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Specifications
14.3.1 AC Reactor
Cur-
Cur-
Model
Model
rent
CIMR-
MR5V
A
:
23P7
20
25P5
30
27P5
40
2011
60
2015
80
14
2018
90
2022
120
2030
160
2037
200
Cur-
Cur-
Model
Model
rent
CIMR-
MR5V
A
:
45P5
15
47P5
20
4011
30
4015
40
4018
50
4022
60
4030
80
4037
90
4045
120
*
A: For stand-alone drive system N: for NC system
Without Terminal Block
J
Select an AC reactor from the table below according to Converter (VS-656MR5) model.
200 V Class
Induc-
Induc-
Fig
Fig.
tance
Code No.
A
No.
mH
(Max.)
130
88
0.53
X002491
(5.12)
(3.46)
130
88
0.35
X002492
(5.12)
(3.46)
130
98
0.265
X002493
(5.12)
(3.86)
160
105
0.18
X002495
(6.3)
(4.13)
180
100
0.13
X002497
1
(7.09)
(3.94)
180
100
0.12
X002498
(7.09)
(3.94)
180
100
0.09
X002555
(7.09)
(3.94)
210
100
0.07
X002556
(8.27)
(3.94)
210
115
0.05
X002557
(8.27)
(4.53)
400 V Class
Induc-
Induc-
Fig
Fig.
tance
Code No.
A
No.
B
mH
(Max.)
130
98
1.42
X002501
2
(5.12)
(3.86)
160
90
1.06
X002502
(6.3)
(3.54)
160
105
0.7
X002503
(6.3)
(4.13)
180
100
0.53
X002504
(7.09)
(3.94)
180
100
0.42
X002505
(7.09)
(3.94)
1
1
180
100
0.36
X002506
(7.09)
(3.94)
210
100
0.26
X002508
(8.23)
(3.94)
210
115
0.24
X002509
(8.23)
(4.53)
240
126
0.18
X002566
(9.41)
(4.96)
Dimensions in mm (inches)
B1
B
C
D
E
(Max.)
114
105
50
65
(4.49)
(4.13)
(1.97)
(2.56)
119
105
50
70
(4.69)
(4.13)
(1.97)
(2.76)
139
105
50
75
(5.47)
(4.13)
(1.97)
(2.95)
147.5
130
75
85
(5.81)
(5.12)
(2.95)
(3.35)
155
150
75
80
(6.1)
(5.91)
(2.95)
(3.15)
150
150
75
80
(5.91)
(5.91)
(2.95)
(3.15)
155
150
75
80
(6.1)
(5.91)
(2.95)
(3.15)
170
175
75
80
(6.69)
(6.89)
(2.95)
(3.15)
182.8
175
75
95
(7.2)
(6.89)
(2.95)
(3.74)
Dimensions in mm (inches)
B1
C
D
E
130
50
75
—
(5.12)
(1.97)
(2.95)
130
75
70
115
(5.12)
(2.95)
(2.76)
130
75
85
132.5
(5.12)
(2.95)
(3.35)
150
75
80
140
(5.91)
(2.95)
(3.15)
150
75
80
145
(5.91)
(2.95)
(3.15)
150
75
75
150
(5.91)
(2.95)
(2.95)
175
75
80
150
(6.89)
(2.95)
(3.15)
175
75
95
177.5
(6.89)
(2.95)
(3.74)
150
110
205±5
193
(5.90)
(4.33)
(8.07±0.2)
14 -44
F
H
J
K
L
130
22
11.5
7
M6
(5.12)
(0.87)
(0.45)
(0.28)
130
22
9
7
M6
(5.12)
(0.87)
(0.35)
(0.28)
130
22
11.5
7
M6
(5.12)
(0.87)
(0.35)
(0.28)
160
25
10
7
M6
(6.3)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
205
25
10
7
M6
(8.07)
(0.98)
(0.39)
(0.28)
205
25
10
7
M6
(8.07)
(0.98)
(0.39)
(0.28)
F
H
J
K
L
130
22
11.5
7
M6
(5.12)
(0.87)
(0.45)
(0.28)
160
25
10
7
M6
(6.3)
(0.98)
(0.39)
(0.28)
160
25
10
7
M6
(6.3)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
180
25
10
7
M6
(7.09)
(0.98)
(0.39)
(0.28)
205
25
10
7
M6
(8.07)
(0.98)
(0.39)
(0.28)
205
25
10
7
M6
(8.07)
(0.98)
(0.39)
(0.28)
240
25
8
10
M8
(9.45)
(0.98)
(0.31)
(0.39)
Approx.
Approx.
Heat
Heat
Mass
Loss
M
kg (lb)
W
3
M5
35
(6.6)
3
M5
45
(6.6)
4
M6
50
(8.8)
6
M6
65
(13.2)
8
M8
75
(17.6)
8
M8
90
(17.6)
8
M10
90
(17.6)
12
M10
100
(26.5)
15
M10
110
(0.59)
Approx.
Approx.
Heat
Heat
Mass
Loss
M
kg (lb)
W
4
M4
50
(8.8)
5
M5
50
(11)
6
M5
65
(13.2)
8
M6
90
(17.6)
8
M6
90
(17.6)
8
M6
90
(17.6)
12
M8
95
(26.5)
15
M8
110
(33.1)
23
M10
130
(50.7)
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