050/052 PED-PW
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Aluminum Electrolytic Capacitors
Power Eurodin Printed Wiring
Fig. 1
FEATURES
Very long useful life: 15 000 h at 85 °C
Low ESR, high ripple current capability
High resistance to shock and vibration
Polarized aluminum electrolytic capacitors,
non-solid electrolyte
Large types, cylindrical aluminum case, insulated with a
blue sleeve
Provided with keyed polarity
050 series also available in solder-lug (SL) versions
Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
Computer, telecommunication, and industrial systems
Smoothing and filtering
Standard and switched mode power supplies
Energy storage in pulse systems
MARKING
The capacitors are marked (where possible) with the
following information:
Rated capacitance (in μF)
Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (Q for -10 % / +30 %)
Rated voltage (in V)
Date code (YYWW or in 2 digits according to IEC 60062)
Name of manufacturer
Code for factory of origin
Polarity of the terminals and “-” sign to indicate the
negative terminal, visible from the top and / or side of the
capacitor
Code number
Climatic category in accordance with IEC 60068
QUICK REFERENCE DATA
DESCRIPTION VALUE
050 052
Nominal case size (Ø D x L in mm) 25 x 30 to 40 x 100
Rated capacitance range
(E6 series), CR
470 μF to
68 000 μF
47 μF to
1000 μF
Tolerance on CR-10 % to +30 %
Rated voltage range, UR10 V to 100 V 250 V to 400 V
Category temperature range -40 °C to +85 °C
Endurance test at 85 °C 5000 h
Useful life at 85 °C 15 000 h
Useful life at 40 °C, 1.4 x IR applied 250 000 h
Shelf life at 0 V, 85 °C 500 h
Based on sectional specification IEC 60384-4 / EN 130300
Climatic category IEC 60068 40 / 085 / 56
051/053
PEC-PW
162/163
PLL-PW
050/052
PED-PW
higher
CV/volume
long life
105 °C
SELECTION CHART FOR C
R
, U
R
, AND RELEVANT NOMINAL CASE SIZES FOR 050 SERIES
(Ø D x L in mm)
CR
(μF)
UR (V)
10 16 25 40 63 100
470-----25 x 30
680-----25 x 40
1000 - - - - 25 x 30 30 x 40
1500 - - - 25 x 30 25 x 40 35 x 40
2200 - - 25 x 30 25 x 40 30 x 40 35 x 50
-----40 x 40
3300 - 25 x 30 25 x 40 30 x 40 35 x 40 40 x 50
4700 25 x 30 25 x 40 30 x 40 35 x 40 35 x 50 40 x 70
- - - - 40 x 40 -
6800 25 x 40 30 x 40 35 x 40 35 x 50 40 x 50 40 x 100
- - - 40 x 40 - -
10 000 30 x 40 35 x 40 35 x 50 40 x 50 40 x 70 -
- - 40 x 40 - - -
15 000 35 x 40 35 x 50 40 x 50 40 x 70 40 x 100 -
-40 x 40 ----
22 000 35 x 50 40 x 50 40 x 70 40 x 100 - -
40 x 40 -----
33 000 40 x 50 40 x 70 40 x 100 - - -
47 000 40 x 70 40 x 100 ----
68 000 40 x 100 -----
050/052 PED-PW
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DIMENSIONS in millimeters AND AVAILABLE FORMS
Fig. 2 - Printed wiring pin version Fig. 3 - Mounting hole diagram viewed from component side
Fig. 4 - Printed wiring pin version Fig. 5 - Mounting hole diagram viewed from component side
SELECTION CHART FOR C
R
, U
R
, AND RELEVANT NOMINAL CASE SIZES FOR 052 SERIES
(Ø D x L in mm)
CR
(μF)
UR (V)
250 385 400
47 - 25 x 30 25 x 30
68 - 25 x 40 25 x 40
100 25 x 30 30 x 40 30 x 40
150 25 x 40 35 x 40 35 x 40
220 30 x 40 35 x 50 35 x 50
- 40 x 40 40 x 40
330 35 x 40 40 x 50 40 x 50
470 35 x 50 40 x 70 40 x 70
40 x 40 - -
680 40 x 50 - 40 x 100
1000 40 x 70 - -
-
4.9 ± 0.2
Case Ø D = 25 mm
Ø D + 1 max.
L + 5 max.
