n34
Frequency Reference
Lower Limit
0 to 110
1%
0
Note: If n034 is set to a value less than the minimum output frequency (FMIN) (n016), the Inverter will have no output
when a frequency reference less than the minimum output frequency input is ON.
Frequency Reference Setting/Display Unit
Selection (n035)
Set the unit of frequency reference and frequency-related values to be set or monitored in n035 through the Digital Operator.
Value
Description
0
0.01 Hz increments
1
0.1% increments
2 to 39
1-rpm increments
40 to 3,999
Unit setting:
The value to be set or monitored at max. frequency
jjjj
Three digits
Decimal place
Note: The unit of setting of each parameter and monitor item
below varies with the decimal place.
Parameters: n024 to n032, n120 to n127
Monitor Items: U-01, U-02
Rated Motor Current Setting (n036)
Set the rated motor current as the reference value for motor
overload detection (OL1).
Note:
1. In vector control mode, this parameter is used as a constant
for vector control operation.
2. Setting 0.0 disables the motor overload detection (OL1) function.
3. The rated motor current value is factory-set for each Inverter
according to the maximum applicable motor capacity.
Value
Name
Setting range
n036
Rated Motor
Current
0.0% to 150% (A) of rated
output current of Inverter
Unit of
setting
0.1 A
Default settings
Varies with
the capacity.
Function of Each Parameter
Motor Protection Characteristic Selection (n037)
Value
0
Set the motor overload detection (OL1) for the electronic thermal
characteristics of the motor.
Value
Description
0
Protection characteristics for general-purpose induction motors
1
Protection characteristics for Inverter-dedicated motors
2
No protection
Note: When connecting multiple motors to one Inverter, set 2
(equivalent to n036 = 0.0). In addition, take overload prevention measures by mounting a thermal relay in each
motor, for example.
Set the electronic thermal characteristics of the motor to be connected in 1-minute increments.
n038
Note:
Name
Motor Protective Time
Setting
Setting
range
1 to 60
Unit of
setting
1 min
Default
settings
Cooling Fan Operation Function Selection (n039)
This parameter is used to operate the cooling fan of the Inverter
while the Inverter is turned on or only while the Inverter is in operation.
Value
Description
0
The fan rotates only while the RUN command is input and for 1
minute after the Inverter stops operating.
1
The fan rotates while the Inverter is turned ON.
Note:
1. This parameter is available only if the Inverter incorporates a
cooling fan.
2. If the operation frequency of the Inverter is low, the life of the
fan can be prolonged by setting the parameter to 0.
Value
Name
Setting range
Unit of
setting
Default
settings
n050
Multi-function Input 1 (S1)
1 to 26
1
1
n051
Multi-function Input 2 (S2)
1 to 26
1
2
n052
Multi-function Input 3 (S3)
0 to 26
1
3
n053
Multi-function Input 4 (S4)
1 to 26
1
5
n054
Multi-function Input 5 (S5)
1 to 26
1
6
n055
Multi-function Input 6 (S6)
1 to 26
1
7
n056
Multi-function Input 7 (S7)
1 to 26, 34, 35
1
10
S1:
RUN input (RUN when ON)
S2:
STOP input
(STOP when OFF)
S3:
Forward/Reverse rotation command
(ON: Reverse)
Forward/Stop
Forward rotation command in 2-wire sequence
Reverse/Stop
Reverse rotation command (2-wire sequence)
(ON: Reverse)
3
External fault
(NO)
ON: External fault
4
External fault
(NC)
OFF: External fault
5
Fault reset
ON: Fault reset
6
Multi-step
speed
reference 1
Signals to select frequency references 2 to 16.
7
Multi-step
speed
reference 2
8
Multi-step
speed
reference 3
9
Multi-step
speed
reference 4
10
Inching frequency
command
ON: Inching frequency command
11
Acceleration/
Deceleration
time selection
ON: Acceleration/deceleration time 2
12
External base
block command
(NO)
ON: Output shut OFF
13
External base
block command
(NC)
OFF: Output shut OFF
14
Search command (Searching starts from
maximum
frequency)
ON: Speed search (Searching starts from n09)
15
Search command (Searching starts from
preset
frequency)
ON: Speed search (Searching starts from the
frequency specified by n03.)
16
Acceleration/
Decelerationprohibit
command
ON: Acceleration/Deceleration is on hold
17
Local or remote
selection
ON: Local mode (operated with the Digital
Operator)
18
Communications/Remote
selection
ON: Communications input is enabled.
Multi-function Input Selection (n050 to n056)
Select the functions of multi-function input terminals S1 to S7.
This setting overrides the settings in n050 and
n051.
2
8
1. The default setting does not need any changes in normal operation.
2. To set the parameter according to the characteristics of the
motor, confirm the thermal time constant with the motor
manufacturer and set the parameter with some margin. In
other words, set the value a little shorter than the thermal time
constant.
3. To detect motor overloading more quickly, reduce the set value, provided that it does not cause any application problems.
Description
3-wire sequence (to be set in n052 only)
1
Motor Protective Time Setting (n038)
Value
Function
Forward/Reverse rotation
command
23
Function of Each Parameter
19
Emergency
stop fault (NO)
20
Emergency
stop alarm (NO)
21
22
23
Emergency
stop fault (NC)
Emergency
stop alarm (NC)
PID control
cancel
The Inverter stops according to the setting in
n005 for interruption mode selection when the
emergency stop input turns ON.
Note
NO: Emergency stop with the contact
closed.
NC: Emergency stop with the contact
opened.
Note
Fault: Fault output is ON and reset with
RESET input. Alarm output is ON (no
reset required).
Note
6
Overtorque
being monitored
(NO-contact
output)
• Overtorque detection function selection 1
(n096)
• Overtorque detection function selection 2
(n097)
7
Overtorque
being monitored
(NC-contact
output)
• Overtorque detection level (n098)
10
Alarm output
ON: Alarm being detected (Nonfatal error)
Base block in
progress
ON: Base block in progress
“STP” is displayed (lit with fault input
ON and flashes with alarm input ON)
ON: PID control is disabled.
Output if any of the following parameter
conditions is satisfied.
• Overtorque detection time (n099)
Note
NO contact: ON with overtorque being detected; NC contact: OFF with
overtorque being detected
24
PID control
integral reset
ON: Integral value is reset (cleared).
11
25
PID control
integral hold
ON: Integral value is kept on hold (fixed).
12
RUN mode
ON: Local mode
13
Inverter ready
ON: Inverter ready to operate
Inverter overheating warning
OH3
ON: “OH3” displayed at the Digital Operator and
Inverter overheating warning output turns ON
(multi-function output).
Note
Operation is continued during input.
When the input is turned OFF, the message is displayed and the output
unlocked.
14
Fault retry
ON: Fault retry
15
UV in progress
ON: Undervoltage being monitored (main circuit
undervoltage UV or UV1 detected)
16
Rotating in
reverse
direction
ON: Rotating in reverse direction
Note
17
Speed search
in progress
ON: Speed search in progress
18
Communications output
Turns communications output 1 ON.
19
PID feedback
loss
ON: PID feedback being lost
20 (see
note 2)
Frequency
reference loss
ON: Frequency reference being lost
(Used when frequency reference loss
processing selection (n064) is enabled and
analog input or pulse train input is set with
frequency reference selection (n004).)
21 (see
note 2)
Inverter
overheating
warning OH3
ON: Inverter overheating warning
(ON while the multi-function input Inverter
overheating warning signal is input (OH3
flashes).)
26
(see
note)
34
Up or down
command
Used, for example, when displaying
the input status of an external thermal
relay.
Up or down command (set in n056 only)
This setting overrides the n055 setting.
S6: Up command
S7: Down command
35
Self-diagnostic
test
ON: RS-422/485 communications self-diagnostic
test (set in n056 only)
Note: The inverter overheating warning is available only with
5.5/7.5-kW Inverters.
Multi-function Output Selection (n057 to n059)
Note:
Select the functions of multi-function output terminals.
Value
Name
Setting
range
Unit of
setting
Default
settings
n057
Multi-function Output 1
(MA/MB and MC)
0 to 7, 10 to
21
1
0
n058
Multi-function Output 2
(P1-PC)
0 to 7, 10 to
21
1
1
n059
Multi-function Output 3
(P2-PC)
0 to 7, 10 to
21
1
2
Value
Function
Description
0
Fault output
ON: Fault output
1
Operation in
progress
ON: Operation in progress
2
Frequency
detection
ON: Frequency detection
3
Idling
ON: Idling
4
Frequency
detection 1
ON: Output frequency y frequency detection
level (n095)
5
Frequency
detection 2
ON: Output frequency x frequency detection
level (n095)
24
1. Use the operation in progress setting (set value: 1) or the
idling setting (set value: 3) to control the timing at which the
motor is dampened by its brake. To set the stop timing with
precision, set the frequency detection 1 or 2 setting (set values: 4 or 5), and use the frequency detection level (n095).
