WIMA MKP 10
Polypropylene (PP) Capacitors for Pulse Applications with
Double-Sided Metallized Electrodes and Schoopage Contacts
PCM 7.5 mm to 37.5 mm
Special Features
Pulse duty construction
Self-healing
Very low dissipation factor
Negative capacitance change
versus temperature
˜
According to RoHS 2002/95/EC
˜
˜
˜
˜
D
Electrical Data
Capacitance range:
1000 pF to 15
m
F (E12-values on request)
Rated voltages:
100 VDC, 250 VDC, 400 VDC, 630 VDC,
1000 VDC, 1600 VDC, 2000 VDC, 2500 VDC
Capacitance tolerances:
±20%, ±10%, ±5%
Operating temperature range:
–55) C to +100) C
Climatic test category:
55/100/56 in accordance with IEC
Insulation resistance
at +20+ C:
C 0.33
mF:
1 x 10
5
M¸
(mean value: 5 x 10
5
M¸)
C
>
0.33
mF:
30 000 sec (M¸ x
mF)
(mean value: 100 000 sec)
Measuring voltage: 100 V/1 min.
Dissipation factors
at + 20) C: tan
d
at f
1 kHz
10 kHz
100 kHz
Capacitance
pF/mF
1000
3300
0.01
0.033
0.1
0.33
1.0
3.3
6.8
...
...
...
...
...
...
...
...
...
2200
6800
0.022
0.068
0.22
0.68
2.2
4.7
15
C
0.1
mF
3 x 10
-4
4 x 10
-4
15 x 10
-4
Test voltage:
1.6 U
r
, 2 sec.
Dielectric absorption:
0.05 %
Voltage derating:
A voltage derating factor of 1.35 % per K
must be applied from +85+ C for DC
voltages and from +75+ C for AC
voltages.
Reliability:
Operational life
>
300 000 hours
Failure rate
<
1 fit (0.5 x U
r
and 40) C)
Typical Applications
For pulse applications e.g.
˜
Switch mode power supplies
˜
TV and monitor sets
˜
Lighting
˜
Audio/video equipment
Construction
Dielectric:
Polypropylene (PP) film
Capacitor electrodes:
Double-sided metallized plastic film
Internal construction:
MKP 10: 63 VAC, 180 VAC, 250 VAC
Plastic film
Electrode carrier
plastic film metallized
on both sides
Metal contact layer
(schoopage)
Terminating wire
0.1
mF
< C
1.0
mF
C > 1.0
mF
3 x 10
-4
–
–
3 x 10
-4
6 x 10
-4
–
Maximum pulse rise time:
max. pulse rise time V/msec at T
A
< 40) C
100 VDC 250 VDC 400 VDC 630 VDC 1000 VDC 1600 VDC 2000 VDC 2500 VDC
1000
900
700
400
200
100
70
50
35
1800
1200
1100
800
500
300
200
80
50
1800
1200
1200
900
500
400
200
100
70
1800
1200
1800
1800
900
700
400
150
–
2800
2800
2100
2100
1400
900
400
–
–
5400
5400
3000
2100
1400
900
500
–
–
9000
9000
3400
2100
1400
900
–
–
–
11000
11000
11000
–
–
–
–
–
–
MKP 10: 400 VAC, 600 VAC, 650 VAC, 700 VAC
Plastic film
Electrode carrier
plastic film metallized
on both sides
Plastic film metallized
on one side
Metal contact layer
(schoopage)
Terminating wire
for pulses equal to the rated voltage
Mechanical Tests
MKP 10: 900 VAC (PCM 15 = 3-section)
Plastic film
Electrode carrier
plastic film metallized
on both sides
Plastic film metallized
on one side
Metal contact layer
(schoopage)
Terminating wire
Packing
Available taped and reeled up to and
including case size 15 x 26 x 31.5 /
PCM 27.5 mm.
Detailed taping information and graphs
at the end of the catalogue.
Encapsulation:
Solvent-resistant, flame-retardent plastic
case with epoxy resin seal, UL 94 V-0
Terminations:
Tinned wire.
Marking:
Colour: Red.
Marking: Black. Epoxy resin seal: Red
Pull test on leads:
d 0.8
l
: 10 N in direction of leads
d > 0.8
l
: 20 N in direction of leads
according to IEC 60068-2-21
Vibration:
6 hours at 10 ... 2000 Hz and 0.75 mm
displacement amplitude or 10 g in
accordance with IEC 60068-2-6
Low air density:
1kPa = 10 mbar in accordance with
IEC 60068-2-13
Bump test:
4000 bumps at 390 m/sec
2
in accordance with IEC 60068-2-29
For further details and graphs please
refer to Technical Information.
