TDK B32676G6146000 Metallized polypropylene film capacitors (mkp) Datasheet

Film Capacitors
Metallized Polypropylene Film Capacitors (MKP)
Series/Type:
B32674 ... B32678
Date:
June 2015
© EPCOS AG 2015. Reproduction, publication and dissemination of this publication, enclosures hereto and the
information contained therein without EPCOS' prior express consent is prohibited.
EPCOS AG is a TDK Group Company.
Metallized polypropylene film capacitors (MKP)
MKP DC link high power series
Recommended applications
Frequency converters
Industrial and high-end power supplies
Solar inverters
Climatic
Max. operating temperature: 105 °C (case)
Climatic category (IEC 60068-1): 40/105/56
Construction
Dielectric: Polypropylene (MKP)
Plastic case (UL 94 V-0)
Epoxy resin sealing (UL 94 V-0)
Features
Capacitance value up to 270 µF
High CV product, compact
Good self-healing properties
Over-voltage capability
Low losses with high current capability
High reliability
Long useful life
Terminals
Parallel wire leads, lead-free tinned
2-pin, 4-pin and 12-pin versions
Standard lead lengths: 6 1 mm
Marking
Manufacturer's logo and lot number,
date code, rated capacitance (coded),
capacitance tolerance (code letter),
rated DC voltage
Delivery mode
Bulk (untaped, lead length 6 1 mm)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 2 of 40
B32674 ... B32678
B32674 ... B32678
MKP DC link high power series
Dimensional drawings
Dimensions in mm
Number of wires
Lead spacing
±0.4
Lead diameter d1 ±0.05 Type
2-pin
27.5
0.8
B32674D
2-pin
37.5
1.0
B32676T
4-pin
37.5
1.2
B32676G
4-pin
37.5
1.2
B32676T
4-pin
52.5
1.2
B32678G
4-pin
52.5
1.2
B32678T
12-pin
52.5
1.2
B32678J
Dimensional drawings 2-pin versions
B32674D
Lead spacing
±0.4:
27.5
Lead diameter d1:
(Dimensions in mm)
0.8
B32676T (low profile)
Lead spacing
±0.4:
37.5
Lead diameter d1:
(Dimensions in mm)
Please read Cautions and warnings and
Important notes at the end of this document.
1.0
Page 3 of 40
B32674 ... B32678
MKP DC link high power series
Dimensional drawings 4-pin versions
B32676G, B32678G
B32676G B32678G
Lead spacing
±0.4: 37.5
52.5
Lead diameter d1:
1.2
1.2
(Dimensions in mm)
B32676T, B32678T (low profile)
B32676T B32678T
Lead spacing
±0.4: 37.5
52.5
Lead diameter d1:
1.2
1.2
(Dimensions in mm)
Dimensional drawing 12-pin version
B32678J
Lead spacing
±0.4:
52.5
Lead diameter d1:
(Dimensions in mm)
Please read Cautions and warnings and
Important notes at the end of this document.
1.2
Page 4 of 40
B32674 ... B32678
MKP DC link high power series
Overview of available types
Lead spacing 27.5 mm
37.5 mm
Type
B32674
B32676
Page
7
VR (V DC)
300
9
450
630
750
875
CR (µF)
0.47
0.68
1.0
1.5
2.0
2.2
2.7
3.0
3.3
3.5
4.0
4.7
5.0
5.6
6.0
6.2
6.8
7.5
8.0
8.2
9.0
10
12
13
14
15
20
22
25
30
35
Please read Cautions and warnings and
Important notes at the end of this document.
Page 5 of 40
300
450
630
750
875
B32674 ... B32678
MKP DC link high power series
Lead spacing 52.5 mm
Type
B32678
Page
11
VR (V DC)
300
450
630
CR (µF)
7.0
9.0
13
15
20
22
24
25
28
30
35
38
40
45
47
60
65
80
85
100
120
180
270
Please read Cautions and warnings and
Important notes at the end of this document.
Page 6 of 40
750
875
B32674
MKP DC link high power series
Ordering codes and packing units (lead spacing 27.5 mm)
CR1)
Max. dimensions
w×h×l
P1
µF
mm
mm
Ordering code
(composition see
below)
VR,85 °C = 300 V DC, Vop,70 °C = 450 V DC
2.2 11.0 × 19.0 × 31.5 B32674D3225+000
3.3 12.5 × 21.5 × 31.5 B32674D3335+000
4.7 14.0 × 24.5 × 31.5 B32674D3475+000
5.0 15.0 × 24.5 × 31.5 B32674D3505+000
6.8 18.0 × 27.5 × 31.5 B32674D3685+000
8.0 16.0 × 32.0 × 31.5 B32674D3805+000
8.2 18.0 × 33.0 × 31.5 B32674D3825+000
10.0 21.0 × 31.0 × 31.5 B32674D3106+000
12.0 22.0 × 36.5 × 31.5 B32674D3126+000
VR,85 °C = 450 V DC, Vop,70 °C = 630 V DC
1.5 11.0 × 19.0 × 31.5 B32674D4155+000
2.2 12.5 × 21.5 × 31.5 B32674D4225+000
3.3 15.0 × 24.5 × 31.5 B32674D4335+000
4.7 18.0 × 27.5 × 31.5 B32674D4475+000
5.0 16.0 × 32.0 × 31.5 B32674D4505+000
5.6 18.0 × 33.0 × 31.5 B32674D4565+000
6.0 21.0 × 31.0 × 31.5 B32674D4605+000
6.8 22.0 × 36.5 × 31.5 B32674D4685+000
7.5 22.0 × 36.5 × 31.5 B32674D4755+000
VR,85 °C = 630 V DC, Vop,70 °C = 800 V DC
1.0 11.0 × 19.0 × 31.5 B32674D6105+000
1.5 12.5 × 21.5 × 31.5 B32674D6155+000
2.2 15.0 × 24.5 × 31.5 B32674D6225+000
3.3 16.0 × 32.0 × 31.5 B32674D6335+000
4.7 22.0 × 36.5 × 31.5 B32674D6475+000
5.0 22.0 × 36.5 × 31.5 B32674D6505+000