2. Frequency reference loss and Inverter overheating warning
OH3 settings are available only with 5.5/7.5-kW Inverters.
Function of Each Parameter
Gain and Bias Settings (n060 and n061)
Multi-function Analog Output Gain Setting (n067)
Set the input characteristics of analog frequency references in
n41 (for the frequency reference gain) and n42 (for the frequency reference bias).
Set the output characteristics of multi-function analog output.
Value
Name
Setting
range
Unit of
setting
Default
settings
Set the frequency of maximum analog input (10 V or 20 mA) in
n41 as percentage based on the maximum frequency as 100%.
n067
Set the frequency of minimum analog input (0 V, 0 mA, or 4 mA)
in n42 as percentage based on the maximum frequency as
100%.
Gain and Bias Settings of Multi-function Analog
Voltage Input (n068 and n069)
Value
Name
Setting
range
Unit of
setting
Default
settings
n060
Frequency Reference
Gain
0 to 255
1%
100
n061
Frequency Reference
Bias
–99 to 99
1%
0
Analog Frequency Reference Filter Time Setting
(n062)
The digital filter with a first-order lag can be set for analog frequency references to be input.
Value
n062
Name
Analog Frequency Reference Filter Time
Setting
range
0.00 to 2.00
Unit of
setting
0.01 s
Multi-function Analog Output Type Selection
(n065)
Select the multi-function analog output type.
Value
Description
0
Analog voltage output (functions set in n066)
1
Pulse train output (functions set in n150)
Multi-function Analog Output Selection (n066)
Select the monitor item with n065 set to 0.
Value
Description
0
Output frequency (with 10-V output at max. frequency)
1
Output current (with 10-V output with Inverter rated output current)
(see note 3)
2
Main-circuit DC voltage (with 10-V output at 400 [800] V DC)
3
Vector operation torque monitor (Reference: 10-V output at rated
motor torque)
4
Output power (with 10-V output at power equivalent to max.
applicable motor capacity)
5
Output voltage (with 10-V output at 200 [400] V AC)
Note:
1. Values in ( ) apply with n067 set to 1.00.
2. Values in [ ] are for 400-V models.
3. Output current is not available in vector control mode.
0.00 to 2.00
0.01
1.00
Set the input characteristics of multi-function analog voltage
input.
Gain: Set the frequency of maximum analog input (10 V) in percentage based on the maximum frequency as 100%.
Bias: Set the frequency of minimum analog input (0 V) in percentage based on the maximum frequency as 100%.
Value
Name
Setting
range
Unit of
setting
Default
settings
n068
Multi-function Analog
Voltage Input Gain
–255 to 255
1%
100
n069
Multi-function Analog
Voltage Input Bias
–100 to 100
1%
0
Default
settings
0.10
Multi-function Analog
Output Gain
Filter Time Constant Settings of Multi-function
Analog Voltage Input (n070)
Use this parameter to set a primary-delay digital filter for multifunction analog voltage input.
Value
n070
Name
Multi-function Analog
Voltage Input Filter Time
Constant
Setting
range
0.00 to 2.00
Unit of
setting
0.01 s
Default
settings
0.10
Gain and Bias Settings of Multi-function Analog
Current Input (n071 and n072)
Set the input characteristics of multi-function analog current
input.
Gain: Set the frequency of maximum analog input (20 mA) in
percentage based on the maximum frequency as 100%.
Bias: Set the frequency of minimum analog input (0 V) in percentage based on the maximum frequency as 100%.
Value
Name
Setting
range
Unit of
setting
Default
settings
n071
Multi-function Analog
Current Input Gain
–255 to 255
1%
100
n072
Multi-function Analog
Current Input Bias
–100 to 100
1%
0
25
Function of Each Parameter
Filter Time Constant Settings of Multi-function
Analog Current Input (n073)
Use this parameter to set a primary-delay digital filter for multifunction analog current input.
Value
n073
Name
Multi-function Analog
Current Input Filter Time
Constant
Setting
range
0.00 to 2.00
Unit of
setting
0.01 s
Default
settings
0.10
Frequency Reference Settings by Pulse Train
Input (n074, n075 and n149)
Set the input characteristics of pulse train input.
Gain: Set the gain in percentage based on the maximum frequency of the pulse train input scale in n149 as 100%.
Bias: Set the bias in percentage for frequency reference input at
0-Hz pulse train input based on the maximum frequency as
100%.
Value
Name
Setting
range
Unit of
setting
Default
settings
n074
Pulse Train Frequency
Reference Gain
–255 to 255
1%
100
n075
Pulse Train Frequency
Reference Bias
–100 to 100
1%
0
n149
Pulse Train Input Scale
100 to 3300
1
(10 Hz)
2500
Note: These settings are enabled when n004 (frequency reference selection) is set to 5 (pulse train command control
input enabled).
Carrier Frequency Selection (n080)
Set the carrier frequency.
Value
Description
1
2.5 kHz
2
5.0 kHz
3
7.5 kHz
4
10.0 kHz
7
2.5 kHz (12×): 12 times as high as output frequency (between 1.0
and 2.5 kHz)
8
2.5 kHz (24×): 24 times as high as output frequency (between 1.0
and 2.5 kHz)
9
2.5 kHz (36×): 36 times as high as output frequency (between 1.0
and 2.5 kHz)
Note: Normally, the factory setting need not be changed.
Momentary Power Interruption Compensation
Setting (n081)
The parameter specifies the processing that will be performed
when a momentary power interruption occurs.
Value
Description
0
Disabled.
1
The Inverter will continue operating if power is restored within 0.5 s.
2
The Inverter will restart when power is restored.
26
Fault Retry Setting (n082)
Set the number of times the Inverter is to be automatically reset
and restarted when the Inverter has an overvoltage fault, overcurrent fault, or ground fault.
Value
n082
Name
Fault Retry
Setting
range
0 to 10
Unit of
setting
1
Default
settings
0
Function of Each Parameter
Frequency Jump Function Setting (n083 to n086)
Set the frequency jump function.
Value
Name
Setting
range
Unit of
setting
Default
settings
Stall Prevention Selection during Deceleration
(n092)
Select a function to change the deceleration time of the motor
automatically so that there will be no overvoltage imposed on the
motor during deceleration.
n083
Jump Frequency 1
0.0 to 400
0.1 Hz
0.0
n084
Jump Frequency 2
0.0 to 400
0.1 Hz
0.0
n085
Jump Frequency 3
0.0 to 400
0.1 Hz
0.0
0
Stall prevention during deceleration
n086
Jump Width
0.0 to 25.5
0.1 Hz
0.0
1
No stall prevention during deceleration
Note: These values must satisfy the following condition.
n083 y n084 y n085
Value
Description
Output frequency
Deceleration time is
controlled to prevent
overvoltage.
Output frequency
Time
n086
Deceleration time (Set value)
n085
n084
Reference
frequency
n083
Stall Prevention Level Setting during Acceleration
(n093)
DC Control Function Setting (n089 to n091)
Used to impose DC on the induction motor for braking control.
Value
Name
Setting
range
Unit of
setting
Note: Be sure to set the parameter to 1 when the Braking
Resistor Unit or a braking resistor is used as an option.
Default
settings
n089
DC Control Current
0 to 100
1%
50
n090
Interruption DC Control
Time
0.0 to 25.5
0.1 s
0.5
n091
Startup DC Control Time
0.0 to 25.5
0.1 s
0.0
Set the operation level of a function to stop the acceleration of
the motor automatically for stall prevention during acceleration.
Set this value in percentage based on the rated output current of
the Inverter as 100%.
Value
n093
DC Control Current:
Set this value in percentage based on the rated output current of
the Inverter as 100%.
Name
Stall Prevention Level
during Acceleration
Setting
range
30 to 200
Unit of
setting
1%
Default
settings
170
Stall Prevention during Acceleration
Output
current
n093
Output
frequency
Time
Output
frequency
FMIN
(n016)
Time
n091
n090
The output frequency is
controlled so that the
Inverter will not stall.
Time
27
Function of Each Parameter
Stall Prevention Level Setting during Operation
(n094)
Set the operation level of a function to reduce the output frequency of the Inverter automatically for stall prevention during operation. Set this value in percentage based on the rated output current of the Inverter as 100%.
