PERIPHERAL DEVICES
Connect the specified AC reactor and AC main circuit fuses when operating the VS-656RC5.
Input AC Reactor
Power Coordinating Reactor
200 V Class
VS−656RC5
Current
Inductance
=
CIMR−R5A
Value A
mH
23P7
20
0.53
25P5
30
0.35
27P5
40
0.265
2011
60
0.18
2015
80
0.13
2018
90
0.12
2022
120
0.09
2030
160
0.07
2037
200
0.05
400 V Class
VS−656RC5
Current
Inductance
=
CIMR−R5A
Value A
mH
43P7
10
2.2
45P5
15
1.42
47P5
20
1.06
4011
30
0.7
0.53
4015
40
4018
50
0.42
4022
60
0.36
4030
80
0.26
4037
90
0.24
4045
120
0.18
4055
150
0.15
4075
200
0.11
U X
DETAIL IN
MTG. HOLE
10
(Type UZBA-B, for 50/60 Hz)
An input three-phase reactor
corresponding to each model is
necessary when operating VS-
656RC5. This input AC reactor is
effective against saturated current
and excessive heat.
Check the table below and use a
specified AC reactor.
Code No.
Fig.
A
B
X002491
130
88
X002492
130
88
X002493
130
98
X002495
160
105
X002497
2
180
100
X002498
180
100
X002555
180
100
X002556
210
100
X002557
210
115
Code No.
Fig.
A
B
X002500
130
88
1
X002501
130
98
X002502
160
90
X002503
160
105
X002504
180
100
X002505
180
100
X002506
180
100
2
X002508
210
100
X002509
210
115
X002566
240
126
X002567
240
126
X002568
270
162
6-M:TERMINALS
V Y W Z
D
H
F
E
B
A
L
4-J:MTG. HOLES
K
Fig. 1
〔Connection Example〕
MCCB Power Coordinating Reactor
FU
Current Suppressing Reactor
Dimensions mm
B1
C
D
E
F
H
114
105
50
65
130
22
119
105
50
70
130
22
139
105
50
75
130
22
147.5
130
75
85
160
25
155
150
75
80
180
25
150
150
75
80
180
25
155
150
75
80
180
25
170
175
75
80
205
25
182.8
175
75
95
205
25
Dimensions mm
B1
C
D
E
F
H
−
130
50
65
130
22
−
130
50
75
130
22
115
130
75
70
160
25
132.5
130
75
85
160
25
140
150
75
80
180
25
145
150
75
80
180
25
150
150
75
75
180
25
150
175
75
80
205
25
177.5
175
75
95
205
25
193
205
150
110
240
25
198
205
150
110
240
25
231
230
150
130
260
40
6-M:TERMINALS
NAME
PLATE
U
V
W
X
Y
D
F
A
L
K
DETAIL IN
MTG. HOLE
Fig. 2
Inverter
R
VS−
S
656RC5
T
Approx. Mass
J
K
L
M
M6
11.5
7
M5
M6
9
7
M5
M6
11.5
7
M6
M6
10
7
M6
M6
10
7
M8
M6
10
7
M8
M6
10
7
M10
M6
10
7
M10
M6
10
7
M10
Approx. Mass
J
K
L
M
M6
11.5
7
M4
M6
11.5
7
M4
M6
10
7
M5
M6
10
7
M5
M6
10
7
M6
M6
10
7
M6
M6
10
7
M6
M6
10
7
M8
M6
10
7
M8
M8
8
10
M10
M8
8
10
M10
M8
16
10
M10
NAME PLATE
Z
H
E
B
B1
4-J:MTG. HOLES
Motor
R
U
S
V
IM
T
W
Loss
kg
W
3
35
3
45
4
50
6
65
8
75
8
90
8
90
12
100
15
100
Loss
kg
W
3
43
4
50
5
50
6
65
8
90
8
90
8.5
90
12
95
15
110
23
130
23
150
32
135