IRMS,max2)
70 °C
10 kHz
A
ESRtyp ESLtyp3) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
5.0
7.0
8.5
9.0
11.5
12.5
13.0
14.5
17.0
18.1
12.2
8.9
8.4
6.3
5.6
5.5
4.6
4.0
16.0
19.0
21.0
21.0
24.0
27.0
27.0
27.0
31.0
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.8
0.8
4.1
4.1
4.2
4.2
4.4
4.5
4.5
4.6
4.9
1280
1120
1040
960
800
880
800
720
640
4.5
6.0
8.0
10.5
11.0
12.0
13.0
14.5
15.0
22.1
14.9
10.3
7.5
7.1
6.3
5.9
5.4
5.0
16.0
19.0
22.0
24.0
28.0
29.0
28.0
29.0
32.0
0.6
0.6
0.6
0.6
0.7
0.7
0.7
0.7
0.7
3.3
3.3
3.4
3.5
3.6
3.6
3.6
3.7
3.8
1280
1120
960
800
880
800
720
640
640
4.0
5.5
7.5
10.0
13.5
14.5
26.1
17.9
12.4
8.5
6.0
5.8
17.0
19.0
21.0
28.0
31.0
31.0
0.6
0.6
0.6
0.6
0.6
0.6
2.7
2.7
2.7
2.8
3.0
3.0
1280
1120
960
880
640
640
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
1) Capacitance value measured at 1 kHz
2) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
3) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 7 of 40
B32674
MKP DC link high power series
Ordering codes and packing units (lead spacing 27.5 mm)
CR4)
Max. dimensions
w×h×l
P1
µF
mm
mm
Ordering code
(composition see
below)
IRMS,max5)
70 °C
10 kHz
A
VR,85 °C = 750 V DC, Vop,70 °C = 900 V DC
0.68 11.0 × 19.0 × 31.5 B32674D1684+000 3.5
1.0 12.5 × 21.5 × 31.5 B32674D1105+000 4.5
1.5 14.0 × 24.5 × 31.5 B32674D1155+000 6.5
2.2 18.0 × 27.5 × 31.5 B32674D1225+000 8.5
3.3 21.0 × 31.0 × 31.5 B32674D1335+000 11.0
4.0 22.0 × 36.5 × 31.5 B32674D1405+000 13.0
VR,85 °C = 875 V DC, Vop,70 °C = 1050 V DC
0.47 11.0 × 19.0 × 31.5 B32674D8474+000 3.0
0.68 11.0 × 21.0 × 31.5 B32674D8684+000 4.0
1.0 13.5 × 23.0 × 31.5 B32674D8105+000 5.0
1.5 18.0 × 27.5 × 31.5 B32674D8155+000 7.5
2.2 18.0 × 33.0 × 31.5 B32674D8225+000 9.5
3.0 22.0 × 36.5 × 31.5 B32674D8305+000 12.0
ESRtyp ESLtyp6) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
34.7
24.2
16.3
11.3
7.9
6.7
17.0
18.0
22.0
24.0
28.0
32.0
0.5
0.5
0.6
0.6
0.6
0.6
2.4
2.5
2.5
2.5
2.6
2.7
1280
1120
1040
800
720
640
45.2
31.5
22.2
14.7
10.3
7.8
16.0
19.0
20.0
23.0
29.0
31.0
0.5
0.5
0.5
0.5
0.5
0.5
2.2
2.2
2.2
2.2
2.3
2.4
1280
1280
1040
800
800
640
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
4) Capacitance value measured at 1 kHz
5) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
6) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 8 of 40
B32676
MKP DC link high power series
Ordering codes and packing units (lead spacing 37.5 mm)
CR1) Max. dimensions
w×h×l
P1
µF
mm
mm
VR,85 °C = 300 V DC, Vop,70 °C =
6.2 24.0 × 15.0 × 41.5 9.0 24.0 × 19.0 × 41.5 15.0 20.0 × 39.5 × 42.0 10.2
20.0 28.0 × 37.0 × 42.0 10.2
20.0 43.0 × 22.0 × 41.5 20.3
22.0 28.0 × 42.5 × 42.0 10.2
25.0 28.0 × 42.5 × 42.0 10.2
30.0 30.0 × 45.0 × 42.0 20.3
35.0 33.0 × 48.0 × 42.0 20.3
VR,85 °C = 450 V DC, Vop,70 °C =
4.0 24.0 × 15.0 × 41.5 4.7 24.0 × 19.0 × 41.5 8.2 20.0 × 39.5 × 42.0 10.2
10.0 20.0 × 39.5 × 42.0 10.2
13.0 43.0 × 22.0 × 41.5 20.3
15.0 28.0 × 42.5 × 42.0 10.2
20.0 30.0 × 45.0 × 42.0 20.3
25.0 33.0 × 48.0 × 42.0 20.3
VR,85 °C = 630 V DC, Vop,70 °C =
2.7 24.0 × 15.0 × 41.5 3.5 24.0 × 19.0 × 41.5 6.8 20.0 × 39.5 × 42.0 10.2
7.5 20.0 × 39.5 × 42.0 10.2
8.2 28.0 × 37.0 × 42.0 10.2
9.0 43.0 × 22.0 × 41.5 20.3
10.0 28.0 × 42.5 × 42.0 10.2
12.0 28.0 × 42.5 × 42.0 10.2
14.0 30.0 × 45.0 × 42.0 20.3
15.0 33.0 × 48.0 × 42.0 20.3
Ordering code
(composition see
below)
450 V DC
B32676T3625+000
B32676T3905+000
B32676G3156+000
B32676G3206+000
B32676T3206K000
B32676G3226+000
B32676G3256+000
B32676G3306+000
B32676G3356+000
630 V DC
B32676T4405+000
B32676T4475+000
B32676G4825+000
B32676G4106+000
B32676T4136K000
B32676G4156+000
B32676G4206K000
B32676G4256K000
800 V DC
B32676T6275+000
B32676T6355+000
B32676G6685+000
B32676G6755+000
B32676G6825+000
B32676T6905K000
B32676G6106+000
B32676G6126+000
B32676G6146+000
B32676G6156+000
IRMS,max2)
70 °C
10 kHz
A
ESRtyp ESLtyp3) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
8.0
10.0
16.0
20.0
19.5
21.5
22.5
26.0
29.5
12.6
9.1
5.4
4.0
4.0
3.8
3.4
2.8
2.5
18.0
19.0
10.0
11.0
13.0
11.0
12.0
12.0
13.0
1.1
1.1
1.1
1.1
1.1
1.2
1.2
1.2
1.2
8.2
8.3
8.3
8.4
8.3
8.5
8.6
8.7
8.8
1040
780
640
440
280
440
440
400
180
7.0
8.0
13.5
14.5
17.5
20.0
24.0
28.0
15.5
13.2
7.8
6.4
5.0
4.4
3.3
2.8
19.0
18.0
9.0
11.0
13.0
11.0
13.0
14.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
6.6
6.6
6.7
6.7
6.6
6.8
6.9
7.1
1040
780
640
640
280
440
400
180
7.0
8.0
13.5
14.5
16.0
16.5
18.5
20.0
23.0
25.0