Value
n094
Name
Stall Prevention Level
during Operation
Setting
range
30 to 200
Unit of
setting
1%
Default
settings
Set n096 to enable or disable overtorque detection and select
the processing to be performed after overtorque detection.
Value
Description
0
Inverter does not monitor overtorque.
1
Inverter monitors overtorque only when speed is matched. It
continues operation (issues warning) even after overtorque is
detected.
2
Inverter monitors overtorque only when speed is matched. It
discontinues operation (through protective function) when
overtorque is detected.
3
Inverter always monitors overtorque during operation. It continues
operation (issues warning) even after overtorque is detected.
4
Inverter always monitors overtorque during operation. It
discontinues operation (through protective function) when
overtorque is detected.
160
Stall Prevention during Operation
Output
current
Overtorque Detection Function Selection
(n096 to n099)
n094
Time
Select the item to detect overtorque in n097.
Output
frequency
Value
The output frequency is
controlled so that the
Inverter will not stall.
Time
Frequency Detection Level Setting (n095)
Note: When frequency detection 1 and 2 are to be output, n40
(multi-function output) must be set.
n095
Name
Frequency Detection Level
Setting
range
Unit of
setting
0.00 to 400
0.01 Hz
Detects overtorque from output torque.
1
Detects overtorque from output current.
Set the overtorque detection level in n098 and the overtorque
detection time in n099.
Value
Set the frequency to be detected.
Value
Description
0
Name
Setting
range
Unit of
setting
Default
settings
n098
Overtorque Detection Level
30 to 200
1%
160
n099
Overtorque Detection Time
0.1 to 10.0
0.1 s
0.1
Note:
Default
settings
0.00
1. In n098, set the detection level for overtorque detection in the
following way:
Detection from output torque: Set in percentage based on the
rated motor torque as 100%.
Detection from output current: Set in percentage based on
the rated Inverter output current as 100%.
2. In n099, set the overtorque detection time in seconds.
Overtorque Detection
See note.
Output
current
n098
Time
Overtorque
detection
(NO)
n099
Time
Note:
28
Overtorque detection will be canceled if the output current decreases from the detection level by approximately 5% of the
Inverter rated current.
Function of Each Parameter
UP/DOWN Command Frequency Memory
Selection (n100)
Select whether to store the frequency reference adjusted with
the UP/DOWN function.
Value
Description
0
The frequency on hold is not retained.
1
The frequency on hold for 5 s or more is retained.
The UP/DOWN function uses UP and DOWN commands to
change frequency references.
When using the UP/DOWN function, set multi-function input 7
(n056) to 34 (UP or DOWN command). The terminals for multifunction input 6 (S6) and multi-function input 7 (S7) will be set to
function in the following way:
Multiple-function input 6 (S6): UP command
Multiple-function input 7 (S7): DOWN command
Use n100 (UP/DOWN command frequency memory) to set
whether the frequency reference on hold is stored or not when
an UP or DOWN command is sent to the multi-function input terminals.
If n100 is set to 1, the output frequency held by the UP/DOWN
function for 5 s or more will be stored in the memory. This value
will be stored in memory even if power is interrupted. When a
RESET command is input, operation will start with this value as
the frequency.
If n100 is set to 0, the frequency will be cleared. If parameter initialization is performed (i.e.: n01 is set to 8 or 9), the stored frequency will be initialized.
Note: If the UP/DOWN function is used in remote mode, frequency references can only be given with UP/DOWN
commands and inching commands. Multi-step speed
references will be invalid.
Operation of UP/DOWN Function
RUN command
(Forward rotation)
Time
UP command (S6)
Time
DOWN command
(S7)
Time
Output frequency
Upper limit
Lower limit
Time
Status
Frequency
detection
Note: Status
Time
U: UP (acceleration)
D: DOWN (deceleration)
H: Hold
U1: Frequency acceleration restricted by upper limit.
D1: Frequency deceleration restricted by lower limit.
29
Specifications
Specifications
200-V-class Inverters
3-phase
200-V AC
models
Singlephase
200-V AC
models
Model 3G3MVPower
supply
A2001
A2002
A2004
A2007
A2015
A2022
A2037
A2055
A2075
Rated voltage and frequency
3-phase 200 to 230 V AC at 50/60 Hz
Allowable voltage fluctuation
–15% to 10%
Allowable frequency fluctuation
±5%
Power supply capacity (kVA)
(see note 1)
0.4
0.9
1.6
2.7
4.3
5.9
9.3
13.3
17.6
Heat radiation (W) (see note 2)
13.0
18.0
28.1
45.1
72.8
94.8
149.1
249.8
318.1
Weight (kg)
0.6
0.6
0.9
1.1
1.4
1.5
2.1
4.6
4.8
Cooling method
Natural cooling
Model 3G3MVPower
supply
AB001
Cooling fan
AB002
AB004
AB007
AB015
AB022
AB037
---
---
Rated voltage and frequency
Single-phase 200 to 240 V AC at 50/60 Hz
Allowable voltage fluctuation
–15% to 10%
Allowable frequency fluctuation
±5%
Power supply capacity (kVA)
(see note 1)
0.5
0.9
1.6
2.7
4.3
5.9
9.3
---
---
Heat radiation (W) (see note 2)
14.1
20.0
31.9
51.4
82.8
113.6
176.4
---
---
Weight (kg)
0.6
0.7
1.0
1.5
1.5
2.2
2.9
---
---
Cooling method
Natural cooling
Cooling fan
Note: 1. The power supply capacity, is the capacity when the Inverter is operating at its rated output. The value will vary with the
impedance at the input power supply side. (Because the power factor of the input power supply changes, the power factor
will improve if an AC reactor is inserted.) The ratio with the rated current of the motor used and the rated output current of
the Inverter will vary.
2. The “heat radiation” is the power consumed in the Inverter when it is operating at its rated output.
Max. applicable motor capacity (kW)
0.1
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
Output specifications
Rated output capacity (kVA)
0.3
0.6
1.1
1.9
3.0
4.2
6.7
9.5
13.0
Rated output current (A)
0.8
1.6
3.0
5.0
8.0
11.0
17.5
25.0
33.0
Rated output voltage (V)
3-phase 200 to 240 V AC (according to the input voltage)
Max. output frequency
400 Hz parameter setting
Harmonic-current countermeasures
DC reactor (option) connection possible
Control method
Sine wave PWM (V/f control or vector control)
Carrier frequency
2.5 to 10.0 kHz (in vector control)
Frequency control range
0.1 to 400 Hz
Frequency precision (temperature
characteristics)
Digital commands: ±0.01% (–10°C to 50°C)
Analog commands: ±0.5% (25°C ± 10°C)
Frequency setting resolution
Digital commands: 0.01 Hz (less than 100 Hz) and 0.1 Hz (100 Hz or over)
Analog commands: 0.06 Hz/60 Hz (equivalent to 1/1000)
Output frequency resolution
0.01 Hz
Overload capacity
150% of rated output current for 1 min
External frequency set signal
Selectable with FREQ adjuster: 0 to 10 V DC (20 kΩ), 4 to 20 mA (250 Ω), and 0 to 20 mA (250 Ω)
Acceleration/deceleration time
0.0 to 6,000 s (Independent acceleration and deceleration time settings: 2 types)
Braking torque
Approx. 20% (125 to 150% possible with braking resistor)
Voltage/frequency characteristics
Set voltage vector control/user V/f pattern
Motor protection
Protection by electronic thermal
Instantaneous overcurrent protection
Stops at approx. 250% of rated output current
Overload protection
Stops in 1 min at approximately 150% of rated output current
Overvoltage protection
Stops when main-circuit DC voltage is approximately 410 V
Undervoltage protection
Stops when main-circuit DC voltage is approximately 200 V (160 V for single-phase 200-V AC model)
Momentary power interruption
compensation (selection)
Stops for 15 ms or more. By setting the Inverter to momentary power interruption mode, operation can be
continued if power is restored within approximately 0.5 s.
Cooling fin overheating
Detects at 110°C ± 10°C
Grounding protection
Protection at rated output current level
Charge indicator (RUN indicator)
Lit when the main circuit DC voltage is approximately 50 V or less.
Control characteristics
Protective
functions
30
Specifications
Environment
Location
Indoors (with no corrosive gas, oil spray, or metallic dust)
Ambient temperature
Operating: –10°C to 50°C
Closed wall-mounting
type: –10 to +40°C
Panel-mounting type:
–10 to +50°C
Ambient humidity
Operating: 95% max. (with no condensation)
Ambient temperature
–20°C to 60°C
Altitude
1,000 m max.