10.05
66
WIMA MKP 10
Continuation
D
General Data
Capacitance
1000
1500
2200
3300
4700
6800
pF
"
"
"
"
"
W
3
3
3
3
3
3
3
3
4
4
4
5
6
6
7
8
7
8.5
10.5
11
13
17
17
19
20
24
100 VDC/63 VAC
*
**
H
L
PCM
7.5
8.5 10
7.5
8.5 10
7.5
8.5 10
7.5
8.5 10
7.5
8.5 10
7.5
8.5 10
8.5
8.5
9
9
9
11
12
12.5
14
15
16.5
18.5
19
21
24
29
29
32
39.5
45.5
250 VDC/180 VAC
*
**
W
H
L
PCM
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
3
4
4
4
4
4
5
4
5
4
5
5
6
5
6
6
7
6
8
6
9
7
8.5
9
11
11
13
13
15
13
17
17
20
19
20
24
U
r
400 VDC/250 VAC
*
**
W
H
L
PCM
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
3
8.5 10
7.5
4
9
10
4
4
5
4
5
4
5.7
5
6
5
6
6
7
6
8
6
9
7
8.5
9
10.5
9
11
11
13
13
17
13
20
17
20
20
24
9
9
10.5
9
10.5
9
12.5
11
12
11
12.5
15
14
15
15
15
16
16.5
18.5
19
19
19
21
21
24
24
29
24
39.5
29
39.5
39.5
45.5
10
13
10.3
13
10.3
13
10.3
13
13
18
18
26.5
18
26.5
18
26.5
18
26.5
26.5
31.5
26.5
31.5
26.5
31.5
31.5
41.5
31.5
41.5
31.5
41.5
41.5
41.5
41.5
0.01
m
F
0.015 "
0.022 "
0.033 "
0.047 "
0.068 "
0.1
m
F
10
10
10
13
13
13
13
18
18
18
26.5
26.5
26.5
31.5
31.5
31.5
41.5
41.5
41.5
41.5
7.5
7.5
7.5
10
10
10
10
15
15
15
22.5
22.5
22.5
27.5
27.5
27.5
37.5
37.5
37.5
37.5
0.15 "
0.22 "
0.33 "
0.47 "
0.68 "
1.0
1.5
2.2
3.3
4.7
6.8
10
15
m
F
"
"
"
"
"
m
F
8.5
9
9
9
9
9
10.5
9
10.5
9
11
11
12
11
12.5
15
14
15
15
15
16
16.5
18.5
19
21
21
24
24
26
24
34.5
29
39.5
32
39.5
45.5
10
13
10
13
10
13
10.3
13
10.3
13
13
18
13
18
18
26.5
18
26.5
18
26.5
18
26.5
26.5
31.5
26.5
31.5
31.5
41.5
31.5
41.5
31.5
41.5
31.5
41.5
41.5
41.5
7.5*
10*
7.5*
10*
7.5*
10*
7.5*
10*
7.5*
10*
10*
15*
10*
15*
15*
22.5*
15*
22.5*
15*
22.5*
15*
22.5*
22.5*
27.5*
22.5*
27.5*
27.5*
37.5*
27.5*
37.5*
27.5*
37.5*
27.5*
37.5*
37.5
37.5
630 VDC/400 VAC
*
**
W
H
L
PCM
7.5**
3
8.5 10
7.5**
3
8.5 10
7.5**
3
8.5 10
7.5**
4
9
10
7.5**
4
9
10
7.5**
4
9
10
4
9
13
10*
7.5*
5
10.5 10.3
7.5**
10*
4
9
13
10*
7.5*
5
11
13
10*
10*
5
11
18
15*
7.5*
5
11
13
10*
10*
5
11
18
15*
7.5*
6
12
13
10*
10*
5
11
18
15*
10*
6
12.5 18
15*
15*
6
15
26.5 22.5*
15*
7
14
18
15*
22.5* 6
15
26.5 22.5*
15*
9
16
18
15*
22.5* 7
16.5 26.5 22.5*
15*
8.5 18.5 26.5 22.5*
22.5* 9
19
31.5 27.5*
15*
8.5 18.5 26.5 22.5*
22.5* 9
19
31.5 27.5*
22.5* 11
21
26.5 22.5*
27.5* 11
21
31.5 27.5*
22.5* 11
21
31.5 27.5
27.5*
22.5* 15
26
31.5 27.5*
27.5* 13
24
41.5 37.5*
27.5* 17
29
31.5 27.5*
37.5* 15
26
41.5 37.5*
27.5* 20
39.5 31.5 27.5*
37.5* 19
32
41.5 37.5*
27.5* 20
39.5 41.5 37.5
37.5*
37.5 24
45.5 41.5 37.5
37.5
37.5
"
* AC voltage:
f
1000 Hz; 1.4 x U
rms
+ UDC
** PCM = Printed circuit module = lead spacing
New values and box sizes.