17.7
14.1
7.4
6.6
6.1
5.7
5.1
4.4
3.7
3.5
20.0
19.0
10.0
12.0
11.0
13.0
11.0
12.0
14.0
14.0
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
5.1
5.1
5.2
5.2
5.2
5.1
5.2
5.3
5.3
5.4
1040
780
640
640
440
280
440
440
400
180
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
1) Capacitance value measured at 1 kHz
2) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
3) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 9 of 40
B32676
MKP DC link high power series
Ordering codes and packing units (lead spacing 37.5 mm)
CR4) Max. dimensions
w×h×l
P1
µF
mm
mm
Ordering code
(composition see
below)
VR,85 °C = 750 V DC, Vop,70 °C = 900 V DC
2.0 24.0 × 15.0 × 41.5 B32676T1205+000
2.7 24.0 × 19.0 × 41.5 B32676T1275+000
4.7 20.0 × 39.5 × 42.0 10.2 B32676G1475+000
5.6 20.0 × 39.5 × 42.0 10.2 B32676G1565+000
6.8 28.0 × 37.0 × 42.0 10.2 B32676G1685+000
9.0 30.0 × 45.0 × 42.0 20.3 B32676G1905+000
10.0 30.0 × 45.0 × 42.0 20.3 B32676G1106+000
12.0 33.0 × 48.0 × 42.0 20.3 B32676G1126+000
VR,85 °C = 875 V DC, Vop,70 °C = 1050 V DC
1.5 24.0 × 15.0 × 41.5 B32676T8155+000
2.0 24.0 × 19.0 × 41.5 B32676T8205+000
3.3 20.0 × 39.5 × 42.0 10.2 B32676G8335+000
4.0 20.0 × 39.5 × 42.0 10.2 B32676G8405+000
4.7 28.0 × 37.0 × 42.0 10.2 B32676G8475+000
6.8 28.0 × 42.5 × 42.0 10.2 B32676G8685+000
7.5 30.0 × 45.0 × 42.0 20.3 B32676G8755+000
10.0 33.0 × 48.0 × 42.0 20.3 B32676G8106K000
IRMS,max5)
70 °C
10 kHz
A
ESRtyp ESLtyp6) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
6.0
7.5
12.0
13.0
15.5
19.5
20.5
23.0
22.7
16.7
9.5
8.2
6.7
5.1
4.7
4.0
18.0
19.0
10.0
11.0
11.0
12.0
13.0
14.0
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
4.6
4.6
4.6
4.7
4.7
4.7
4.8
4.8
1040
780
640
640
440
440
400
180
5.5
7.0
10.5
12.0
13.5
17.0
19.0
22.5
26.2
19.6
12.0
9.9
8.6
6.0
5.4
4.3
18.0
19.0
9.0
11.0
10.0
12.0
13.0
14.0
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
4.1
4.1
4.1
4.1
4.1
4.2
4.2
4.3
1040
780
640
640
440
440
400
180
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
4) Capacitance value measured at 1 kHz
5) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
6) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 10 of 40
B32678
MKP DC link high power series
Ordering codes and packing units (lead spacing 52.5 mm)
CR1)
Max. dimensions
w×h×l
P1
µF
mm
mm
Ordering code
(composition see
below)
IRMS,max2)
70 °C
10 kHz
A
VR,85 °C = 300 V DC, Vop,70 °C = 450 V DC
30.0 43.0 × 24.0 × 57.5 20.3 B32678T3306K000 22.5
40.0 30.0 × 45.0 × 57.5 20.3 B32678G3406+000 28.0
47.0 35.0 × 50.0 × 57.5 20.3 B32678G3476+000 33.0
60.0 35.0 × 50.0 × 57.5 20.3 B32678G3606K000 37.0
80.0 45.0 × 57.0 × 57.5 20.3 B32678G3806+000 47.0
80.0 130.0 × 24.0 × 57.5 20.3 B32678J3806K000 51.0
100.0 60.0 × 45.0 × 57.5 20.3 B32678G3107+000 48.0
270.0 130.0 × 58.0 × 57.5 20.3 B32678J3277K000 108.0
VR,85 °C = 450 V DC, Vop,70 °C = 630 V DC
20.0 43.0 × 24.0 × 57.5 20.3 B32678T4206K000 20.0
30.0 35.0 × 50.0 × 57.5 20.3 B32678G4306+000 28.0
35.0 35.0 × 50.0 × 57.5 20.3 B32678G4356+000 31.5
40.0 35.0 × 50.0 × 57.5 20.3 B32678G4406K000 34.0
60.0 45.0 × 57.0 × 57.5 20.3 B32678G4606+000 45.0
60.0 130.0 × 24.0 × 57.5 20.3 B32678J4606K000 49.5
65.0 60.0 × 45.0 × 57.5 20.3 B32678G4656+000 48.0
180.0 130.0 × 58.0 × 57.5 20.3 B32678J4187K000 97.5
VR,85 °C = 630 V DC, Vop,70 °C = 800 V DC
13.0 43.0 × 24.0 × 57.5 20.3 B32678T6136K000 18.0
20.0 35.0 × 50.0 × 57.5 20.3 B32678G6206+000 26.5
25.0 35.0 × 50.0 × 57.5 20.3 B32678G6256+000 29.5
38.0 130.0 × 24.0 × 57.5 20.3 B32678J6386K000 43.5
40.0 45.0 × 57.0 × 57.5 20.3 B32678G6406+000 41.0
45.0 60.0 × 45.0 × 57.5 20.3 B32678G6456+000 43.0
120.0 130.0 × 58.0 × 57.5 20.3 B32678J6127K000 90.0
ESRtyp ESLtyp3) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
3.9
3.0
2.6
2.1
1.6
1.4
1.4
0.5
13.0
12.0
13.0
15.0
18.0
4.0
19.0
6.0
1.5
1.5
1.5
1.6
1.6
1.5
1.6
1.6
11.8
12.3
12.5
12.9
13.5
11.7
13.5
13.8
420
280
108
108
140
80
200
40
4.9
3.2
2.8
2.5
1.8
1.6
1.6
0.6
13.0
14.0
14.0
15.0
18.0
4.0
19.0
6.0
1.3
1.3
1.3
1.3
1.4
1.2
1.3
1.4
9.8
9.9
10.0
10.2
11.2
9.5
10.6
11.2
420
108
108
108
140
80
200
40
5.9
4.0
3.3
2.1
2.1
1.9
0.7
13.0
13.0
15.0
4.0
18.0
19.0
6.0
1.1
1.1
1.1
1.1
1.2
1.2
1.2
7.9
8.2
8.3
7.9
8.8
8.7
8.8
420
108
108
80
140
200
40
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
1) Capacitance value measured at 1 kHz
2) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
3) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 11 of 40
