9
-6
Specifications of Options and Peripheral Devices
The following options and peripheral devices can be used for the Inverter. Select them according to the
application.
* Use a ground fault interrupter with a current sensitivity of 200 mA minimum and an operating time of 0.1 s minimum to prevent operating errors
* The interrupter must be suitable for high-frequency operation.
Example: NV series by Mitsubishi Electric Corporation (manufactured in or after 1988)
EG, SG series by Fuji Electric Co., Ltd. (manufactured in or after 1984)
Table 9.4 Options and Peripheral Devices
Purpose
Name
Model (Code)
Descriptions
Protect Inverter wiring
MCCB or Ground
Fault Interrupter
*
Example: Mitsubishi
Electrics NV Series
Always connect a breaker to the power supply line to pro-
tect Inverter wiring. Use a ground fault interrupter suitable
for high frequencies.
Prevents burning when
a Braking Resistor is
used.
Magnetic Contac-
tor
Example: Fuji Electrics
SC Series
Install to prevent the braking resistor from burning out
when one is used. Always attach a surge absorber to the
coil.
Contains switching
surge
Surge Absorber
DCR2-
Absorbs surge from the magnetic contactor and control
relays. Connect surge absorbers to all magnetic contactors
and relays near the Inverter.
Isolates I/O signals
Isolator
DGP
Isolates the I/O signals of the Inverter and is effective
against inductive noise.
Improves the input
power factor of the
Inverter
DC Reactor
AC Reactor
3G3HV-PUZDAB
3G3IV-PUZBAB
Used to improve the input power factor of the Inverter. All
Inverters of 22 kW or higher contain built-in DC reactors.
These are optional for Inverters of 18.5 kW or less. Install
DC and AC reactors for applications with a large power
supply capacity (600 kVA or higher).
Reduces the affects of
radio and control device
noise
Input Noise Filter
3G3IV-PFN
3G3EV-PLNF
Reduces noise coming into the inverter from the power
supply line and to reduce noise flowing from the inverter
into the power supply line. Connect as close to the
Inverter as possible.
Output Noise Fil-
ter
3G3IV-PLF
Reduces noise generated by the inverter. Connect as close
to the inverter as possible.
Enables stopping the
machine in a set time
Braking Resistor
Unit
3G3IV-PLKEB
Consumes the regenerative motor energy with a resistor to
reduce deceleration time (use rate: 10% ED).
(Braking Unit is needed.)
Braking Unit
3G3IV-PCDBR
B
Used with a Braking Resistor Unit to reduce the decelera-
tion time of the motor.
Operates the Inverter
externally
Analog Operator
(small plastic
Operator)
3G3IV-PJVOP95
Allows frequency reference settings and ON/OFF opera-
tion control to be performed by analog references from a
remote location (50 m max.).
Frequency counter specifications: 60/120 Hz, 90/180Hz
Analog Operator
(Standard steel-
plate Operator)
3G3IV-PJVOP96
(73041-0906X-
)
Allows frequency reference settings and ON/OFF opera-
tion control to be performed by analog references from a
remote location (50 m max.).
Frequency counter specifications: 75 Hz, 150 Hz, 220 Hz
Digital Operator
Connection Cable
1 m cable:
(3G3IV-PCN126)
3 m cable:
(3G3IV-PCN326-E)
Extension cable to use a Digital Operator remotely.
Cable length: 1 m or 3 m
Controls an Inverter
system
VS System Mod-
ule
JGSM-
A system controller that can be match to the automatic
control system to produce an optimum system configura-
tion.
Provides Inverter
momentary power loss
recovery time
Momentary Power
Loss Recovery
Unit
3G3IV-PCN
26
Handles momentary power losses for the control power
supply for models 2.2 kW or less (maintains power for
2 s).
Sets/monitors frequen-
cies and voltages exter-
nally.
Scaling Meter
K3TJ-V11
Measurs the output voltage externally and designed for
use with a PWM meter.
Power supply
MCCB or
ground fault
interrupter
Magnetic
contactor
AC reactor to
improve power
factor
Inverter
Input-line
noise filter
DC
reactor
Ground
Ground
Output-line
noise filter
Motor
Frequency
VS Operator
Zero phase
reactor