ECQ-E4125JF Datasheet BFC2373GE334MF, BFC2373GB823MD, BFC2373FF335MK | P7-P9

MKT373M (Mini)

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Vishay BCcomponents

Revision: 08-Sep-16

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Document Number: 28157

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CHARACTERISTICS

Capacitance as a function of frequency

Impedance as a function of frequency

Max. RMS voltage and AC current (sinewave)

Capacitance as a function of ambient temperature

Max. DC and AC voltage as a function of temperature

Max. RMS voltage and AC current (sinewave)

Δ

C/C

(%)

2

0

- 1

- 2

- 3

1

f (Hz)

10

2

10

3

10

4

10

5

400 V; 390 nF

Impedance

(1/2)

10

3

10

-2

10

1

10

-1

10

0

f (Hz)

10

6

10

7

10

3

10

4

10

5

AC voltage

(V)

10

3

10

2

10

1

f (Hz)

10

1

10

2

10

3

10

4

T

amb

≤ 85 °C, 250 V

DC

220 nF

1000 nF

4700 nF

T

amb

(°C)

typical

400 V - 630 V

250 V

1 kHz, 1 V

- 60

C/C

(%)

6

2

0

- 2

- 4

- 6

4

- 20 20 60 100

min.

max.

1.2

1.0

0.8

0.6

0.4

0.2

0.0

- 60 - 20 20 60 100

T

amb

(°C)

Factor

10

3

10

2

10

4

AC voltage

(V)

T

amb

≤ 105 °C, 250 V

DC

220 nF

1000 nF

4700 nF

10

3

10

2

10

1

MKT373M (Mini)

www.vishay.com

Vishay BCcomponents

Revision: 08-Sep-16

8

Document Number: 28157

For technical questions, contact: dc-film@vishay.com

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

Max. RMS voltage and AC current (sinewave)

Maximum RMS Current (Sinewave) as a Function of Frequency

The maximum RMS current is defined by I

AC

=  x C x U

AC

.

U

AC

is the maximum AC voltage depending on the ambient temperature in the curves “Max. RMS voltage and AC current as a

function of frequency”.

f (Hz)

2200 nF

100 nF

T

amb

≤ 85 °C, 400 V

DC

470 nF

10

3

10

2

10

4

10

5

AC voltage

(V)

10

3

10

2

10

1

AC Voltage

(V)

10

3

10

2

10

1

680 nF

10 nF

T

amb

≤ 85 °C, 630 V

DC

100 nF

f (Hz)

10

3

10

2

10

4

10

5

10

3

10

2

10

4

f (Hz)

AC voltage

(V)

10

3

10

2

10

1

2200 nF

100 nF

470 nF

85 °C < T

amb

≤ 105 °C, 400 V

DC

10

3

10

2

10

4

f (Hz)

630 nF

10 nF

100 nF

85 °C < T

amb

≤ 105 °C, 630 V

DC

AC voltage

(V)

10

3

10

2

10

1

MKT373M (Mini)

www.vishay.com

Vishay BCcomponents

Revision: 08-Sep-16

9

Document Number: 28157

For technical questions, contact: dc-film@vishay.com

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

Tangent of loss angle as a function of frequency (typical curve)

Maximum allowed component temperature rise (T)

as a function of the ambient temperature (T

amb

)

Insulation resistance as a function of the ambient temperature

(typical curve)

f (Hz)

10

2

10

3

10

4

10

5

10

3

10

2

10

1

Dissipation factor

(x 10

-4

)

Curve 1: C = 0.33 µF

Curve 2: 0.33 µF, C = 1.2 µF

Curve 3: 1.2 µF, C = 3.9 µF

Curve 4: 3.9 µF, C = 6.8 µF

Curve 5: C = 6.8 µF

5

4

3

2

1

ΔT (°C)

- 60 - 20 20 60 100

T

amb

(°C)

16

12

8

4

0

T

amb

(°C)

10

5

10

4

10

2

10

-50 0 50 100

3

RC (s)

HEAT CONDUCTIVITY (G) AS A FUNCTION OF (ORIGINAL) PITCH AND CAPACITOR BODY

THICKNESS IN mW/°C

W

max.

(mm)

HEAT CONDUCTIVITY (mW/°C)

PITCH 10 mm PITCH 15 mm PITCH 22.5 mm PITCH 27.5 mm

4.06.0---

4.5----

5.0 7.5 10 - -

6.0 9.0 11 19 -

7.0 - 12 21 -

8.5 - 16 25 -

10.0 - 18 28 -

11.0 - - - 36

12.0 - - 34 -

13.0 - - - 42

15.0 - - - 48

18.0 - - - 57

ECQ-E4125JF

ECQ-E4125JF

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