B32678
MKP DC link high power series
Ordering codes and packing units (lead spacing 52.5 mm)
CR4)
Max. dimensions
w×h×l
P1
µF
mm
mm
Ordering code
(composition see
below)
VR,85 °C = 750 V DC, Vop,70 °C = 900 V DC
9.0 43.0 × 24.0 × 57.5 20.3 B32678T1905K000
15.0 30.0 × 45.0 × 57.5 20.3 B32678G1156K000
20.0 35.0 × 50.0 × 57.5 20.3 B32678G1206K000
28.0 45.0 × 57.0 × 57.5 20.3 B32678G1286+000
30.0 60.0 × 45.0 × 57.5 20.3 B32678G1306+000
30.0 130.0 × 24.0 × 57.5 20.3 B32678J1306K000
85.0 130.0 × 58.0 × 57.5 20.3 B32678J1856K000
VR,85 °C = 875 V DC, Vop,70 °C = 1050 V DC
7.0 43.0 × 24.0 × 57.5 20.3 B32678T8705K000
15.0 35.0 × 50.0 × 57.5 20.3 B32678G8156K000
22.0 45.0 × 57.0 × 57.5 20.3 B32678G8226+000
22.0 130.0 × 24.0 × 57.5 20.3 B32678J8226K000
24.0 60.0 × 45.0 × 57.5 20.3 B32678G8246+000
65.0 130.0 × 58.0 × 57.5 20.3 B32678J8656K000
IRMS,max5)
70 °C
10 kHz
A
ESRtyp ESLtyp6) tan δ tan δ MOQ
70 °C
10 kHz
1 kHz 10 kHz
mΩ
nH
10-3 10-3
pcs.
16.5
23.0
28.0
37.5
39.5
40.5
82.5
7.2
4.5
3.5
2.5
2.4
2.3
0.9
13.0
14.0
15.0
18.0
19.0
4.0
6.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
6.8
7.0
7.2
7.4
7.3
6.8
7.4
420
280
108
140
200
80
40
15.5
26.5
35.0
39.0
38.0
78.0
8.2
4.0
2.9
2.6
2.6
1.0
13.0
15.0
17.0
5.0
19.0
6.0
0.9
0.9
1.0
0.9
0.9
1.0
6.0
6.3
6.5
6.0
6.4
6.5
420
108
140
80
200
40
MOQ = Minimum Order Quantity, consisting of 4 packing units.
Intermediate capacitance values are available on request.
Composition of ordering code
+ = Capacitance tolerance code:
K = ±10%
J = ±5%
4) Capacitance value measured at 1 kHz
5) Max. ripple current IRMS at 70 °C at 10 kHz for a ∆T ≤ 20 °C when ∆ESRtyp ≤ ±5%
6) ESL value measured at resonance frequency (see specific graphs of Z vs freq)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 12 of 40
B32674 ... B32678
MKP DC link high power series
Technical data
Reference standard: IEC 61071. All data given at T = 20 °C, unless otherwise specified.
Max. operating temperature, Top,max +105 °C
Operating temperature range (case)
Upper category temperature Tmax
+105 °C
Lower category temperature Tmin
40 °C
Insulation Resistance Rins
τ > 10000 s (after 1 min)
given as time constant
For VR ≥ 500 V measured at 500 V
τ = CR Rins, rel. humidity ≤ 65%
For VR < 500 V measured at VR
(minimum as-delivered values)
DC voltage test between terminals (10 s) 1.5 VR
Voltage test terminal to case (10 s)
2110 V AC, 50 Hz
Pulse Handling Capability (V/µs)
IP (A) / C (µF)
Damp heat test
56 days/40 °C/93% relative humidity
Limit values after damp heat test
Capacitance change |∆C/C|
≤ 5%
Dissipation factor change ∆tan δ ≤ 0.005 (at 1 kHz)
≥ 50% of minimum
Insulation resistance Rins
as-delivered values
Reliability:
Failure rate λ
1 fit (≤ 1 10-9/h) at 0.5 VR, 40 °C
200 000 h at VR, 85 °C
Service life tSL
For conversion to other operating conditions and
temperatures, refer to chapter "Quality, 2 Reliability".
VR (V DC)
300
450
630
750
875
Continuous operation voltage
Vop (V DC) at 70 °C
450
630
800
900
1050
Continuous operation voltage
Vop (V DC) at 85 °C
300
450
630
750
875
For temperatures between
1.2%/°C of Vop de-rating compared to Vop at 85 °C
85 °C and 100 °C
Please read Cautions and warnings and
Important notes at the end of this document.
Page 13 of 40
B32674 ... B32678
MKP DC link high power series
Typical waveforms
Restrictions:
VR: Maximum operating peak voltage of either polarity but of a non-reversing waveform, for which
the capacitor has been designed for continuous operation.
ûAC ≤ 0.2 VR
Vp, max:
Overvoltage
Maximum duration within one day
1.1 VR
1.15 VR
1.2 VR
1.3 VR
30% of on-load duration
30 min.
5 min.
1 min.
Observation
System regulation
System regulation
System regulation
System regulation
NOTE 1 An overvoltage equal to 1.5 VR for 30 ms is permitted 1000 times during the life of the
capacitor.
The amplitudes of the overvoltages that may be tolerated without significant reduction in the life
time of the capacitor depend on their duration, the number of application and the capacitor
temperature.
In addition these values assume that the overvoltages may appear when the internal temperature
of the capacitor is less than 0 °C but within the temperature category.
NOTE 2
The average applied voltage must not be higher than the specified voltage.
Pulse handling capability
"dV/dt" represents the maximum permissible voltage change per unit of time for non-sinusoidal
voltages, expressed in V/µs.
