051/053 PEC-PW
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Vishay BCcomponents
Revision: 14-Oct-16
7
Document Number: 28346
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Fig. 14 - Typical multiplier of ESR as a function of ambient temperature
IMPEDANCE (Z)
Fig. 15 - Typical multiplier of impedance as
a function of ambient temperature
Fig. 16 - Typical multiplier of impedance as
a function of ambient temperature
Fig. 17 - Typical impedance as a function of frequency Fig. 18 - Typical impedance as a function of frequency
T
amb
(°C)
1
10
10
-1
10
2
ESR
0
ESR
- 50 0 50
100
4
1
2
3
4
1
2, 3
Case Ø D x L = 35 x 50, 40 x 40, 40 x 50, 40 x 70, and 40 x 100 mm
ESR
0
= typical at 20 °C, 100 Hz
Curve 1: U
R
= 385 V
Curve 2: U
R
= 200 V
Curve 3: U
R
= 100 V
Curve 4: U
R
= 10 V to 63 V
T
amb
(°C)
1
10
10
2
Z
0
Z
- 50 0 50
100
2
4
1
2, 3
1
3
4
Z
0
= impedance at 20 °C, 10 kHz
Curve 1: U
R
= 385 V
Curve 2: U
R
= 200 V
Curve 3: U
R
= 100 V
Curve 4: U
R
= 10 V to 63 V
Case Ø D x L = 25 x 30, 25 x 40, 30 x 40, and 35 x 40 mm
10
-1
T
amb
(°C)
1
10
10
2
10
-1
Z
0
Z
- 50 0 50
100
4
1
2
3
4
1
2
3
Curve 1: U
R
= 385 V
Curve 2: U
R
= 200 V
Curve 3: U
R
= 100 V
Curve 4: U
R
= 10 V to 63 V
Z
0
= impedance at 20 °C, 100 Hz
Case Ø D x L = 35 x 50, 40 x 40, 40 x 50, 40 x 70, and 40 x 100 mm
T
amb
(20 °C)
10
6
10
5
10
4
10
3
10
2
10 10
7
f (Hz)
10
2
10
1
Z
(Ω)
10
-1
10
-2
1
2
3
4
5
6
7
8
Curve 1: 68 µF, 385 V
Curve 2: 150 µF, 200 V
Curve 3: 680 µF, 100 V
Curve 4: 2200 µF, 63 V
Curve 5: 3300 µF, 40 V
Curve 6: 4700 µF, 25 V
Curve 7: 6800 µF, 16 V
Curve 8: 10 000 µF, 10 V
Case Ø D x L = 25 x 30 mm
T
amb
(20 °C)
10
6
10
5
10
4
10
3
10
2
10 10
7
f (Hz)
10
2
10
1
Z
(Ω)
10
-1
10
-2
1
2
3
4
5
6
7
8
Curve 1: 100 µF, 385 V
Curve 2: 220 µF, 200 V
Curve 3: 1000 µF, 100 V
Curve 4: 3300 µF, 63 V
Curve 5: 4700 µF, 40 V
Curve 6: 6800 µF, 25 V
Curve 7: 10 000 µF, 16 V
Curve 8: 15 000 µF, 10 V
Case Ø D x L = 25 x 40 mm