Insulation resistance
5 MΩ min. (Do not carry out any insulation resistance or withstand voltage tests)
Vibration resistance
9.8 m/s2 max. between 10 to 20 Hz
2.0 m/s2 max. between 20 and 50 Hz
Degree of protection
Panel-mounting models: Conforms to IP20
Closed wall-mounting
type: NEMA1 (IP20)
Panel-mounting type:
(IP00) (see note)
Note: The 5.5/7.5-kW Inverters are closed wall-mounting with NEMA1 degree of protection (equivalent to IP20). Remove the upper
and lower covers to use as a panel-mounting type (degree of protection: IP00).
31
Specifications
400-V-class Inverters
3-phase
400-V AC
models
Model 3G3MVPower
supply
A4002
A4004
A4007
A4015
A4022
A4037
A4055
A4075
Rated voltage
and frequency
3-phase 380 to 460 V AC at 50/60 Hz
Allowable
voltage
fluctuation
–15% to 10%
Allowable
frequency
fluctuation
±5%
Power supply
capacity
(see note 1)
1.3
1.9
3.6
5.1
5.9
9.1
15.8
19.2
Heat radiation (W) (see note
2)
23.1
30.1
54.9
75.3
83.0
117.9
256.5
308.9
Weight (kg)
1.0
1.1
1.5
1.5
1.5
2.1
4.8
4.8
Cooling method
Natural cooling
Cooling fan
Note: 1. The power supply capacity, is the capacity when the Inverter is operating at its rated output. The value will vary with the
impedance at the input power supply side. (Because the power factor of the input power supply changes, the power factor
will improve if an AC reactor is inserted.) The ratio with the rated current of the motor used and the rated output current of
the Inverter will vary.
2. The “heat radiation” is the power consumed in the Inverter when it is operating at its rated output.
Max. applicable motor capacity (kW)
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
Output
specifications
Rated output capacity
(kVA)
0.9
1.4
2.6
3.7
4.2
6.6
11.0
14.0
Rated output current (A)
1.2
1.8
3.4
4.8
5.5
8.6
14.8
18.0
Rated output voltage (V)
3-phase 380 to 460 V AC (according to the input voltage)
Max. output frequency
400 Hz parameter setting
Harmonic-current
countermeasures
DC reactor (option) connection possible
Control method
Sine wave PWM (V/f control or vector control)
Carrier frequency
2.5 to 10.0 kHz (step switching)
Frequency control range
0.1 to 400 Hz
Frequency precision
(temperature
characteristics)
Digital commands: ±0.01% (–10°C to 50°C)
Analog commands: ±0.5% (25°C ± 10°C)
Frequency setting
resolution
Digital commands: 0.01 Hz (less than 100 Hz) and 0.1 Hz (100 Hz or over)
Analog commands: 0.06 Hz/60 Hz (equivalent to 1/1000)
Output frequency
resolution
0.01 Hz
Overload capacity
150% of rated output current for 1 min
External frequency set
signal
Selectable with FREQ adjuster: 0 to 10 V DC (20 kΩ), 4 to 20 mA (250 Ω), and 0 to 20 mA (250 Ω)
Acceleration/deceleration
time
0.01 to 6,000 s (Independent acceleration and deceleration time settings)
Braking torque
Approx. 20% (125 to 150% possible with braking resistor: 2 types)
Voltage/frequency
characteristics
Set voltage vector control/user V/f pattern
Motor protection
Protection by electronic thermal
Instantaneous overcurrent
protection
Stops at approx. 250% of rated output current
Overload protection
Stops in 1 min at approximately 150% of rated output current
Overvoltage protection
Stops when main-circuit DC voltage is approximately 820 V
Undervoltage protection
Stops when main-circuit DC voltage is approximately 400 V
Momentary power
interruption compensation
(selection)
Stops for 15 ms or more. By setting the Inverter to momentary power interruption mode, operation can be
continued if power is restored within approximately 0.5 s.
Cooling fin overheating
Detects at 110°C ± 10°C
Grounding protection
Protection at overcurrent detection level
Charge indicator (RUN
indicator)
Lit until the main circuit DC voltage drops to 50 V or less.
Control
characteristics
Protective
functions
32
Specifications
Environment
Location
Indoors (with no corrosive gas, oil spray, or metallic dust)
Ambient temperature
Operating: –10°C to 50°C
Closed wall-mounting
type: –10 to +40°C
Panel-mounting type: –10
to +50°C
Ambient humidity
Operating: 95% max. (with no condensation)
Ambient temperature
–20°C to 60°C
Altitude
1,000 m max.
Insulation resistance
5 MΩ min. (Do not carry out any insulation resistance or withstand voltage tests)
Vibration resistance
9.8 m/s2 max. between 10 to 20 Hz
2.0 m/s2 max. between 20 and 50 Hz
Degree of protection
Panel-mounting models: Conforms to IP20
Closed wall-mounting
type: NEMA1 (IP20)
Panel-mounting type:
(IP00) (see note)
Note: The 5.5/7.5-kW Inverters are closed wall-mounting with NEMA1 degree of protection of (equivalent to IP20). Remove the
upper and lower covers to use as a panel-mounting type (degree of protection: IP00).
33
Specifications
Terminal Block
Position of Terminal Block
Control circuit
terminals
Main circuit terminals
Arrangement of Main Circuit Terminals
Power supply input
Motor output
Braking
Resistor
Symbol
R/L1
S/L2
T/L3
U/T1
Name
Power supply input
terminals
Description
3G3MV-A2j:
j 3-phase 200 to 230 V AC
3G3MV-ABj:
j Single-phase 200 to 240 V AC (see note 1)
3G3MV-A4j:
j 3-phase 380 to 460 V AC
Motor output terminals
3-phase power supply output for driving motors. (see note 2)
3G3MV-A2j: 3-phase 200 to 230 V AC
3G3MV-ABj:
j 3-phase 200 to 240 V AC
3G3MV-A4j: 3-phase 380 to 460 V AC
V/T2
W/T3
B1
B2
+1
+2
–
Braking Resistor
connection terminals
Terminals for attaching an external Braking Resistor or a Braking Resistor Unit.
(Connect to detect overvoltage during braking.)
Connection terminals +1
and +2:
DC reactor connection
terminals
Connect the DC reactor for suppressing harmonics to terminals +1 and +2.
When driving the Inverter with DC power, input the DC power to terminals +1 and –.
(Terminal +1 is a positive terminal.)
+1 and –:
DC power supply input
terminals
Ground terminal
Be sure to ground the terminal under the following conditions.
3G3MV-A2j: Ground at a resistance of 100 Ω or less.
3G3MV-ABj: Ground at a resistance of 100 Ω or less.
3G3MV-A4j: Ground at a resistance of 10 Ω or less. To conform to EC Directives,
connect to the neutral point of the power supply.
Note
Be sure to connect the ground terminal directly to the motor frame ground.
Note: 1. Connect single-phase input to both the R/L1 terminal and the S/L2 terminal.
2. The maximum voltage at the output side corresponds to the power supply voltage for Inverter input.
34
Specifications
Arrangement of Control Circuit Terminals
Symbol
Input
Name
Specification
Photocoupler
8 mA at 24 V DC (see note)
S1
Multi-function input 1 (Forward/Stop)
S2
Multi-function input 2 (Reverse/Stop)
S3
Multi-function input 3 (External fault:
Normally open)
S4
Multi-function input 4 (Fault reset)
S5
Multi-function input 5 (Multi-step speed reference 1)
S6
Multi-function input 6 (Multi-step speed reference 2)
S7
Multi-function input 7 (Inching frequency command)
SC
Sequence input common
FS
Frequency reference power supply output
20 mA at 12 V DC
FR
Frequency reference input
0 to 10 V DC (Input impedance: 20 kΩ))
FC
Frequency reference common
RP
Pulse train input
Response frequency: 0 to 33 kHz (30% to 70% ED)
H: 3.5 to 13.2 V
L: 0.8 V max.
(Input impedance: 2.24 kΩ)
Note:If 3G3MV-series multi-function analog output is used for pulse train
output, it can be connected directly to pulse train input.
Output
MA
Multi-function contact output (Normally open: During operation)
MB
Multi-function contact output (Normally closed: During operation)
MC
Multi-function contact output common
P1
Multi-function photocoupler output 1 (Fault)
P2
Multi-function photocoupler output 2 (Fault)
PC
Multi-function photocoupler output common
AM
Multi-function analog output
Relay output
1 A max. at 30 V DC
1 A max. at 250 V AC
Open collector output 50 mA max.
at 48 V DC
Analog output: 2 mA max. at 0 to 10 V DC
Pulse train output:
•
Voltage Output
Output voltage
(insulated type)
+5 V
+10 V
AC
Multi-function analog output common
•
Load impedance
Load impedance
1.5 kΩ min.