Note:
The values of dV/dt and k0 provided below must not be exceeded in order to avoid damaging the
capacitor. These parameters are given for isolated pulses in such a way that the heat generated
by one pulse will be completely dissipated before applying the next pulse. For a train of pulses,
please refer to the curves of permissible AC voltage-current versus frequency.
dV/dt values
Lead spacing
Type
VR (V DC)
dV/dt in V/µs
27.5 mm
37.5 mm
52.5 mm
B32674
B32676
B32678
300 450 630 750 875 300 450 630 750 875 300 450 630 750 875
40 75 100 125 150 22 54 73 85 100 15 35 50 60 70
Please read Cautions and warnings and
Important notes at the end of this document.
Page 14 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Additional technical information can be found under "Design support" on www.epcos.com
Impedance Z versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D3x /
300 V DC
ESR versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D3x /
300 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D4x /
450 V DC
ESR versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D4x /
450 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 15 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D6x /
630 V DC
ESR versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D6x /
630 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D1x /
750 V DC
ESR versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D1x /
750 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 16 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D8x /
875 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
ESR versus frequency f
(typical values)
Lead spacing 27.5 mm / B32674D8x /
875 VDC
Page 17 of 40
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MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T3x /
300 V DC
ESR versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T3x /
300 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T4x /
450 V DC
ESR versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T4x /
450 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 18 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T6x /
630 V DC
ESR versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T6x /
630 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T1x /
750 V DC
ESR versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T1x /
750 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 19 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T8x /
875 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
ESR versus frequency f
(typical values)
Lead spacing 37.5 mm / B32676G/T8x /
875 V DC
Page 20 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T3x /
300 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T3x /
300 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T4x /
450 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T4x /
450 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 21 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T6x /
630 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T6x /
630 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T1x /
750 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T1x /
750 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 22 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T8x /
875 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678G/T8x /
875 V DC
Impedance Z versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678Jx /
300 V DC, 450 V DC, 630 V DC, 750 V DC,
875 V DC
ESR versus frequency f
(typical values)
Lead spacing 52.5 mm / B32678Jx /
300 V DC, 450 V DC, 630 V DC, 750 V DC,
875 V DC
Please read Cautions and warnings and
Important notes at the end of this document.
Page 23 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Permissible current IRMS versus frequency f at 70 °C
Lead spacing 27.5 mm
B32674-Dx
Permissible current IRMS versus frequency f at 70 °C
Lead spacing 37.5 mm
B32676-G/Tx
Please read Cautions and warnings and
Important notes at the end of this document.
Page 24 of 40
B32674 ... B32678
MKP DC link high power series
Characteristics curves
Permissible current IRMS versus frequency f at 70 °C
Lead spacing 52.5 mm
B32678-G/Tx
Permissible current IRMS versus frequency f at 70 °C
Lead spacing 52.5 mm
B32678-Jx
Please read Cautions and warnings and
Important notes at the end of this document.
Page 25 of 40
B32674 ... B32678
MKP DC link high power series
Curves Characteristics (IRMS derating vs temperature)
Maximum IRMS current as function of the ambient temperature: IRMS (Tamb) = Factor x IRMS (70 ºC)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 26 of 40
B32674 ... B32678
MKP DC link high power series
Heat transference for self heating calculation
Box dimensions
w (mm) h (mm) l (mm)
Figure 1 (2-pin, 4-pin)
Figure 2 (12-pin)
Equivalent heat
coefficient
G (mW/°C)
11.0
11.0
12.5
13.5
14.0
15.0
16.0
18.0
18.0
19.0
20.0
21.0
22.0
19.0
21.0
21.5
23.0
24.5
24.5
32.0
27.5
33.0
30.0
11.0
31.0
36.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
25
28
30
32
35
36
45
44
48
48
65
51
58
12.0
14.0
16.0
18.0
20.0
24.0
24.0
28.0
28.0
30.0
33.0
43.0
30.0
35.0
43.0
45.0
60.0
130.0
130.0
22.0
25.0
28.5
32.5
39.5
19.0
15.0
37.0
42.5
45.0
48.0
22.0
45.0
50.0
22.0
57.0
45.0
22.0
58.0
41.5
41.5
41.5
41.5
41.5
41.5
41.5
42.0
41.5
42.0
42.0
41.5
57.5
57.5
57.5
57.5
57.5
57.5
57.5
70
43
50
59
72
50
44
83
90
100
110
80
125
145
103
185
192
200
300
The equivalent heat coefficient "G (mW/ºC)" is given for measuring the temperature on the lateral
surface of the plastic box as figure 1 shows. By using a thermocouple and avoiding effect of radiation and convection the temperature measured during operation conditions should be a result of
the dissipated power divided by the equivalent heat coefficient.
Please read Cautions and warnings and
Important notes at the end of this document.
Page 27 of 40
B32674 ... B32678
MKP DC link high power series
Self Heating by power dissipation and equivalent heat coefficient
The IRMS and consequently the power dissipation must be limited during operation in order to not
exceed the maximum limit of ∆T allowed for this series. ∆Tmax given for this series is equal or lower than 20 °C at rated temperature (70 °C), for higher ambient temperatures ∆Tmax (T) will have
the same derating factor than IRMS vs temperature and then an equivalent derating as per:
∆Tmax (T) = (Factor)2 x ∆T (70 °C).
For any particular IRMS the ∆T may be calculated by:
∆T (°C) = Pdis (mW) / G(mW/°C)
Where ∆T (°C) is the difference between the temperature measured on the box (see figure 1) and
the ambient temperature when capacitor is working during normal operation;
∆T (°C) = Top(°C) Tamb (°C).
It represents the increasing of temperature provoked by the IRMS during operation.
G (mW/°C) is the equivalent heat coefficient described above and Pdis (mW) is the dissipated
power defined by:
Pdis (mW) = ESRtyp (mΩ) × IRMS2 (ARMS).
Example for thermal calculation:
We will take as reference B32678G8156K (15 µF/875 V) type for thermal calculation.
Considering the following load and capacitor characteristics:
IRMS: 15 ARMS at 20 kHz
Tamb: 85 ºC
35 × 50 × 57.5 box
G (mW/ºC): 145
Then we have to find the ESRtyp at 20 kHz what is approximately 4.0 mΩ.
So according to
Pdis (mW) = ESRtyp (mΩ) × IRMS 2 (ARMS)
we have the following:
Pdis (mW) = 4.0 mΩ ×15 ARMS2 = 900 mW.
And as per
∆T (°C) = Pdis (mW) / G (mW/°C)
we have the following:
∆T (°C) = 900 (mW) / 145 (mW/°C) = 6.2 °C.
What is below of the
∆Tmax (85 °C) = (Factor)2 x ∆T (70 °C) = (0.7)2 × 20 °C = 9.8 °C.
