9-1
Chapter 9 LIST OF PERIPHERAL EQUIPMENT AND OPTIONS
The table below lists the main peripheral equipment and options that are connected to the
FRENIC-Mini. Use them in accordance with your system requirements.
For details, refer to the FRENIC-Mini User's Manual (MEH446), Chapter 6 "SELECTING
PERIPHERAL EQUIPMENT."
Name of
peripheral
equipment
Function and application
Main peripheral equipment
Molded case
circuit breaker
(MCCB)
Residual-current-
operated
protective device
(RCD)
/Earth leakage
circuit breaker
(ELCB)
*
*
with overcurrent
protection
MCCBs are designed to protect the power circuits between the power control
board and inverter’s main terminals (L1/R, L2/S and L3/T for three-phase
power, L1/L and L2/N for single-phase power) from overload or short-circuit
which in turn prevents secondary disasters caused by the inverter
malfunctioning.
RCDs/ELCBs function in the same way as MCCBs. Use the MCCBs and
RCDs/ELCBs that satisfy the recommended rated current listed below.
w/ DC w/o DC
reactor reactor
0.1
FRN0.1C1
-2
0.2
FRN0.2C1
-2
0.4
FRN0.4C1
-2
0.75
FRN0.75C1
-2
10
1.5
FRN1.5C1
-2
**
15
2.2
FRN2.2C1
-2
**
20
3.7
FRN3.7C1
-2
**
20 30
0.4
FRN0.4C1
-4
0.75
FRN0.75C1
-4
1.5
FRN1.5C1
-4
**
10
2.2
FRN2.2C1
-4
**
15
3.7
4.0
FRN3.7C1
-4
**
FRN4.0C1
-4
**
10 20
0.1
FRN0.1C1
-7
0.2
FRN0.2C1
-7
0.4
FRN0.4C1
-7
10
0.75
FRN0.75C1
-7
10 15
1.5
-
15 20
2.2
FRN2.2C1
-7
20 30
0.1
FRN0.1C1
-6
5
0.2
FRN0.2C1
-6
10
0.4
FRN0.4C1
-6
10 15
0.75
FRN0.75C1
-6
15 20
5
Single-
phase
100 V
Single-
phase
200 V
Power
supply
voltage
Applicable
motor
rating
(kW)
Three-
phase
200 V
Three-
phase
400 V
5
Inverter type
Recommended rated
current (A) of
MCCB and RCD/ELCB
5
5
5
5
5
10
Note 1) A box (
) in the above table replaces S or E depending on the
enclosure.
2) A box () in the above table replaces A, C, E, or J depending on the
shipping destination.
3) Asterisks (**) in the model names replace numbers which denote the
following:
21: Braking resistor built-in type, None: Standard
Select the MCCB or RCD/ELCB with appropriate breaking capacity according
to the power supply capacity.
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