*
On ordering please state the required PCM (lead spacing)!
If not specified, smaller PCM will be booked.
**
Admissible AC voltage 280 VAC max
.
Dims. in mm.
Ionisation inception level in isolated cases may be
lower than admissible AC voltage.
Taped version see page 100.
10.05
Rights reserved to amend design data without prior notification.
P
d
PCM
W
W
H
6
-2
L
0.5
7.5
=
3
0.7
7.5
4
0.7
10
0.8 15 - 22.5
0.8
27.5
15
1.0
27.5
>
15
1.0
37.5
d
PCM
at the lead exit points
(
G
0.4)
Continuation page 68
67
WIMA MKP 10
WIMA FKP 4
Continuation
D
General Data
Capacitance
1000 pF
1500 "
2200 "
3300 "
4700 "
6800 "
0.01
m
F
0.015 "
0.022 "
0.033 "
0.047 "
0.068 "
0.1
m
F
1000 VDC/600 VAC
*
**
W
H
L
PCM
4
9
10
7.5*
4
9
13
10*
4
9
10
7.5*
4
9
13
10*
4
9
10
7.5*
4
9
13
10*
4
9
10
7.5*
4
9
13
10*
4.5
9.5 10.3
7.5*
4
9
13
10*
5.7 12.5 10.3
7.5*
5
11
13
10*
5
11
13
10*
5
11
18
15*
6
12
13
10*
5
11
18
15*
6
12.5 18
15*
6
15
26.5 22.5*
7
14
18
15*
6
15
26.5 22.5*
8
15
18
15*
6
15
26.5 22.5*
7
16.5 26.5 22.5
8.5
11
11
11
11
15
13
17
13
20
17
20
24
18.5
21
21
21
21
26
24
29
24
39.5
29
39.5
45.5
26.5
31.5
26.5
31.5
31.5
31.5
41.5
31.5
41.5
31.5
41.5
41.5
41.5
22.5*
27.5*
22.5*
27.5*
27.5
27.5*
37.5*
27.5*
37.5*
27.5*
37.5*
37.5
37.5
1600 VDC/650 VAC
*
**
W
H
L
PCM
4
9
13
10
4
4
4
5
6
5
5
6
6
7
6
8
6
7
9
10.5
9
11
11
13
15
13
17
17
20
19
20
24
U
r
2000 VDC/700 VAC
*
**
W
H
L
PCM
4
9
13
10
4
5
5
5
5
6
6
6
7
6
8
6
9
7
8.5
9
10.5
11
11
11
13
9
11
11
11
11
15
12.5
15
14
15
15
15
16
16.5
18.5
19
19
21
21
21
24
26
24
34.5
29
32
39.5
45.5
13
13
18
18
18
26.5
18
26.5
18
26.5
18
26.5
18
26.5
26.5
31.5
26.5
31.5
26.5
31.5
31.5
31.5
41.5
31.5
41.5
41.5
41.5
41.5
10
10*
15*
15
9
9
9
11
12
11
11
12.5
15
14
15
15
15
16.5
19
19
19
21
21
24
26
24
34.5
29
39.5
32
39.5
45.5
13
13
13
13
13
18
18
18
26.5
18
26.5
18
26.5
26.5
31.5
26.5
31.5
26.5
31.5
31.5
31.5
41.5
31.5
41.5
31.5
41.5
41.5
41.5
10
10
10
10
10*
15*
15
0.15 "
0.22 "
0.33 "
0.47 "
0.68 "
1.0
1.5
m
F
15*
22.5*
15*
22.5*
15*
22.5*
22.5*
27.5*
22.5*
27.5*
22.5*
27.5*
27.5 15
13
27.5* 17
37.5* 17
27.5* 19
37.5*
27.5* 20
37.5*
37.5 24
37.5
15*
22.5*
15*
22.5*
15*
22.5*
15*
10.5
22.5*
15*
11
22.5*
22.5*
27.5*
22.5*
27.5*
22.5*
27.5*
27.5
27.5*
37.5*
27.5*
37.5*
37.5
37.5
37.5
2500 VDC/900 VAC
*
**
W
H
L
PCM
5
11
18
15*
6
15
26.5 22.5*
5
11
18
15*
6
15
26.5 22.5
5
11
18
15*
6
15
26.5 22.5*
5
11
18
15*
6
15
26.5 22.5*
6
12.5 18
15*
6
15
26.5 22.5*
7
14
18
15*
7
16.5 26.5 22.5*
8.5 18.5 26.5 22.5
19
21
26.5
26.5
22.5
22.5
"
* AC voltage:
f
1000 Hz; 1.4 x U
rms
+ UDC
** PCM = Printed circuit module = lead spacing
New box sizes and range.