10 kΩ min.
External Power Supply
External power
supply (V)
+12 V DC
(±5%)
Sinking current
16 mA max.
External power
supply
+12 V DC
Load impedance
Sinking current
16 mA max.
External
power supply
GND
Note:Do not use a power supply of +5 V DC or +24 V DC. Doing so will damage the internal circuits or cause the circuits to malfunction.
Communications
R+
Receiver side
Conforming to RS-422/485
R–
S+
Sender side
S–
Note: Various functions can be selected for multi-function inputs 1 to 7, multi-function contact outputs, and multi-function photocoupler outputs by changing the parameter settings. The functions indicated in the parentheses are the default function settings.
35
Dimensions
Dimensions
3G3MV-A2001 to 3G3MV-A2007 (0.1 to 0.75 kW)
3-phase 200-V AC Input
3G3MV-AB001 to 3G3MV-AB004 (0.1 to 0.4 kW)
Single-phase 200-V AC Input
3G3MV-A2015 to 3G3MV-A2022 (1.5 to 2.2 kW)
3-phase 200-V AC Input
3G3MV-AB007 to 3G3MV-AB015 (0.75 to 1.5 kW)
Single-phase 200-V AC Input
3G3MV-A4002 to 3G3MV-A4022 (0.2 to 2.2 kW)
3-phase 400-V AC Input
Four, 5 dia.
Rated voltage
3-phase 200 V
AC
Single-phase
200 V AC
36
Model
3G3MVA2001
A2002
A2004
A2007
AB001
AB002
AB004
Dimensions (mm)
D
76
76
108
128
76
76
131
Weight (kg)
Rated voltage
t
3
3
5
5
3
3
5
Approx. 0.6
Approx. 0.6
Approx. 0.9
Approx. 1.1
Approx. 0.6
Approx. 0.7
Approx. 1.0
Model
3G3MV-
Dimensions (mm)
Weight (kg)
D
3-phase 200 V
AC
Single-phase
200 V AC
3-phase 400 V
AC
A2015
A2022
AB007
AB015
A4002
A4004
A4007
A4015
A4022
131
140
140
156
92
110
140
156
156
Approx. 1.4
Approx. 1.5
Approx. 1.5
Approx. 1.5
Approx. 1.0
Approx. 1.1
Approx. 1.5
Approx. 1.5
Approx. 1.5
Dimensions
3G3MV-A2037 (3.7 kW) 3-phase 200-V AC Input
3G3MV-AB022 (2.2 kW) Single-phase 200-V AC Input
3G3MV-A4037 (3.7 kW) 3-phase 400-V AC Input
Four, 5 dia.
Rated voltage
Dimensions (mm)
Model 3G3MV-
Weight (kg)
D
3-phase 200 V AC
A2037
143
Approx. 2.1
Single-phase 200 V AC
AB022
163
Approx. 2.2
3-phase 400 V AC
A4037
143
Approx. 2.1
3G3MV-AB037 (3.7 kW) Single-phase 200-V AC Input
Four, 5 dia.
Rated voltage
Dimensions (mm)
Model 3G3MV-
Weight (kg)
D
Single-phase 200 V AC
AB037
180
Approx. 2.9
37
Dimensions
3G3MV-A2055 to A2075 (5.5 to 7.5 kW) 3-phase 200 V AC Input
3G3MV-A4055 to A4075 (5.5 to 7.5 kW) 3-phase 400 V AC Input
Two, 6 dia.
Rated voltage
Dimensions (mm)
Model 3G3MV-
Weight (kg)
D
3-phase 200 V AC
3-phase 400 V AC
38
A2055
A2075
A4055
A4075
170
170
170
170
Approx. 4.6
Approx. 4.8
Approx. 4.8
Approx. 4.8
Standard Connections
Standard Connections
DC reactor
(optional)
Braking Resistor
(optional)
Noise Filter
3-phase 200/400 V AC
Single-phase 200 V AC (see note)
Multi-function contact output
NO
NC
Common
Multi-function input 1
Multi-function input 2
Multi-function input 3
Multi-function input 4
Multi-function input 5
Multi-function
photocoupler output 1
Multi-function input 6
Multi-function input 7
Sequence input common
External
frequency
adjuster (2 kΩ,
1/4 W min.)
Pulse
generator
Multi-function
photocoupler output 2
Frequency reference power
supply 20 mA at +12 V
Frequency reference input
Multi-function
photocoupler output
common
Frequency reference common
Multi-function analog
output/Pulse monitor
output
Pulse train input
RS-422
communications
(RS-485 selection)
Multi-function analog
output common
Connector
Multi-function analog voltage input
Digital Operator
Multi-function analog current input
Analog input common
Note: Connect single-phase 200 V AC to terminals R/L1 and S/L2 of the 3G3MV-ABj.
Three-wire Sequence Wiring Example
Stop switch
(NC)
RUN switch
(NO)
RUN input (Operates with the RUN switch and Stop switch closed)
Direction switch
Stop input (Stops with the Stop switch opened)
Forward/Reverse rotation command input. (Forward with the Direction
switch opened. Reverse with the Direction switch closed)
Sequence input common
Note: Set parameter 052 to forward/reverse rotation command 0 for 3-wire sequence input.
39
Standard Connections
Selecting Input Method
Switches SW1 and SW2, both of which are located above the control circuit terminals, are used for input method selection.
Selector
Control circuit
terminal block
Selecting Sequence Input Method
By using SW1, NPN or PNP input can be selected as shown below.
SW1
(Default setting)
SW1
S1 to 7
S1 to 7
24 V DC
(±10%)
Selecting RS-422/485 Termination Resistance
Termination resistance can be selected by setting pin 1 of the SW2 to ON. The default setting for the pin is OFF.
Selects
RS-422/485
----- termination
resistance
----- Selects
frequency
reference
input method
Communications
method
RS-422
RS-485
Pin 1 setting
Pin 1
120-Ω termination
resistance (1/2 W)
Set to ON
Set to ON only if the Unit is the end
Slave.
Selecting Frequency Reference Input Method
By using pin 2 of SW2, voltage input or current input can be selected as the input method for frequency reference. The default setting
is for voltage input.
Parameter settings are required together with the selection of the frequency reference input method.
Pin 2 setting
Voltage input
V (OFF)
Frequency reference selection
(parameter n004)
Set value 2
Current input
I (ON)
Set value 3 or 4
Frequency reference input method
Note: Do not set pin 2 to ON for current input while voltage is being input, otherwise the resistor in the input circuit may burn out.
40
Options
Overview of Options
Power Supply
3G3MV-A2j: 3-phase 200 V AC
3G3MV-ABj: single-phase 200 V AC (connect to R/L1, S/L2)
3G3MV-A4j: 3-phase 400 V AC
Molded case circuit breaker
or leakage breaker
Supplied by the customer
Electromagnetic contactor
Supplied by the customer
Recommended Option
AC Reactor
3G3IV-PUZBABj
Recommended Option
Input Noise Filter
There are 2 types available: the EMC-conforming Input Noise Filter and
the Simple Input Noise Filter/Input Noise Filter.
To meet EMC requirements, use the EMC-conforming Input Noise Filter.
Simple Input Noise Filter
3G3EV-PLNFDj
Dedicated Option
Braking Resistor
Braking Resistor Unit
R/L1
Dedicated Option
DIN Track Mounting Bracket
3G3IV-PZZ08122j
S/L2
T/L3
Dedicated Option
DC Reactor
3G3HV-PUVDABj
+1
+2
Mounted Option
CompoBus/D
Communications Unit
3G3MV-PDRT1-SINV
Separately Mounted Option
Mounted Option
Fan Unit
3G3IV-PFANj
Scaling Meter
K3TJ-V11j
U/T1
V/T2
W/T3
Recommended Option
Output Noise Filter
3G3IV-PLFj
3-phase Inductive Motor
41
Options
Mounted Option
Name
Model
CompoBus/D
Communications Unit
3G3MV-PDRT1-SINV
Fan Unit
3G3IV-PFANj
Description
Required when controlling the Inverter from
CompoBus/D.
Remote I/O functions and message functions can
be used to suit the application.
Replacement for the existing cooling fan of the
Inverter.
Replace the cooling fan if it has reached the end of
its service life or a warning of cooling fan failure
(FAN) is indicated.
Reference
page
43
43
Separately Mounted Option
Name
Scaling Meter
Model
K3TJ-V11j
Description
Connected to the analog monitor output of the
Inverter.
The Scaling Meter displays the rpm or speed of the
machine or line in actual units.