L
Case Ø D = 25 mm
-
1.3
(3 x)
12.5
± 0.1
10 ± 0.1
2.5
Case Ø D = 30 mm
4.9 ± 0.2
-
3
L + 5 max.
Ø D + 1 max.
Case Ø D = 30 mm
1.3
(4 x)
7.5 ± 0.1
17.5 ± 0.1
2.5
1
2
3
-
15 ± 0.1
050/052 PED-PW
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Fig. 6 - Printed wiring pin version Fig. 7 - Mounting hole diagram viewed from component side
Fig. 8 - Printed wiring pin version Fig. 9 - Mounting hole diagram viewed from component side
Fig. 10 - Solder-lug versions (SL): only available in 050 series
MOUNTING
When a number of capacitors are connected in a bank, they must not be closer together than 15 mm, when no derating of ripple
current and / or temperature is applied.
Pin number 1 is the positive terminal. Pin “-” is the negative terminal.
Pin numbers 2, 3 and 4 (if present) should be free from the electrical circuit or connected to the minus terminal.
Case Ø D = 35 mm
4.9 ± 0.2
-
3
L + 5 max.
Ø D + 1 max.
L
Case Ø D = 35 mm
1.3
(4 x)
7.5 ± 0.1
2.5
1
2
3
-
15 ± 0.1
17.5 ± 0.1
Case Ø D = 40 mm
L
1
4
-
3
2
L + 5 max.
4.9 ± 0.2
Ø D + 1 max.
1.3
(5 x)
17.5 ± 0.1
2.5
20 ± 0.1
1
2
3
4
-
10 ± 0.1
20 ± 0.1
Case Ø D = 40 mm
9 ± 1
0.8
Ø D + 1 max.
L + 2 max.
10 ± 0.5
L
050/052 PED-PW
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Revision: 13-Oct-16 4Document Number: 28345
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Table 1
Note
(1) Not available in SL versions
Note
Unless otherwise specified, all electrical values in tables 2 and 3
apply at T
amb
= 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
ORDERING EXAMPLE
Electrolytic capacitor 050 series
10 000 μF / 25 V; -10 % / +30 %
Nominal case size: Ø 35 mm x 50 mm; PW version
Ordering code: MAL2 050 56103 E3
Former 12NC: 2222 050 56103
Table 2
DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
Ø D x L
Ø Dmax. Lmax.
SL VERSIONS
Lmax.
PW VERSIONS
MASS
(g)
PACKAGING QUANTITIES
(units per box)
CARDBOARD
BOX DIMENSIONS
L x W x H
25 x 30 26 32 35 24 100 290 x 280 x 50
25 x 40 26 42 45 28 100 290 x 280 x 60
30 x 40 31 42 45 38 100 340 x 330 x 60
35 x 40 36 42 45 51 50 390 x 198 x 60
35 x 50 36 52 55 66 50 390 x 198 x 70
40 x 40 (1) 41 - 45 78 50 440 x 223 x 60
40 x 50 41 52 55 82 50 440 x 223 x 70
40 x 70 41 72 75 110 25 230 x 230 x 90
40 x 100 41 102 105 176 25 230 x 230 x 120
ELECTRICAL DATA
SYMBOL DESCRIPTION
CRRated capacitance at 100 Hz
IRRated RMS ripple current at 100 Hz,
85 °C or at 20 kHz, 70 °C
IL1 Max. leakage current after 1 min at UR
IL5 Max. leakage current after 5 min at UR
ESR Max. equivalent series resistance at 100 Hz
Z Max. impedance at 10 kHz
ELECTRICAL DATA AND ORDERING INFORMATION FOR 050 SERIES
UR
(V)
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
Ø D x L
(mm)
IR
100 Hz
85 °C
(A)
IR
20 kHz
70 °C
(A)
IL1
1 min
(mA)
IL5
5 min
(mA)
ESR
100 Hz
(m)
Z
10 kHz
(m)
ORDERING
CODE SL
MAL2050.......
ORDERING
CODE PW
MAL2050.......