On the other hand we may confirm that max IRMS at 20 kHz at 70 °C = 26.5 ARMS.
And then max IRMS for 85 °C of ambient temperature is defined as follows:
IRMS (85 °C) = Factor x IRMS (70 °C) = 0.7 × 26.5 ARMS = 18.55 ARMS
What confirms once again that IRMS (15 ARMS at 20 kHz at 85 °C) is below the max specified for
such frequency and ambient temperature.
Please read Cautions and warnings and
Important notes at the end of this document.
Page 28 of 40
B32674 ... B32678
MKP DC link high power series
Life time expectancy - typical curve
(300 V DC / 450 V DC / 630 V DC / 750 V DC / 875 V DC / B3267X-3/4/6/1/8)
Note: Confidence level of 98%
Please read Cautions and warnings and
Important notes at the end of this document.
Page 29 of 40
B32674 ... B32678
MKP DC link high power series
Testing and Standards
Test
Reference
Electrical
Parameters
(Routine test)
IEC 61071-11
Robustness of
terminations
(Type test)
Resistance to
soldering heat
(Type test)
Conditions of test
Voltage between terminals,
1.5 VR, during 10 s
Insulation resistance, RINS at VR if
VR < 500 V or 500 V if VR ≥ 500 V
Capacitance, C at 1 kHz
(room temperature)
Dissipation factor, tan δ at
1/10 kHz (room temperature)
IEC 60068-2-21 Tensile strength (test Ua1)
Tensile
Wire diameter
force
0.5 < d1 ≤ 0.8 mm
10 N
0.8 < d1 ≤ 1.25 mm 20 N
IEC 60068-2-20, Solder bath temperature at
test Tb,
260 ± 5 °C, immersion for
method 1A
10 seconds
Performance
requirements
Within specified limits
Capacitance and tan δ
within specified limits
∆C/C0 ≤ 2%
I∆ tan δ l ≤ 0.002
I∆C/C0 I ≤ 2%
I∆ tan δ I ≤ 0.002
RINS ≥ 50% of initial limit
Rapid change of IEC 60384-16
temperature
(Type test)
TA = lower category temperature
TB = upper category temperature
Five cycles, duration t = 30 min.
Vibration
(Type test)
IEC 60384-16
Bump
(Type test)
IEC 60384-16
Climatic
sequence
(Type test)
IEC 60384-16
Damp Heat
Steady State
(Type test)
IEC 60384-16
Test FC: vibration sinusoidal
No visible damage
Displacement: 0.75 mm
Accleration: 98 m/s2
Frequency: 10 Hz ... 500 Hz
Test duration: 3 orthogonal axes,
2 hours each axe
Test Eb: Total 4000 bumps with No visible damage
I∆C/C0 I ≤ 2%
390 m/s2 mounted on PCB
I∆ tan δ I ≤ 0.002
6 ms duration
RINS ≥ 50% of initial limit
Dry heat Tb / 16 h.
No visible damage
Damp heat cyclic, 1st cycle
I∆C/C0 I ≤ 3%
+ 55 °C / 24h / 95% ... 100% RH I∆ tan δ I ≤ 0.001
Cold Ta / 2h
RINS ≥ 50% of initial limit
Damp heat cyclic, 5 cycles
+ 55 °C / 24h / 95% ... 100% RH
Test Ca
No visible damage
40 °C / 93% RH / 56 days
I∆C/C0 I ≤ 5%
I∆ tan δ I ≤ 0.005
RINS ≥ 50% of initial limit
Please read Cautions and warnings and
Important notes at the end of this document.
Page 30 of 40
B32674 ... B32678
MKP DC link high power series
Test
Reference
Conditions of test
Endurance
(Type test)
IEC 61071-11
Endurance
(Type test)
IEC 60384-16
70 °C / 1.4 VR / 250 hours or
Top / 1.4 Vop / 250 hours
+ 1000 discharges at 1.4 IR
+ 70 °C / 1.4 VR / 250 hours or
Top / 1.4 Vop / 250 hours
70 °C / 1.25 VR / 1000 hours or
85 °C / 1.25 Vop / 1000 hours or
100 °C / 1.25 Vop / 1000 hours
Performance
requirements
No visible damage
I∆C/C0 I ≤ 3% at 1 kHz
I∆ tan δ I ≤ 0.015 at
10 kHz
No visible damage
I∆C/C0 I ≤ 5% at 1 kHz
I∆ tan δ I ≤ 0.005
RINS ≥ 50% of initial limit
Mounting guidelines
1
Soldering
1.1
Solderability of leads
The solderability of terminal leads is tested to IEC 60068-2-20, test Ta, method 1.
Before a solderability test is carried out, terminals are subjected to accelerated ageing (to
IEC 60068-2-2, test Ba: 4 h exposure to dry heat at 155 °C). Since the ageing temperature is far
higher than the upper category temperature of the capacitors, the terminal wires should be cut off
from the capacitor before the ageing procedure to prevent the solderability being impaired by the
products of any capacitor decomposition that might occur.
Solder bath temperature
235 ±5 °C
Soldering time
2.0 ±0.5 s
Immersion depth
2.0 +0/0.5 mm from capacitor body or seating plane
Evaluation criteria:
Visual inspection
Wetting of wire surface by new solder ≥90%, free-flowing solder
Please read Cautions and warnings and
Important notes at the end of this document.
Page 31 of 40
B32674 ... B32678
MKP DC link high power series
1.2
Resistance to soldering heat
Resistance to soldering heat is tested to IEC 60068-2-20, test Tb, method 1A.
Conditions:
Series
Solder bath temperature Soldering time
MKT boxed (except 2.5 × 6.5 × 7.2 mm) 260 ±5 °C
coated
uncoated (lead spacing > 10 mm)
MFP
MKP (lead spacing > 7.5 mm)
MKT boxed (case 2.5 × 6.5 × 7.2 mm)
MKP (lead spacing ≤ 7.5 mm)
MKT uncoated (lead spacing ≤ 10 mm)
insulated (B32559)
10 ±1 s
5 ±1 s
<4s
recommended soldering
profile for MKT uncoated
(lead spacing ≤ 10 mm) and
insulated (B32559)
Immersion depth
2.0 +0/0.5 mm from capacitor body or seating plane
Shield
Heat-absorbing board, (1.5 ±0.5) mm thick, between capacitor
body and liquid solder
Evaluation criteria:
Visual inspection
∆C/C0
tan δ
Please read Cautions and warnings and
Important notes at the end of this document.