Reference
page
44
Dedicated Options
Name
Model
Description
Reference
page
45
Braking Resistor
3G3IV-PERFj
Uses a resistor to absorb regenerative energy of
the motor to reduce deceleration time.
(Usage rate: 3% ED.)
Braking Resistor Unit
3G3IV-PLKEBj
Uses a resistor to absorb regenerative energy of
the motor to reduce deceleration time.
(Usage rate: 10% ED.)
46
DC Reactor
3G3HV-PUVDABj
Suppresses harmonic current generated from the
Inverter and improves the power factor of the
Inverter.
47
DIN Track Mounting
Bracket
3G3IV-PZZ08122j
An adapter making it possible to easily mount the
Inverter to DIN tracks.
48
Recommended Options
Name
Model
Description
Reference
page
49
AC Reactor (Yaskawa
Electric)
3G3IV-PUZBABj
Suppresses harmonic current generated from the
Inverter and improves the power factor of the
Inverter. Connect the AC Reactor to the Inverter if
the capacity of the power supply is much larger
than that of the Inverter.
EMC-conforming Input
Noise Filter (Rasmi)
Simple Input Noise Filter
(Yaskawa Electric)
Input Noise Filter
(Schaffner)
Output Noise Filter (Tokin)
3G3MV-PRSj
A Noise Filter on the input side meeting the EC
Directive’s EMC requirements.
Each of these Filters connected to the power input
side eliminates noise in the power line connected to
the Inverter and suppresses noise leaking from the
Inverter to the power line.
50
Connect this Filter to the output side of the Inverter
to suppress the noise generated by the Inverter
from being transmitted to the output line.
55
42
3G3EV-PLNFDj
3G3IV-PFNj
3G3IV-PLFj
53
Options
CompoBus/D Communications Unit
3G3MV-PDRT1-SINV
This Unit is required when controlling the Inverter from CompoBus/D. Remote I/O functions and message functions can be used to
suit the application.
Note: 1. When using CompoBus/D communications, the Inverter cannot perform RS-422/485 communications.
2. With 5.5/7.5-kW Inverters, only use Communications Units that were manufactured in January 2000 or later. Communications Units that were manufactured in December 1999 or earlier are not compatible with these Inverters.
Connection Example
C200HW-DRM21-V1 or
CVM1-DRM21-V1 Master Unit
3G3MV-series
Inverter
3G3MV-PDRT1-SINV
CompoBus/D Communications Unit
Power
Supply
Motor
Fan Unit
3G3IV-PFANj
The Fan Unit is a replacement for the presently installed cooling fan of the Inverter. Replace the cooling fan if it has reached the end of
its service life or a warning of cooling fan failure (FAN) is indicated.
Inverter
3-phase 200 V AC
Single-phase 200 V AC
3-phase 400 V AC
3G3MV-A2007
3G3MV-A2015
3G3MV-A2022
3G3MV-A2037
3G3MV-A2055
3G3MV-A2075
3G3MV-AB015
3G3MV-AB022
3G3MV-AB037
3G3MV-A4015/-A4022
3G3MV-A4037
3G3MV-A4055
3G3MV-A4075
Fan Unit
3G3IV-PFAN2007
3G3IV-PFAN2015M
3G3IV-PFAN2022
3G3IV-PFAN2037
3G3IV-PFAN2037 (2 parts)
3G3IV-PFAN2037 (2 parts)
3G3IV-PFAN2015M
3G3IV-PFAN2037
3G3IV-PFAN2037 (2 parts)
3G3IV-PFAN2015M
3G3IV-PFAN2037
3G3IV-PFAN2037 (2 parts)
3G3IV-PFAN2037 (2 parts)
43
Options
Scaling Meter
K3TJ-V11j
The Scaling Meter is connected
to the analog monitor output of
the Inverter so that the Scaling
Meter will display the rpm and
speed values of the machines
and lines in actual units.
Note: The power supply circuit and input circuit are insulated from each other.
Standard Specifications
Applicable Models
Sampling cycle
2 times/s
Model
Display refresh cycle
2 times/s
K3TJ-V111R
Control power supply
Average processing method
Simple or continuous average
processing
K3TJ-V111G
Number of average
processing times
1, 2, 4, or 8
K3TJ-V116G
Max. number of display
digits
4 (–1,999 to 9,999)
Indicator
14.2-mm-high 7-segment LED
Decimal point display
Parameter selector or Up and Down
Keys
Scaling method
Parameter selector or Up and Down
Keys for shifting and scaling
adjustments
Scaling range
–1,999 to +9,999
Zero-limit range
0 to 99 digits
Over range
Flashing
Zero suppress
Available
External control
Present value hold (with rear
terminals shorted)
Degree of protection
(conforming to IEC)
Front panel: IP51 (see note)
Casing: IP20
Terminals: IP00
Memory protection
Nonvolatile memory
100 to 200 V AC
K3TJ-V116R
Green LED
24 V DC insulated
construction (see note)
Green LED
Recommended panel cutout
Weight: 200 g
Wiring Example
Circuit breaker
Inverter’s internal
circuitry
Analog output
0 to 10 VDC
Analog
monitor
K3TJ
44
Red LED
External Dimensions (mm)
Note: The front panel ensures IP50, but the front panel with the
K32-L493C Drip-proof Cover ensures IP51.
Three-phase
power supply
Indicator
Red LED
Display LED size
Options
Braking Resistor
3G3IV-PERFj
Uses a resistor to absorb regenerative energy of the motor to
reduce deceleration time.
(Usage rate: 3% ED.)
Applicable Models
Inverter
Voltage
class
200 V
400 V
Max.
applicable
motor
capacity (kW)
0.1
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
Braking Resistor
Model
3G3IV-
Resistor specifications
Approx. braking
torque (3% ED)
(%)
Number of
parts
PERF150WJ401
150 W, 400 Ω
PERF150WJ201
150 W, 200 Ω
PERF150WJ101
PERF150WJ700
PERF150WJ620
----PERF150WJ751
150 W, 100 Ω
150 W, 70 Ω
150 W, 62 Ω
----150 W, 750 Ω
PERF150WJ401
PERF150WJ301
PERF150WJ401
150 W, 400 Ω
150 W, 300 Ω
150 W, 400 Ω
1
1
1
1
1
1
1
----1
1
1
1
1
2
-----
-----
-----
220
220
220
125
125
120
100
----230
230
130
125
115
115
(see note 1)
-----
Note: 1. The usage rate for the 3G3IV-PERF150WJ401 is 2% ED.
2. A usage rate of “3% ED” means that 3% of the operating time of one cycle is used for deceleration.
External Dimensions (mm)
45
Options
Braking Resistor Unit
3G3IV-PLKEBj
Uses a resistor to absorb regenerative energy of the motor to
reduce deceleration time.
(Usage rate: 10% ED.)
Applicable Models
Inverter
Voltage
class
Braking Resistor Unit
Max. applicable
motor capacity
(kW)
200 V
Model
3G3IV-
Resistor specifications
---
---
0.1
0.2
PLKEB20P7
0.4
Number of
parts
70 W, 200 Ω
0.75
400 V
Approx. braking
toque (10% ED)
(%)
Unit
Max. number per
Inverter (see note)
---
---
---
---
---
---
1
1
220
1
1
125
1.5
PLKEB21P5
260 W, 100 Ω
1
1
125
2.2
PLKEB22P2
260 W, 70 Ω
1
1
120
3.7
PLKEB23P7
390 W, 40 Ω
1
1
125
5.5
PLKEB25P5
520 W, 30 Ω
1
1
115
7.5
PLKEB27P5
780 W, 20 Ω
1
1
125
0.2
PLKEB40P7
70 W, 750 Ω
1
1
230
0.4
1
1
230
0.75
1
1
130
1.5
PLKEB41P5
260 W, 400 Ω
1
1
125
2.2
PLKEB42P2
260 W, 250 Ω
1
1
135
3.7
PLKEB43P7
390 W, 150 Ω
1
1
135
5.5
PLKEB45P5
520 W, 100 Ω
1
1
135
7.5
PLKEB47P5
780 W, 75 Ω
1
1
130
Note: 1. The “max. number per Inverter” column indicates the maximum number of Braking Resistor Units that can be connected to
one Inverter.
2. A usage rate of “10% ED” means that 10% of the operating time of one cycle is used for deceleration.
External Dimensions (mm)
150 min.
Mounting screw
Voltage
class
D
B
200 V
150 min.
400 V
C
A
30 min.
46
30 min.