10
4700 25 x 30 2.4 4.6 0.28 0.10 74 50 14472E3 54472E3
6800 25 x 40 3.2 6.1 0.41 0.14 51 37 14682E3 54682E3
10 000 30 x 40 3.8 7.2 0.60 0.20 39 29 14103E3 54103E3
15 000 35 x 40 4.1 7.8 0.90 0.30 35 26 14153E3 54153E3
22 000 35 x 50 5.0 9.5 1.32 0.44 27 21 14223E3 54223E3
22 000 40 x 40 4.2 8.0 1.32 0.44 36 27 n/a 44223E3
33 000 40 x 50 5.0 9.5 1.98 0.66 29 22 14333E3 54333E3
47 000 40 x 70 6.8 12.9 2.82 0.94 20 17 14473E3 54473E3
68 000 40 x 100 9.2 17.5 4.08 1.36 15 14 14683E3 54683E3
050/052 PED-PW
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16
3300 25 x 30 2.4 4.6 0.32 0.11 75 50 15332E3 55332E3
4700 25 x 40 3.1 5.9 0.45 0.15 52 37 15472E3 55472E3
6800 30 x 40 3.7 7.0 0.65 0.22 40 30 15682E3 55682E3
10 000 35 x 40 4.1 7.8 0.96 0.32 36 27 15103E3 55103E3
15 000 35 x 50 5.0 9.5 1.44 0.48 28 21 15153E3 55153E3
15 000 40 x 40 4.2 8.0 1.44 0.48 36 27 n/a 45153E3
22 000 40 x 50 5.0 9.5 2.12 0.71 29 22 15223E3 55223E3
33 000 40 x 70 6.7 12.7 3.17 1.06 20 17 15333E3 55333E3
47 000 40 x 100 9.1 17.3 4.51 1.51 15 14 15473E3 55473E3
25
2200 25 x 30 2.3 4.4 0.33 0.11 78 52 16222E3 56222E3
3300 25 x 40 3.1 5.9 0.49 0.17 53 38 16332E3 56332E3
4700 30 x 40 3.7 7.0 0.70 0.24 42 31 16472E3 56472E3
6800 35 x 40 4.1 7.8 1.02 0.34 37 28 16682E3 56682E3
10 000 35 x 50 5.0 9.5 1.50 0.50 28 21 16103E3 56103E3
10 000 40 x 40 4.2 8.0 1.50 0.50 36 27 n/a 46103E3
15 000 40 x 50 5.0 9.5 2.25 0.75 29 22 16153E3 56153E3
22 000 40 x 70 6.8 12.9 3.30 1.10 20 17 16223E3 56223E3
33 000 40 x 100 9.2 17.5 4.95 1.65 15 14 16333E3 56333E3
40
1500 25 x 30 2.0 3.8 0.36 0.12 112 68 17152E3 57152E3
2200 25 x 40 2.7 5.1 0.53 0.18 76 51 17222E3 57222E3
3300 30 x 40 3.3 6.3 0.79 0.27 57 41 17332E3 57332E3
4700 35 x 40 3.8 7.2 1.13 0.38 48 35 17472E3 57472E3
6800 35 x 50 4.7 8.9 1.64 0.55 36 27 17682E3 57682E3
6800 40 x 40 4.1 7.8 1.64 0.55 45 33 n/a 47682E3
10 000 40 x 50 4.9 9.3 2.40 0.80 35 27 17103E3 57103E3
15 000 40 x 70 6.6 12.5 3.60 1.20 25 20 17153E3 57153E3
22 000 40 x 100 9.0 17.1 5.28 1.76 18 16 17223E3 57223E3
63
1000 25 x 30 1.8 3.4 0.38 0.13 122 74 18102E3 58102E3
1500 25 x 40 2.5 4.7 0.57 0.19 83 54 18152E3 58152E3
2200 30 x 40 3.1 5.9 0.83 0.28 57 41 18222E3 58222E3
3300 35 x 40 3.6 6.8 1.25 0.42 48 35 18332E3 58332E3
4700 35 x 50 4.4 8.3 1.78 0.60 36 27 18472E3 58472E3
4700 40 x 40 3.8 7.2 1.78 0.60 45 33 n/a 48472E3
6800 40 x 50 4.7 8.9 2.57 0.86 35 27 18682E3 58682E3
10 000 40 x 70 6.2 11.8 3.78 1.26 25 20 18103E3 58103E3
15 000 40 x 100 8.5 16.1 5.67 1.89 18 16 18153E3 58153E3
100
470 25 x 30 1.4 2.7 0.28 0.10 247 172 19471E3 59471E3
680 25 x 40 1.9 3.6 0.41 0.14 170 116 19681E3 59681E3
1000 30 x 40 2.5 4.7 0.60 0.20 123 88 19102E3 59102E3
1500 35 x 40 3.1 5.8 0.90 0.30 94 71 19152E3 59152E3
2200 35 x 50 3.9 7.4 1.32 0.44 69 55 19222E3 59222E3
2200 40 x 40 3.6 6.8 1.32 0.44 81 65 n/a 49222E3
3300 40 x 50 4.6 8.7 1.98 0.66 59 48 19332E3 59332E3
4700 40 x 70 6.2 11.7 2.82 0.94 42 36 19472E3 59472E3
6800 40 x 100 8.2 15.5 4.08 1.36 32 28 19682E3 59682E3
ELECTRICAL DATA AND ORDERING INFORMATION FOR 050 SERIES
UR
(V)
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
Ø D x L
(mm)
IR
100 Hz
85 °C
(A)
IR
20 kHz
70 °C
(A)
IL1
1 min
(mA)
IL5
5 min
(mA)
ESR
100 Hz
(m)
Z
10 kHz
(m)
ORDERING
CODE SL
MAL2050.......
