Datasheet
48
06.05
Continuation
General Data
D
WIMA FKS 3
Capacitance
100 VDC/63 VAC* 250 VDC/160 VAC* 400 VDC/250 VAC* 630 VDC/300 VAC*
W H L PCM** W H L PCM** W H L PCM** W H L PCM**
1000 pF 3 8.5 10 7.5 3 8.5 10 7.5 3 9 13 10 3 9 13 10
1500 „ 3 8.5 10 7.5 3 8.5 10 7.5 3 9 13 10 3 9 13 10
2200 „ 3 8.5 10 7.5 3 8.5 10 7.5 3 9 13 10 3 9 13 10
3300 „ 3 8.5 10 7.5 3 8.5 10 7.5 3 9 13 10 4 9.5 13 10
4700 „ 3 8.5 10 7.5 3 8.5 10 7.5* 3 9 13 10 4 9.5 13 10
3 9 13 10*
6800 „ 3 8.5 10 7.5 3 8.5 10 7.5* 3 9 13 10 5 11 13 10
3 9 13 10*
0.01 mF 3 8.5 10 7.5* 3 9 13 10 4 9.5 13 10 6 12 13 10
3 9 13 10*
0.015 „ 3 8.5 10 7.5* 4 9.5 13 10 5 11 13 10 6 12.5 18 15
3 9 13 10*
0.022 „ 3 8.5 10 7.5* 5 11 13 10 6 12 13 10 7 14 18 15
3 9 13 10*
0.033 „ 4 9.5 13 10 6 12 13 10 6 12.5 18 15 8 15 18 15
0.047 „ 4 9.5 13 10 6 12.5 18 15 7 14 18 15
0.068 „ 5 11 13 10 7 14 18 15 8 15 18 15
0.1 mF 6 12 13 10 8 15 18 15 9 16 18 15
0.15 „ 7 14 18 15 9 16 18 15
0.22 „ 8 15 18 15
* AC voltage: f = 50 Hz; 1.4 x U
rms
+ UDC U
r
** PCM = Printed circuit module = lead spacing
New values.
* On ordering please state the required PCM (lead spacing)!
If not specified, smaller PCM will be booked.
Dims. in mm.
Taped version see page 100.
Rights reserved to amend design data without prior notification.
d = 0.5 P if W = 3
d = 0.7 P if W 4
PCM 7.5 and 10
d = 0.8 P if PCM = 15
Permissible AC voltage
in relation to frequency
at 10) C internal temperature rise
(general guide).
PCM
at the lead exit points
(0.4)
L
W
H
d
6
-2
100 VDC
f
Hz
10 2 5 10 2 5 10 2 5 10
34 56
5
2
10
5
2
10
2
1
63
U
V
rms
0
.
0
1
µF
0
.
0
2
2
µ
F
4
7
0
0
p
F
2
2
0
0
p
F
1
0
0
0
p
F
0.047 µF
0.1 µF
250 VDC
0.01 µF
0.022 µF
4700 pF
2
2
0
0
pF
1
0
0
0
pF
0.033 µF
f
Hz
10 2 5 10 2 5 10 2 5 10
34 56
5
2
10
5
2
10
160
2
1
U
V
rms
400 VDC
0.01 µF
0
.
0
2
2
µF
4
7
0
0
pF
2
2
0
0
p
F
1
0
0
0
pF
f
Hz
10 2 5 10 2 5 10 2 5 10
345 6
5
2
10
5
2
10
250
2
1
U
V
rms
630 VDC
f
Hz
10 2 5 10 2 5 10 2 5 10
34 5
6
5
2
10
5
2
10
300
2
1
U
V
rms
0
.
0
1
µF
4700 pF
2200 pF
1000 pF