background image

2SC4691J

2

SJC00282BED

V

BE(sat)

 

 I

C

h

FE

 

 I

C

C

ob

 

 V

CB

P

C

 

 T

a

I

C

 

 V

CE

V

CE(sat)

 

 I

C

220 

0.1 

µ

F

50 

V

CC

 

3 V

V

OUT

3.3 k

50 

V

IN

 = 

10 V

3.3 k

V

BB

 = −

3 V

V

IN

V

OUT

t

on

90%

10%

90%

10%

t

off

(Waveform at A)

V

IN

V

OUT

10%

10%

t

stg

910 

0.1 

µ

F

0.1 

µ

F

A

90 

V

CC

 

10 V

V

OUT

500 

50 

V

IN

 = 

10 V

500 

1 k

V

BB

 = 

2 V

t

on

 , t

off

 test circuit

t

stg

 test circuit

Measurement circuit

0

150

125

100

25

75

50

0

150

125

100

75

50

25

Ambient temperature  T

a

  (

°

C)

Collector power dissipation  P

C

  

(mW

)

0

6

5

4

1

3

2

0

250

200

150

100

50

T

a

 = 25

°

C

I

B

 

8 mA

7 mA
6 mA
5 mA

4 mA

3 mA

2 mA

1 mA

Collector-emitter voltage  V

CE

  (V)

Collector current  I

C

  

(m

A

)

0.1

1

10

100

1 000

0.01

1

0.1

I

/ I

B

 

10

T

a

 = 75

°

C

25

°

C

25

°

C

Collector current  I

C

  (mA)

Collector-emitter saturation voltage  V

CE(sat)

  

(V

)

0.1

1

10

100

0.1

10

1

I

/ I

B

 

10

T

a

 = 75

°

C

25

°

C

25

°

C

Base-emitter saturation voltage  V

BE(sat)

  

(V

)

Collector current  I

C

  (mA)

0.1

1

10

100

1 000

0

160

120

40

100

140

80

20

60

V

CE 

 

1 V

T

a

 = 75

°

C

25

°

C

25

°

C

Forward current transfer ratio  h

FE

Collector current  I

C

  (mA)

0

5

15

20

25

30

10

35

0.1

100

10

1

f = 1 MHz
T

a

 = 25

°

C

Collector-base voltage  V

CB

  (V)

Collector output capacitance

  (Common base, input open circuited)  

C

ob

  (pF)

This product complies with the RoHS Directive (EU 2002/95/EC).

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