ORDERING
CODE PW
MAL2050.......
050/052 PED-PW
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Table 3
ELECTRICAL DATA AND ORDERING INFORMATION FOR 052 SERIES
UR
(V)
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
Ø D x L
(mm)
IR
100 Hz
85 °C
(A)
IR
20 kHz
70 °C
(A)
IL1
1 min
(mA)
IL5
5 min
(mA)
ESR
100 Hz
(m)
Z
10 kHz
(m)
ORDERING
CODE
MAL2052.......
250
100 25 x 30 0.6 1.15 0.15 0.05 1800 1300 53101E3
150 25 x 40 0.8 1.5 0.23 0.08 1100 850 53151E3
220 30 x 40 1.0 1.9 0.33 0.11 750 550 53221E3
330 35 x 40 1.4 2.65 0.49 0.17 500 400 53331E3
470 35 x 50 1.8 3.4 0.70 0.24 360 290 53471E3
470 40 x 40 1.8 3.4 0.70 0.24 420 350 43471E3
680 40 x 50 2.3 4.4 1.02 0.34 250 190 53681E3
1000 40 x 70 3.0 5.7 1.50 0.50 170 140 53102E3
385
47 25 x 30 0.5 0.94 0.11 0.04 2370 1550 58479E3
68 25 x 40 0.67 1.27 0.16 0.06 1640 1100 58689E3
100 30 x 40 0.84 1.59 0.23 0.08 1275 950 58101E3
150 35 x 40 1.13 2.14 0.34 0.11 850 635 58151E3
220 35 x 50 1.48 2.8 0.50 0.17 580 430 58221E3
220 40 x 40 1.48 2.8 0.50 0.17 580 430 48221E3
330 40 x 50 1.97 3.73 0.75 0.25 385 300 58331E3
470 40 x 70 2.7 5.11 1.06 0.36 270 215 58471E3
400
47 25 x 30 0.47 0.89 0.11 0.04 2700 2125 56479E3
68 25 x 40 0.63 1.29 0.16 0.06 1875 1470 56689E3
100 30 x 40 0.84 1.59 0.24 0.08 1275 1000 56101E3
150 35 x 40 1.13 2.14 0.36 0.12 850 665 56151E3
220 35 x 50 1.41 2.67 0.52 0.17 650 450 56221E3
220 40 x 40 1.41 2.67 0.52 0.17 650 450 46221E3
330 40 x 50 1.86 3.52 0.79 0.26 435 315 56331E3
470 40 x 70 2.54 4.81 1.12 0.37 305 225 56471E3
680 40 x 100 3.56 6.75 1.63 0.54 210 155 56681E3
ADDITIONAL ELECTRICAL DATA
PARAMETER CONDITIONS VALUE
Voltage
Surge voltage
250 V versions Us = 1.15 x UR
385 V versions Us = 1.1 x UR
Reverse voltage Urev 1 V
Current
Leakage current After 1 min at URIL1 0.006 CR x UR + 4 μA
After 5 min at URIL5 0.002 CR x UR + 4 μA
Inductance
Equivalent series inductance (ESL)
Case Ø D = 25 mm Max. 25 nH
Case Ø D = 30 mm and 35 mm Max. 30 nH
Case Ø D = 40 mm Max. 35 nH
050/052 PED-PW
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CAPACITANCE (C)
Fig. 11 - Typical multiplier of capacitance as a function of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
Fig. 12 - Typical ESR as a function of temperature Fig. 13 - Typical ESR as a function of temperature
Fig. 14 - Typical ESR as a function of temperature Fig. 15 - Typical ESR as a function of temperature
- 60 - 40 - 20 0 20 40 60 80
Tamb (°C)
C
0
C
1.2
1.1
1.0
0.9
0.8
0.7
0.6
1
2
3
4
4
3
2
1
Curve 1: 10 V
Curve 2: 25 V
Curve 3: 63 V
Curve 4: 100 V, 250 V, 385 V
C0 = capacitance at 20 °C, 100 Hz
Tamb (°C)
- 50 0 50 100
104
103
102
10
1
ESR
(mΩ)
1
2
3
4
5
6
7
8
9
ESR at 100 Hz and UR = 10 V
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Curve 9: case Ø D x L = 40 x 100 mm
Tamb (°C)
- 50 0 50 100
104
103
102
10
1
ESR
(mΩ)
1
2
3
4
5
6
7
8
9
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Curve 9: case Ø D x L = 40 x 100 mm
ESR at 100 Hz and UR = 63 V
Tamb (°C)
- 50 0 50 100
104