No visible damage
2% for MKT/MKP/MFP
5% for EMI suppression capacitors
As specified in sectional specification
Page 32 of 40
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MKP DC link high power series
1.3
General notes on soldering
Permissible heat exposure loads on film capacitors are primarily characterized by the upper category temperature Tmax. Long exposure to temperatures above this type-related temperature limit
can lead to changes in the plastic dielectric and thus change irreversibly a capacitor's electrical
characteristics. For short exposures (as in practical soldering processes) the heat load (and thus
the possible effects on a capacitor) will also depend on other factors like:
Pre-heating temperature and time
Forced cooling immediately after soldering
Terminal characteristics:
diameter, length, thermal resistance, special configurations (e.g. crimping)
Height of capacitor above solder bath
Shadowing by neighboring components
Additional heating due to heat dissipation by neighboring components
Use of solder-resist coatings
The overheating associated with some of these factors can usually be reduced by suitable countermeasures. For example, if a pre-heating step cannot be avoided, an additional or reinforced
cooling process may possibly have to be included.
EPCOS recommends the following conditions:
Pre-heating with a maximum temperature of 110 °C
Temperature inside the capacitor should not exceed the following limits:
MKP/MFP 110 °C
MKT 160 °C
When SMD components are used together with leaded ones, the leaded film capacitors should
not pass into the SMD adhesive curing oven. The leaded components should be assembled after the SMD curing step.
Leaded film capacitors are not suitable for reflow soldering.
Uncoated capacitors
For uncoated MKT capacitors with lead spacings ≤10 mm (B32560/B32561) the following measures are recommended:
pre-heating to not more than 110 °C in the preheater phase
rapid cooling after soldering
Please read Cautions and warnings and
Important notes at the end of this document.
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MKP DC link high power series
Cautions and warnings
Do not exceed the upper category temperature (UCT).
Do not apply any mechanical stress to the capacitor terminals.
Avoid any compressive, tensile or flexural stress.
Do not move the capacitor after it has been soldered to the PC board.
Do not pick up the PC board by the soldered capacitor.
Do not place the capacitor on a PC board whose PTH hole spacing differs from the specified
lead spacing.
Do not exceed the specified time or temperature limits during soldering.
Avoid external energy inputs, such as fire or electricity.
Avoid overload of the capacitors.
The table below summarizes the safety instructions that must always be observed. A detailed description can be found in the relevant sections of the chapters "General technical information" and
"Mounting guidelines".
Topic
Storage conditions
Flammability
Safety information
Reference chapter
"General technical
information"
Make sure that capacitors are stored within the
4.5
specified range of time, temperature and humidity "Storage conditions"
conditions.
Avoid external energy, such as fire or electricity
5.3
(passive flammability), avoid overload of the
"Flammability"
capacitors (active flammability) and consider the
flammability of materials.
Please read Cautions and warnings and
Important notes at the end of this document.
Page 34 of 40
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MKP DC link high power series
Topic
Safety information
Resistance to
vibration
Do not exceed the tested ability to withstand
vibration. The capacitors are tested to
IEC 60068-2-6.
EPCOS offers film capacitors specially designed
for operation under more severe vibration regimes
such as those found in automotive applications.
Consult our catalog "Film Capacitors for
Automotive Electronics".
Soldering
Do not exceed the specified time or temperature
limits during soldering.
Cleaning
Use only suitable solvents for cleaning capacitors.
Embedding of
When embedding finished circuit assemblies in
capacitors in
plastic resins, chemical and thermal influences
finished assemblies must be taken into account.
Caution: Consult us first, if you also wish to
embed other uncoated component types!
Reference chapter
"Mounting guidelines"
5.2
"Resistance to vibration"
1 "Soldering"
2 "Cleaning"
3 "Embedding of
capacitors in finished
assemblies"
Display of ordering codes for EPCOS products
The ordering code for one and the same product can be represented differently in data sheets,
data books, other publications and the website of EPCOS, or in order-related documents such as
shipping notes, order confirmations and product labels. The varying representations of the ordering codes are due to different processes employed and do not affect the specifications
of the respective products. Detailed information can be found on the Internet under
www.epcos.com/orderingcodes.
Please read Cautions and warnings and
Important notes at the end of this document.
Page 35 of 40
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MKP DC link high power series
Symbols and terms
Symbol
α
αC
A
βC
C
CR
∆C
∆C/C
∆C/CR
dt
∆t
∆T
∆tan δ
∆V
dV/dt
∆V/∆t
E
ESL
ESR
f
f1
f2
fr
FD
FT
i
IC
English
Heat transfer coefficient
Temperature coefficient of capacitance
Capacitor surface area
Humidity coefficient of capacitance
Capacitance
Rated capacitance
Absolute capacitance change
Relative capacitance change (relative
deviation of actual value)
Capacitance tolerance (relative deviation
from rated capacitance)
Time differential
Time interval
Absolute temperature change
(self-heating)
Absolute change of dissipation factor
Absolute voltage change
Time differential of voltage function (rate
of voltage rise)
Voltage change per time interval
Activation energy for diffusion
Self-inductance
Equivalent series resistance
Frequency
Frequency limit for reducing permissible
AC voltage due to thermal limits
German
Wärmeübergangszahl
Temperaturkoeffizient der Kapazität
Kondensatoroberfläche
Feuchtekoeffizient der Kapazität
Kapazität
Nennkapazität
Absolute Kapazitätsänderung
Relative Kapazitätsänderung (relative
Abweichung vom Ist-Wert)
Kapazitätstoleranz (relative Abweichung
vom Nennwert)
Differentielle Zeit
Zeitintervall
Absolute Temperaturänderung
(Selbsterwärmung)
Absolute Änderung des Verlustfaktors
Absolute Spannungsänderung
Differentielle Spannungsänderung
(Spannungsflankensteilheit)
Spannungsänderung pro Zeitintervall
Aktivierungsenergie zur Diffusion
Eigeninduktivität
Ersatz-Serienwiderstand
Frequenz
Grenzfrequenz für thermisch bedingte
Reduzierung der zulässigen
Wechselspannung
Frequency limit for reducing permissible Grenzfrequenz für strombedingte
AC voltage due to current limit
Reduzierung der zulässigen
Wechselspannung
Resonant frequency
Resonanzfrequenz
Thermal acceleration factor for diffusion Therm. Beschleunigungsfaktor zur
Diffusion
Derating factor
Deratingfaktor
Current (peak)
Stromspitze
Category current (max. continuous
Kategoriestrom (max. Dauerstrom)
current)
Please read Cautions and warnings and
Important notes at the end of this document.