150
Dimensions (mm)
Braking
Resistor Unit
model
3G3IV-PLKEBj
20P7
A
B
105
275
50
260
M5×3
3.0
21P5
130
350
75
335
M5×4
4.5
22P2
130
350
75
335
M5×4
4.5
23P7
130
350
75
335
M5×4
5.0
25P5
250
350
200
335
M6×4
7.5
27P5
250
350
200
335
M6×4
8.5
40P7
105
275
50
260
M5×3
3.0
41P5
130
350
75
335
M5×4
4.5
42P2
130
350
75
335
M5×4
4.5
43P7
130
350
75
335
M5×4
5.0
45P5
250
350
200
335
M6×4
7.5
47P5
250
350
200
335
M6×4
8.5
C
D
Mounting
screw
Weight
(kg)
Options
DC Reactor
3G3HV-PUZDABj
The DC Reactor suppresses harmonic current generated from the Inverter
and improves the power factor of the Inverter. The DC Reactor
suppresses harmonic current more effectively than the AC Reactor.
Furthermore, the DC Reactor can be used in combination with the AC
Reactor.
Used with either 3-phase or single-phase 200-V AC Inverters.
Applicable Models
Inverter
Voltage
class
200 V
DC Reactor
Max. applicable
motor capacity
(kW)
Model
0.1 to 0.75
1.5 to 3.7
5.5 to 7.5
0.2 to 0.75
1.5 to 2.2
3.7
5.5 to 7.5
400 V
3G3HV-PUZDAB5.4A8MH
3G3HV-PUZDAB18A3MH
3G3HV-PUZDAB36A1MH
3G3HV-PUZDAB3.2A28MH
3G3HV-PUZDAB5.7A11MH
3G3HV-PUZDAB12A6.3MH
3G3HV-PUZDAB23A3.6MH
Rated voltage (V)
Rated current (A)
Inductance (mH)
800 V DC
5.4
18
36
3.2
5.7
12
23
8
3
1
28
11
6.3
3.6
800 V DC
Loss (W)
8
18
22
9
11
16
27
External Dimensions (mm)
External Dimensions 1
External Dimensions 2
Two, d2
mounting holes
Four, d1
mounting
holes
Two, d1
mounting holes
Model
3G3HVPUZDABj
Dimension (mm)
External
dimensions
H
W
W1
D
D1
D2
t
d1
d2
Weight
(kg)
5.4A8MH
1
53
85
74
60
32
---
0.8
M4
---
0.8
18A3MH
2
76
86
60
72
55
80
1.2
M4
M5
2.0
36A1MH
2
93
105
64
92
80
90
1.6
M6
M6
3.2
3.2A28MH
1
53
85
74
60
32
---
0.8
M4
---
0.8
5.7A11MH
1
60
90
80
60
32
---
0.8
M4
---
1.0
12A6.3MH
2
76
86
60
72
55
80
1.2
M4
M5
2.0
23A3.6MH
2
93
105
64
92
80
90
1.6
M6
M5
3.2
47
Options
DIN Track Mounting Bracket
3G3IV-PZZ08122j
An adapter making it possible to easily mount the Inverter to DIN tracks.
Applicable Models
Inverter
3-phase 200 V AC
Single-phase 200 V AC
3-phase 400 V AC
DIN Track Mounting Bracket
3G3MV-A2001/-A2002/-A2004/-A2007
3G3IV-PZZ08122A
3G3MV-A2015/-A2022
3G3IV-PZZ08122B
3G3MV-A2037
3G3IV-PZZ08122C
3G3MV-AB001/-AB002/-AB004
3G3IV-PZZ08122A
3G3MV-AB007/-AB015
3G3IV-PZZ08122B
3G3MV-AB022
3G3IV-PZZ08122C
3G3MV-AB037
3G3IV-PZZ08122D
3G3MV-A4002/-A4004/-A4007/-A4015/-A4022
3G3IV-PZZ08122B
3G3MV-A4037
3G3IV-PZZ08122C
External Dimensions (mm)
(35.1)
3G3IV-PZZ08122B
Four, M4 tap
DIN track
3G3IV-PZZ08122A
3G3IV-PZZ08122D
3G3IV-PZZ08122C
Four, M4 tap
48
Four, M4 tap
Side View
(Common to all
the Units)
Four, M4 tap
Options
AC Reactor
3G3IV-PUZBABj (Yaskawa Electric)
The AC Reactor suppresses harmonic current generated from the Inverter and improves the power factor of the Inverter. Connect the
AC Reactor to the Inverter if the capacity of the power supply is much larger than that of the Inverter. Select the AC Reactor model
from the following table according to the motor capacity.
Note: The AC Reactor can be used with either 3-phase or single-phase 200-V AC Inverters.
Connection Example
Applicable Range
AC Reactor
MCCB
AC Reactor required
for smooth operation
under present power
supply conditions
Motor
Power supply
capacity (kVA)
AC Reactor
not required
Inverter capacity (kVA)
Applicable Models and External Dimensions
200-V Class
Max. applicable
motor capacity
(kW)
Model
3G3IV-PUZBABj
j
Current
(A)
Inductance
(mH)
Loss
(W)
Weight
(kg)
External
dimensions
1
Dimension (mm)
A
B
120
71
B1
C
D
E
F
H
J
K
L
M
---
115
40
50
105
20
M6
10.5
7
M4
0.1 to 0.2
2A7.0MH
2
7.0
8
2.5
0.4
2.5A4.2MH
2.5
4.2
15
2.5
120
71
---
120
40
50
105
20
M6
10.5
7
M4
0.75
5A2.1MH
5
2.1
15
2.5
120
71
---
120
40
50
105
20
M6
10.5
7
M4
1.5
10A1.1MH
10
1.1
25
3
130
88
---
130
50
65
130
22
M6
11.5
7
M4
2.2
15A0.71MH
15
0.71
30
3
130
88
---
130
50
65
130
22
M6
11.5
7
M4
3.7
20A0.53MH
20
0.53
35
3
2
130
88
114
105
50
65
130
22
M6
11.5
7
M5
5.5
30A0.35MH
30
0.35
45
3
2
130
88
119
105
50
70
130
22
M6
9
7
M5
7.5
40A0.265MH
40
0.265
50
4
2
130
98
139
105
50
75
130
22
M6
11.5
7
M6
Inductance
(mH)
Loss
(W)
Weight
(kg)
External
dimensions
1
400-V Class
Max. applicable
motor capacity
(kW)
Model
3G3IV-PUZBABj
j
Current
(A)
0.2 to 0.4
1.3A18.0MH
1.3
18.0
15
2.5
0.75
2.5A8.4MH
2.5
8.4
15
1.5
5A4.2MH
5
4.2
25
2.2
7.5A3.6MH
7.5
3.6
3.7
10A2.2MH
10
5.5
15A1.42MH
7.5
20A1.06MH
Dimension (mm)
A
B
C
D
E
F
H
J
K
L
M
120
71
---
120
40
50
105
20
M6
10.5
7
M4
2.5
120
71
---
120
40
50
105
20
M6
10.5
7
M4
3
130
88
---
130
50
70
130
22
M6
9
7
M4
35
3
130
88
---
130
50
70
130
22
M6
9
7
M4
2.2
43
3
130
88
---
130
50
65
130
22
M6
11.5
7
M4
15
1.42
50
4
130
98
---
130
50
75
130
22
M6
11.5
7
M4
20
1.06
50
5
160
90
115
130
75
70
160
25
M6
10
7
M5
2
External Dimensions 1
B1
External Dimensions 2
M Terminal
M Terminal
Nameplate
Nameplate
Mounting Dimensions
Mounting Dimensions
4-J mounting bolt
4-J mounting bolt
49
Options
EMC-conforming Input Noise Filter
3G3MV-PRSj (Rasmi)
The Input Noise Filter is connected between the power supply input terminals (R/L1, S/L2, T/L3) of the Inverter and the power supply
in order to meet the EC Directive’s EMC requirements.