103
102
10
1
ESR
(mΩ)
1
2
3
4
5
6
7
8
9
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Curve 9: case Ø D x L = 40 x 100 mm
ESR at 100 Hz and UR = 100 V
Tamb (°C)
- 50 0 50 100
ESR
(mΩ)
105
104
103
102
10
1
2
3
4
5
6
7
8
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
ESR at 100 Hz and UR = 385 V
050/052 PED-PW
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IMPEDANCE (Z)
Fig. 16 - Typical impedance as a function of temperature Fig. 17 - Typical impedance as a function of temperature
Fig. 18 - Typical impedance as a function of temperature Fig. 19 - Typical impedance as a function of temperature
Fig. 20 - Typical impedance as a function of temperature Fig. 21 - Typical impedance as a function of temperature
Tamb (°C)
103
102
10
1
- 50 0 50 100
Z
(mΩ)1
2
3
4
5
6
7
8
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Z = at 10 kHz and UR = 10 V
Tamb (°C)
103
102
10
1
- 50 0 50 100
Z
(mΩ)1
2
3
4
5
6
7
8
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Z = at 10 kHz and UR = 63 V
Tamb (°C)
- 50 0 50 100
104
103
102
10
1
Z
(mΩ)
1
2
3
4
5
6
7
8
Z = at 10 kHz and UR = 100 V
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Tamb (°C)
- 50 0 50 100
Z
(mΩ)
105
104
103
102
10
1
2
3
4
5
6
7
8
Curve 1: case Ø D x L = 25 x 30 mm
Curve 2: case Ø D x L = 25 x 40 mm
Curve 3: case Ø D x L = 39 x 40 mm
Curve 4: case Ø D x L = 35 x 40 mm
Curve 5: case Ø D x L = 40 x 40 mm
Curve 6: case Ø D x L = 35 x 50 mm
Curve 7: case Ø D x L = 40 x 50 mm
Curve 8: case Ø D x L = 40 x 70 mm
Z = at 10 kHz and UR = 385 V
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
Case Ø D x L = 25 x 30 mm
Curve 1: 47 µF, 385 V
Curve 2: 100 µF, 250 V
Curve 3: 470 µF, 100 V
Curve 4: 1000 µF, 63 V
Curve 5: 4700 µF, 10 V
1
2
3
4
5
Tamb (20 °C)
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
Case Ø D x L = 25 x 40 mm
1
2
3
4
5
Curve 1: 68 µF, 385 V
Curve 2: 150 µF, 250 V
Curve 3: 680 µF, 100 V
Curve 4: 1500 µF, 63 V
Curve 5: 6800 µF, 10 V
050/052 PED-PW
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Revision: 13-Oct-16 9Document Number: 28345
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Fig. 22 - Typical impedance as a function of frequency Fig. 23 - Typical impedance as a function of frequency
Fig. 24 - Typical impedance as a function of frequency Fig. 25 - Typical impedance as a function of frequency
Fig. 26 - Typical impedance as a function of frequency Fig. 27 - Typical impedance as a function of frequency
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
1
2
3
4
5
Case Ø D x L = 35 x 40 mm
Curve 1: 47 µF, 385 V
Curve 2: 220 µF, 250 V
Curve 3: 1000 µF, 100 V
Curve 4: 2200 µF, 63 V
Curve 5: 10 000 µF, 10 V
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
1
2
3
4
5
Curve 1: 150 µF, 385 V
Curve 2: 330 µF, 250 V
Curve 3: 1500 µF, 100 V
Curve 4: 3300 µF, 63 V
Curve 5: 15 000 µF, 10 V
Case Ø D x L = 35 x 40 mm
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
1
2
3
4
5
Case Ø D x L = 35 x 50 mm
Curve 1: 220 µF, 385 V
