Panasonic 2SB1320A User Manual

2SB1320A

2

SJC00078BED

I

B

 V

BE

I

C

 V

BE

V

CE(sat)

 I

C

P

C

 T

a

I

C

 V

CE

I

C

 I

B

h

FE

 I

C

f

T

 I

E

C

ob

 V

CB

0

160

40

120

80

0

100

200

300

400

500

Collector power dissipation P

C

(mW

)

Ambient temperature T

a

(

°C)

0

0

−12

−2

−10

−4

−8

−6

−120

−100

−80

−60

−40

−20

Collector current I

C

(mA

)

Collector-emitter voltage V

CE

(V)

−250 µA
−200 µA

−150 µA

−100 µA

−50 µA

I

B

= −300 µA

T

a

= 25°C

0

0

−300

−200

−100

−400

−60

−50

−40

−30

−20

−10

Base current I

B

(

µA)

Collector current

I

C

(mA

)

V

CE

= −5 V

T

a

= 25°C

Base current

I

B

(µ

A

)

0

−400

−350

−300

−250

−200

−150

−100

−50

0

− 0.4

− 0.8

−1.2

−1.6

Base-emitter voltage V

BE

(V)

V

CE

= −5 V

T

a

= 25°C

0

0

−2.0

−1.6

−1.2

−240

−200

−160

−120

−80

−40

T

a

= 75°C

−25°C

25

°C

Collector current

I

C

(mA

)

− 0.4

− 0.8

Base-emitter voltage V

BE

(V)

V

CE

= −5 V

− 0.001

−1

−1

−10

−10

−100

−1 000

25

°C

−25°C

T

a

= 75°C

− 0.01

− 0.1

Collector-emitter saturation voltage V

CE(sat)

(V

)

Collector current I

C

(mA)

I

C

/ I

B

= 10

0

−1

600

500

400

300

200

100

−10

−100

−1 000

T

a

= 75°C

25

°C

−25°C

Forward current transfer ratio h

FE

V

CE

= −5 V

Collector current I

C

(mA)

0.1

1

10

100

0

160

140

120

100

80

60

40

20

Transition frequency f

T

(MHz

)

Emitter current I

E

(mA)

V

CB

= −10 V

T

a

= 25°C

−1

−10

−100

0

2

6

4

8

Collector-base voltage V

CB

(V)

I

E

= 0

f

= 1 MHz

T

a

= 25°C

Collector output capacitance

(Common base, input open circuited)

C

ob

(pF)

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