*
On ordering please state the required PCM (lead spacing)!
If not specified, smaller PCM will be booked.
Dims. in mm.
Ionisation inception level in isolated cases may be
lower than admissible rated AC voltage.
Taped version see page 100.
P
d
PCM
W
W
L
0.5
7.5
=
3
0.7
7.5
4
0.7
10
0.8 15 - 22.5
0.8
27.5
15
1.0
27.5
>
15
1.0
37.5
H
6 -
2
d
PCM
at the lead exit
points
(
G
0.4)
Rights reserved to amend design data without prior notification.
Continuation page 69
06.05
68
WIMA MKP 10
Continuation
D
Permissible AC voltage
in relation to frequency
at 10) C internal temperature rise
(general guide).
U
rms
V
5
250
2
pF
00
22
µF
01
0.
µF
7
04
0.
650
5
U
rms
V
2
4.
7
1.
0
10
2
5
µF
µF
0.
22
µF
10
2
10
00
pF
400 VDC
6.
8
5
2
10
1
2.
2
µF
µF
0.
47
1600 VDC
2
10
1
µF
22
00
0.
pF
01
0.
04
µF
10
7
0.
00
22
µF
47
pF
µF
00
1.
0.
0
pF
02
µF
2
0.
µF
1
0.
µF
47
µF
47
µF
0.
1
0.
µF
00
pF
02
2
10
3
2
5
10
4
2
5
10
5
2
U
rms
V
5
400
2
10
2
5
3.
3
1.
0
5 f 10
6
Hz
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
700
5
U
rms
V
2
10
2
5
22
0
0.
0
0.
01
pF
04
µF
7
µF
µF
pF
00
pF
10
00
µF
2
47
02
µF
0.
pF
1
0.
µF
00
µF
22
47
01
0.
µF
0.
7
µF
04
0.
.22
0
0.
68
µF
0.
02
47
10
00
µF
00
22
0.
2
pF
pF
µF
0.
47
1
0.
µF
630 VDC
2
10
1
µF
2000 VDC
2.
2
µF
µF
2
10
1
10
3
2
5
10
4
2
5
10
5
2
U
rms
V
5
5 f 10
6
Hz
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
600
5
U
rms
V
2
0.
04
7
22
900
00
pF
2
180
10
2
5
10
4.
7
µF
0.
01
µF
22
00
µF
pF
0.
µF
250 VDC
2
10
1
6.
8
µF
2.
2
µF
0.
47
47
00
10
00
pF
10
2
1.
0
µF
pF
5
47
00 pF
0.
pF
02
2
µF
10
00
5
U
rms
V
2
10
2
5
2
0.
02
2
47
10
00
µF
00
01
0.
pF
pF
µF
22
0.
0.
01
22
00
µF
µF
µF
7
04
0.
µF
22
0.
µF
pF
0
1.
1
0.
47
0.
µF
1000 VDC
2
10
1
µF
1.
5
2500 VDC
µF
2
02
F
µ
1
0.
µF
µF
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
10
1
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
WIMA FKP 4
Permissible AC voltage in relation to frequency at 10) C internal temperature rise (general guide).
U
rms
V
5
250
2
10
2
5
1.
5
U
rms
V
5
400
U
rms
V
500
10
47
10
4
0
0.
00
00 p 70
pF
02
pF
pF
F
2
0.
µF
1
22
µF
0.
00 p
0.
01
47
F
0.
µF
04
µF
7
0.
µF
22
µF
1.
0
µF
µF
400 VDC
2
10
1
10
3
U
rms
V
5
350
2
10
2
5
10
22
00 10 0 pF
0.
00
01
pF
pF
0.
04
µF
47
7
0.
µF
00
22
0.
µF
02
pF
1.
0
2
0.
µF
µF
1
µF
0.