Curve 2: 470 µF, 250 V
Curve 3: 2200 µF, 100 V
Curve 4: 4700 µF, 63 V
Curve 5: 22 000 µF, 10 V
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
1
2
3
4
5
Case Ø D x L = 40 x 40 mm
Curve 1: 220 µF, 385 V
Curve 2: 470 µF, 250 V
Curve 3: 2200 µF, 100 V
Curve 4: 4700 µF, 63 V
Curve 5: 22 000 µF, 10 V
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
Case Ø D x L = 40 x 50 mm
1
2
3
4
5
Curve 1: 330 µF, 385 V
Curve 2: 250 µF, 250 V
Curve 3: 3300 µF, 100 V
Curve 4: 6800 µF, 63 V
Curve 5: 33 000 µF, 10 V
102
10-2
10
1
10-1
Z
( )
Ω
10 102 103 104 105 106 107
f (Hz)
Curve 1: 470 µF, 385 V
Curve 2: 1000 µF, 250 V
Curve 3: 4700 µF, 100 V
Curve 4: 10 000 µF, 63 V
Curve 5: 47 000 µF, 10 V
Case Ø D x L = 40 x 70 mm
1
2
3
4
5
050/052 PED-PW
www.vishay.com Vishay BCcomponents
Revision: 13-Oct-16 10 Document Number: 28345
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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Fig. 28 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
Table 4
Note
Multiplier of useful life code: MGA453
Fig. 29 - Multiplier of useful life as a function of ambient temperature and ripple current load
ENDURANCE TEST DURATION AND USEFUL LIFE
ENDURANCE AT 85 °C (h) USEFUL LIFE AT 85 °C (h)
5000 15 000
MGA453
2.4
2.3
2.2
2.1
2.0
1.9
1.8
1.7
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.8
0.5
0.040 50 60 70 80 90
IA
IR
(1)
1
1.2
1.5
2
2.5
3
4
5
8
10
15
20
30
45
60
life multiplier
IA = Actual ripple current
IR = Rated ripple current at 100 Hz and 85 °C
(1) Useful life at 85 °C and IR applied: 15 000 h
Tamb (°C)
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Table 5
Table 6
Statements about product lifetime are based on calculations and internal testing. They should only be interpreted as estimations. Also due to external factors, the
lifetime in the field application may deviate from the calculated lifetime. In general, nothing stated herein shall be construed as a guarantee of durability.
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY (Hz)
50 100 200 400 1000 2000
IR MULTIPLIER
0.83 1.00 1.10 1.15 1.19 1.20
TEST PROCEDURES AND REQUIREMENTS
TEST PROCEDURE
(QUICK REFERENCE) REQUIREMENTS
NAME OF TEST REFERENCE
Endurance
IEC 60384-4 /
EN 130300
subclause 4.13
Tamb = 85 °C; UR applied;
5000 h
UR 100 V; C/C: ± 15 %
UR > 100 V; C/C: ± 10 %
ESR 1.3 x spec. limit
Z x 2 spec. limit
IL5 spec. limit
Useful life CECC 30301
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
15 000 h
UR 100 V; C/C: ± 45 %
UR 100 V; C/C: ± 30 %
ESR 3 x spec. limit
Z 3 x spec. limit
IL5 spec. limit
no short or open circuit,
no visible damage
total failure percentage:
UR 100 V: 1 %;
UR 100 V: 3 %
Shelf life
(storage at
high temperature)
IEC 60384-4 /
EN 130300
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C: ± 10 %
ESR 1.2 x spec. limit
IL5 2 x spec. limit
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Revision: 08-Feb-17 1Document Number: 91000
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