Page 36 of 40
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MKP DC link high power series
Symbol
IRMS
iz
k0
LS
λ
λ0
λtest
Pdiss
Pgen
Q
ρ
R
R
Ri
Rins
RP
RS
S
t
T
τ
tan δ
tan δD
tan δP
tan δS
TA
Tmax
Tmin
tOL
Top
TR
Tref
tSL
English
(Sinusoidal) alternating current,
root-mean-square value
Capacitance drift
Pulse characteristic
Series inductance
Failure rate
Constant failure rate during useful
service life
Failure rate, determined by tests
Dissipated power
Generated power
Heat energy
Density of water vapor in air
Universal molar constant for gases
Ohmic resistance of discharge circuit
Internal resistance
Insulation resistance
Parallel resistance
Series resistance
severity (humidity test)
Time
Temperature
Time constant
Dissipation factor
Dielectric component of dissipation
factor
Parallel component of dissipation factor
Series component of dissipation factor
Temperature of the air surrounding the
component
Upper category temperature
Lower category temperature
Operating life at operating temperature
and voltage
Operating temperature
Rated temperature
Reference temperature
Reference service life
Please read Cautions and warnings and
Important notes at the end of this document.
German
(Sinusförmiger) Wechselstrom
Inkonstanz der Kapazität
Impulskennwert
Serieninduktivität
Ausfallrate
Konstante Ausfallrate in der
Nutzungsphase
Experimentell ermittelte Ausfallrate
Abgegebene Verlustleistung
Erzeugte Verlustleistung
Wärmeenergie
Dichte von Wasserdampf in Luft
Allg. Molarkonstante für Gas
Ohmscher Widerstand des
Entladekreises
Innenwiderstand
Isolationswiderstand
Parallelwiderstand
Serienwiderstand
Schärfegrad (Feuchtetest)
Zeit
Temperatur
Zeitkonstante
Verlustfaktor
Dielektrischer Anteil des Verlustfaktors
Parallelanteil des Verlfustfaktors
Serienanteil des Verlustfaktors
Temperatur der Luft, die das Bauteil
umgibt
Obere Kategorietemperatur
Untere Kategorietemperatur
Betriebszeit bei Betriebstemperatur und
-spannung
Beriebstemperatur
Nenntemperatur
Referenztemperatur
Referenz-Lebensdauer
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MKP DC link high power series
Symbol
VAC
VC
VC,RMS
English
AC voltage
Category voltage
Category AC voltage
VCD
Vch
VDC
VFB
Vi
Vo
Vop
Vp
Vpp
VR
Corona-discharge onset voltage
Charging voltage
DC voltage
Fly-back capacitor voltage
Input voltage
Output voltage
Operating voltage
Peak pulse voltage
Peak-to-peak voltage Impedance
Rated voltage
Amplitude of rated AC voltage
R
VRMS
German
Wechselspannung
Kategoriespannung
(Sinusförmige)
Kategorie-Wechselspannung
Teilentlade-Einsatzspannung
Ladespannung
Gleichspannung
Spannung (Flyback)
Eingangsspannung
Ausgangssspannung
Betriebsspannung
Impuls-Spitzenspannung
Spannungshub
Nennspannung
Amplitude der Nenn-Wechselspannung
VSC
Vsn
(Sinusoidal) alternating voltage,
root-mean-square value
S-correction voltage
Snubber capacitor voltage
Z
Impedance
Spannung bei Anwendung "S-correction"
Spannung bei Anwendung
"Beschaltung"
Scheinwiderstand
Lead spacing
Rastermaß
Please read Cautions and warnings and
Important notes at the end of this document.
(Sinusförmige) Wechselspannung
Page 38 of 40
Important notes
The following applies to all products named in this publication:
1. Some parts of this publication contain statements about the suitability of our products for
certain areas of application. These statements are based on our knowledge of typical requirements that are often placed on our products in the areas of application concerned. We
nevertheless expressly point out that such statements cannot be regarded as binding
statements about the suitability of our products for a particular customer application.
As a rule, EPCOS is either unfamiliar with individual customer applications or less familiar
with them than the customers themselves. For these reasons, it is always ultimately incumbent on the customer to check and decide whether an EPCOS product with the properties described in the product specification is suitable for use in a particular customer application.
2. We also point out that in individual cases, a malfunction of electronic components or
failure before the end of their usual service life cannot be completely ruled out in the
current state of the art, even if they are operated as specified. In customer applications
requiring a very high level of operational safety and especially in customer applications in
which the malfunction or failure of an electronic component could endanger human life or
health (e.g. in accident prevention or lifesaving systems), it must therefore be ensured by
means of suitable design of the customer application or other action taken by the customer
(e.g. installation of protective circuitry or redundancy) that no injury or damage is sustained by
third parties in the event of malfunction or failure of an electronic component.
3. The warnings, cautions and product-specific notes must be observed.
4. In order to satisfy certain technical requirements, some of the products described in this
publication may contain substances subject to restrictions in certain jurisdictions (e.g.
because they are classed as hazardous). Useful information on this will be found in our Material Data Sheets on the Internet (www.epcos.com/material). Should you have any more detailed questions, please contact our sales offices.
5. We constantly strive to improve our products. Consequently, the products described in this
publication may change from time to time. The same is true of the corresponding product
specifications. Please check therefore to what extent product descriptions and specifications
contained in this publication are still applicable before or when you place an order. We also
reserve the right to discontinue production and delivery of products. Consequently, we
cannot guarantee that all products named in this publication will always be available. The
aforementioned does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.
6. Unless otherwise agreed in individual contracts, all orders are subject to the current version of the "General Terms of Delivery for Products and Services in the Electrical Industry" published by the German Electrical and Electronics Industry Association
(ZVEI).
Page 39 of 40
Important notes
7. The trade names EPCOS, Alu-X, CeraDiode, CeraLink, CeraPad, CeraPlas, CSMP, CSSP,
CTVS, DeltaCap, DigiSiMic, DSSP, ExoCore, FilterCap, FormFit, LeaXield, MiniBlue,
MiniCell, MKD, MKK, MotorCap, PCC, PhaseCap, PhaseCube, PhaseMod, PhiCap, PQSine,
SIFERRIT, SIFI, SIKOREL, SilverCap, SIMDAD, SiMic, SIMID, SineFormer, SIOV, SIP5D,
SIP5K, TFAP, ThermoFuse, WindCap are trademarks registered or pending in Europe and
in other countries. Further information will be found on the Internet at
www.epcos.com/trademarks.
Page 40 of 40
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