47
µF
2
10
2
5
2
10
2
5
1000 VDC
1600 VDC
2
10
1
10
10
22 0 p
00
47 0 p F
47
p
0 F
pF
0.
00 p
F
02
F
0.
2
22
1
µF
00
µF
0.
0.
pF
0
47
0.
1 µ
F
µF
04
7
0.
µF
22
µF
2
10
1
U
rms
V
5
450
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
10
3
2
5
10
4
2
5
10
5
2
5 f 10
6
Hz
10
3
2
5
10
4
2
5
10
5
2
630 VDC
2
10
1
10
3
10
4
10
22
47 0 p
00
0.
0 F
pF
01
p
10 F
0.
04
µF
00
7
pF
0.
47
µF
2
00
0.
2 µ
0.
47
F
pF
02
1.
µF
2
0.
5
µF
1
µF
µF
1.
0
µF
10
2
5
1250 VDC
10
22
00
47 0 p
0.
F
pF
0
01
0.
10 pF
04
µF
0
7
0.
47
0 p
µF
22
F
00
0.
µF
0.
pF
02
68
2
0.
µF
µF
1
µF
0.
47
µF
U
rms
V
550
5 f 10
6
Hz
2
10
2
5
2000 VDC
10
10
22 0 p
47
00
0 F
0.
00
pF
47 pF
02
pF
0
2
0.
pF
µF
22
1
µF
00
0.
01
pF
0.
04
µF
7
0.
µF
15
µF
2
10
1
10
3
10
4
10
5
5 f 10
6
Hz
2
10
1
10
3
10
4
10
5
5 f 10
6
Hz
2
5
2
5
10
5
2
5 f 10
6
Hz
2
5
2
5
2
2
5
2
5
2
06.05
Technical information and general data see page 70.
69
D
Recommendation for Processing
and Application of
Through-Hole Capacitors
Soldering Process
A preheating of through-hole WIMA
capacitors is allowed for temperatures
T
max
<
100 ° C.
In practice a preheating duration of
t
<
5 min. has been proven to be best.
Single wave soldering
Soldering bath temperature: T
<
260 ° C
Immersion time:
t
<
5 sec
Double wave soldring
Soldering bath temperature: T
<
260 ° C
Immersion time:
2 x t
<
3 sec
Wave soldering
T
260
240
220
200
180
160
140
120
100
80
60
40
20
[°C]
see detail-
enlargement
2s
3s
10 s
t
30
60
90
120
150
180
210
240 [sec]
Temperature/time graph for the maximum permissible solder bath
temperature for the wave soldering of through-hole WIMA capacitors
WIMA Quality and Environmental Philosophy
ISO 9001:2000 Certification
ISO 9001:2000 is an international basic
standard of quality assurance systems for
all branches of industry. The approval
according to ISO 9001:2000 of our
factories by the VDE inspectorate certifies
that organisation, equipment and moni-
toring of quality assurance in our factories
correspond to internationally recognized
standards.
WIMA Environmental Policy
All WIMA capacitors, irrespective of
whether through-hole devices or SMD,
are made of environmentally friendly
materials. Neither during manufacture
nor in the product itself any toxic sub-
stances are used, e.g.
–
–
–
–
–
Lead
PCB
CFC
Hydrocarbon chloride
Chromium 6+
–
–
–
–
–
PBB/PBDE
Arsenic
Cadmium
Mercury
etc.
RoHS Compliance
According to the RoHS Directive 2002/95/EC
certain hazardous substances like e.g. lead,
cadmium, mercury must not be used any
longer in electronic equipment as of July 1st,
2006. For the sake of the environment WIMA
has refraind from using such substances since
years already.
WIMA WPCS
The WIMA Process Control System (WPCS)
is a quality surveillance and optimization
system developed by WIMA. WPCS is a
major part of the quality-oriented WIMA
production. Points of application of WPCS
during production process:
”
”
”
”
”
”
”
incoming material inspection
metallization
film inspection
schoopage
pre-healing
lead attachment
cast resin preparation/
encapsulation
”
100% final inspection
”
AQL check
We merely use pure, recyclable materials
for packing our components, such as:
”
”
”
”
carton
cardboard
adhesive tape made of paper
polystyrene
Tape for lead-free WIMA capacitors
We almost completely refrain from using
packing materials such as:
”
foamed polystyrene (Styropor®)
”
adhesive tapes made of plastic
”
metal clips
ISO 14001:2005
WIMA’s environmental management has
been established in accordance with the
guidelines of ISO 14001. The certification
is under preparation and is expected to be
accomplished by June 2006.
16
06.05
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