Connection Example
MCCB
SYSDRIVE 3G3MV
Noise Filter
Clamp core
3-phase 200 V AC, single-phase
200 V AC or 3-phase 400 V AC
Applicable Models
Inverter
Voltage
Model
3G3MV3-phase 200 V AC
A2001/A2002/A2004/
A2007
A2015/A2022
A2037
A2055/A2075
Single-phase 200 V AC AB001/AB002/AB004
AB007/AB015
AB022
AB037
3-phase 400 V AC
A4002/A4004
A4007/A4015/A4022
A4037
A4055/A4075
50
EMC-compatible Noise Filter
Model
3G3MVPRS2010V
Rated current (A)
Weight (kg)
10
0.8
PRS2020V
PRS2030V
PRS2050V
PRS1010V
PRS1020V
PRS1030V
PRS1040V
PRS3005V
PRS3010V
PRS3020V
PRS3030V
16
26
50
10
20
30
40
5
10
15
30
1.0
1.1
2.3
0.6
1.0
1.1
1.2
1.0
1.0
1.1
2.3
Options
External Dimensions
3G3MV-PRS2010V
3G3MV-PRS2020V/-PRS3005V/PRS3010V
Three, 5-dia. holes
Three, 5-dia. holes
Two, M4 holes
(for Inverter mounting use)
Four, M4 holes
(for Inverter mounting use)
Voltage
3G3MV-PRS2030V/-PRS3020V
Three, 5-dia. holes
Model
3G3MV-
Dimension (mm)
A
B
3-phase 200 V
PRS2020V
50
25
3-phase 400 V
PRS3005V
45
22
PRS3010V
45
22
3G3MV-PRS1030V
Three, 5-dia. holes
Four, M4 holes
(for Inverter mounting use)
Four, M4 holes
(for Inverter mounting use)
51
Options
3G3MV-PRS1040V
3G3MV-PRS2050V
Three, 5-dia. holes
Three, 6-dia. holes
Four, M4 holes
(for Inverter mounting use)
Four, M4 holes
(for Inverter mounting use)
3G3MV-PRS1010V
Three, 5-dia. holes
3G3MV-PRS3030V
Two, M4 holes
(for Inverter mounting use)
Three, 6-dia. holes
Four, M5 holes
(for Inverter mounting use)
3G3MV-PRS1020V
Three, 5-dia. holes
Four, M4 holes
(for Inverter mounting use)
52
Options
Simple Input Noise Filter/Input Noise Filter
3G3EV-PLNFDj (Yaskawa Electric)/3G3IV-PFNj (Schaffner)
The Simple Input Noise Filter or Input Noise Filter is connected to the
power input side to eliminate the noise in the power line connected to
the Inverter and suppress noise leaking from the Inverter to the
power line.
Simple Input Noise Filter
Input Noise Filter
Applicable Models
Inverter
Voltage
3-phase 200 V
AC
Single-phase
200 V AC
3-phase 400 V
AC
Model
3G3MVA2001/A2002/A2004/A2007
A2015
A2022
A2037
A2055
A2075
AB001/AB002
AB004
AB007
AB015
AB022
AB037
A4002/A4004/A4007
A4015/A4022
A4037
A4055
A4075
Simple Input Noise Filter
Model
3G3EV-PLNFD2103DY
3G3EV-PLNFD2153DY
3G3EV-PLNFD2203DY
3G3EV-PLNFD2303DY
3G3IV-PFN258L4207
3G3IV-PFN258L5507
3G3EV-PLNFB2102DY
3G3EV-PLNFB2152DY
3G3EV-PLNFB2202DY
3G3EV-PLNFB2302DY
3G3EV-PLNFB2202DY
3G3EV-PLNFB2302DY
3G3EV-PLNFD4053DY
3G3EV-PLNFD4103DY
3G3EV-PLNFD4153DY
3G3EV-PLNFD4203DY
3G3EV-PLNFD4303DY
Rated current
(A)
10
15
20
30
42
55
10
15
20
30
20 × 2P
30 × 2P
5
10
15
20
30
Weight (kg)
0.2
0.2
0.4
0.5
2.8
3.1
0.1
0.2
0.2
0.3
0.2
0.3
0.3
0.4
0.4
0.5
0.6
Note: The “2P” in the rated current column indicates parallel connection.
Connection Example
3-phase input
Noise filter
Single-phase input
Noise filter
53
Options
External Dimensions
External Dimensions 1
(Single-phase Input)
Model
3G3EVPLNFD2103DY
PLNFD2153DY
PLNFD2203DY
PLNFD2303DY
PLNFB2102DY
PLNFB2152DY
PLNFB2202DY
PLNFB2302DY
PLNFD4053DY
PLNFD4103DY
PLNFD4153DY
PLNFD4203DY
PLNFD4303DY
External Dimensions 2
(Three-phase Input)
Dimension (mm)
External
dimensions
2
3
1
3
W
D
H max.
A
PEN258L4207
PEN258L5507
54
External
dimensions
4
A’
B
Mounting screw
120
120
170
170
80
80
90
110
55
55
70
70
108
108
158
---
------79
68
68
78
98
M4 × 4, 20 mm
M4 × 4, 20 mm
M4 × 4, 20 mm
M4 × 6, 20 mm
120
120
120
130
170
170
170
200
200
80
80
80
90
130
130
130
145
145
50
50
50
65
75
95
95
100
100
108
108
108
118
-----------
--------79
79
79
94
94
68
68
68
78
118
118
118
133
133
M4 × 4, 20 mm
M4 × 4, 20 mm
M4 × 4, 20 mm
M4 × 4, 20 mm
M4 × 6, 30 mm
M4 × 6, 30 mm
M4 × 6, 30 mm
M4 × 6, 30 mm
M4 × 6, 30 mm
External Dimensions 4
(3-phase Input)
Model
3G3IV-
External Dimensions 3
(Three-phase Input)
J (mounting screws)
Dimension (mm)
A
329
329
B
300
300
C
325
353
D
185
185
E
70
80
F
M6
M6
G
45
55
I
314
314
J
4-M5
4-M5
Options
Output Noise Filter
Applicable Models
3G3IV-PLFj (Tokin)
Inverter
Voltage
class
The Output Noise Filter
suppresses the generated
noise of the Inverter from
being transmitted to the
output line. Connect the
Output Noise Filter to the
output side of the Inverter.
200-V
class
Connection Example
Noise filter
400-V
class
Output Noise Filter
Max. applicable
motor capacity
(kW)
Inverter
capacity
(kVA)
0.1
0.3
0.2
0.6
0.4
1.1
0.75
1.9
1.5
3.0
2.2
4.2
3.7
6.7
5.5
9.5
7.5
13.0
0.2
0.9
0.4
1.4
0.75
2.6
1.5
3.7
2.2
4.2
3.7
6.6
5.5
11.0
7.5
14.0
Model
3G3IV-
Rated
current
(A)
PLF310KA
10
PLF320KA
20
PLF350KA
50
PLF310KB
10
PLF320KB
20
External Dimensions
Model
3G3IVPLF310KA
PLF320KA
PLF350KA
PLF310KB
PLF320KB
Dimension (mm)
Terminal
board
TE-K5.5
M4
TE-K22
M6
TE-K5.5
M4
A
B
C
D
E
F
G
140
100
100
90
70
45
7 × 4.5 dia.
260
180
180
160
120
65
7 × 4.5 dia.
140
100
100
90
70
45
7 × 4.5 dia.
H
4.5 dia.
Weight
(kg)
0.5
0.6
2.0
0.5
0.6
55
Inverter Models
Inverter Models
Rated voltage
3-phase 200 V AC
Degree of protection
Panel-mounting type (equivalent to IP20)
Closed wall-mounting type (equivalent to IP20/NEMA1)
Single-phase 200 V AC
Panel-mounting type (equivalent to IP20)
3-phase 400 V AC
Panel-mounting type (equivalent to IP20)
Closed wall-mounting type (equivalent to IP20/NEMA1)
Max. applicable motor
capacity
0.1 kW
0.2 kW
0.4 kW
0.75 kW
1.5 kW
2.2 kW
3.7 kW
5.5 kW
7.5 kW
0.1 kW
0.2 kW
0.4 kW
0.75 kW
1.5 kW
2.2 kW
3.7 kW
0.2 kW
0.4 kW
0.75 kW
1.5 kW
2.2 kW
3.7 kW
5.5 kW
7.5 kW
Model
3G3MV-A2001
3G3MV-A2002
3G3MV-A2004
3G3MV-A2007
3G3MV-A2015
3G3MV-A2022
3G3MV-A2037
3G3MV-A2055
3G3MV-A2075
3G3MV-AB001
3G3MV-AB002
3G3MV-AB004
3G3MV-AB007
3G3MV-AB015
3G3MV-AB022
3G3MV-AB037
3G3MV-A4002
3G3MV-A4004
3G3MV-A4007
3G3MV-A4015
3G3MV-A4022
3G3MV-A4037
3G3MV-A4055
3G3MV-A4075
Explanation of Product Code
3G3MV-A2007
Series name:
3G3MV Series
Max. applicable motor capacity
001
002
004
007
015
022
037
055
075
0.1 kW
0.2 kW
0.4 kW
0.75 kW
1.5 kW
2.2 kW
3.7 kW
5.5 kW
7.5 kW
Voltage class
2
3-phase 200 V AC (200-V class)
B
Single-phase 200 V AC (200-V class)
3-phase 400 V AC (400-V class)
4
Degree of protection
A
56
Panel-mounting type (IP10 or higher)/closed wall-mounting type