Panasonic 2SB0792A, 2SB0792 Datasheet

Transistor

2.8

+0.2
–0.3

1.5

+0.25
–0.050.65±0.15 0.65±0.15

3

1

2

0.950.95

1.9±0.2

0.4

+0.1

–0.05

1.1

+0.2

–0.1

0.8

0.4±0.2
0 to 0.1

0.16

+0.1

–0.06

1.45

0.1 to 0.3

2.9

+0.2

–0.05

2SB792, 2SB792A

Silicon PNP epitaxial planer type

For high breakdown voltage low-noise amplification
Complementary to 2SD814

Features

■

●

High collector to emitter voltage V

●

Low noise voltage NV.

●

Mini type package, allowing downsizing of the equipment and
automatic insertion through the tape packing and the magazine
packing.

Absolute Maximum Ratings (Ta=25˚C)

■

Parameter

Collector to
base voltage
Collector to
emitter voltage

2SB792
2SB792A
2SB792

2SB792A
Emitter to base voltage
Peak collector current
Collector current
Collector power dissipation
Junction temperature
Storage temperature

Symbol

V

CBO

V

CEO

V

EBO

I

CP

I

C

P

C

T

j

T

stg

.

CEO

Ratings

–150
–185
–150
–185

–100

–55 ~ +150

–5

–50
200
150

Unit

V

V

V
mA
mA

mW

˚C
˚C

1:Base JEDEC:TO–236
2:Emitter EIAJ:SC–59
3:Collector Mini T ype Package

Marking symbol : I

(2SB792)

(2SB792A)

2F

Unit: mm

Electrical Characteristics (Ta=25˚C)

■

Parameter

Collector cutoff current
Collector to emitter
voltage
Emitter to base voltage
Forward current
transfer ratio
Collector to emitter saturation voltage
Transition frequency
Collector output capacitance

Noise voltage

*

hFE Rank classification

Marking
Symbol

Rank R S T

h

FE

2SB792 IR IS IT
2SB792A 2FR 2FS —

Symbol

2SB792
2SB792A

2SB792
2SB792A

I

CBO

V

V

h

V
f

T

C

NV

FE

CEO

EBO

*

CE(sat)

ob

VCB = –100V, IE = 0

IC = –100µA, IB = 0

IE = –10µA, IC = 0

VCE = –5V, IC = –10mA

IC = –30µA, IB = –3mA
VCB = –10V, IE = 10mA, f = 200MHz
VCB = –10V, IE = 0, f = 1MHz
VCE = –10V, IC = –1mA, GV = 80dB,
Rg = 100kΩ, Function = FLAT

130 ~ 220 185 ~ 330 260 ~ 450

Conditions

min

–150
–185

–5
130
130

typ

200

4

150

max

–1

450
330

–1

Unit

µA

V

V

V

MHz

pF

mV

1

Transistor 2SB792, SB792A

PC — Ta IC — V

240

)
mW

200

(

C

160

120

80

40

Collector power dissipation P

0

0 16040 12080 14020 10060

Ambient temperature Ta (˚C

V

— I

CE(sat)

)

–100

V

(

–30

CE(sat)

–10

–3

–1

– 0.3

– 0.1

– 0.03

– 0.01

Collector to emitter saturation voltage V

– 0.1 –1 –10 –100– 0.3 –3 –30

25˚C

Collector current IC (mA

)

C

IC/IB=10

Ta=75˚C

–25˚C

)

CE

–100

–90

–80

)

mA

(

–70

C

–60

–50

–40

–30

Collector current I

–20

–10

0

0 –12–10–8–2 –6–4

I

=–10mA

B

–9mA

–8mA
–7mA

Collector to emitter voltage VCE (V

hFE — I

C

600

FE

500

400

300

200

100

Forward current transfer ratio h

Ta=75˚C

25˚C

–25˚C

0
–0.1 –1 –10 –100–0.3 –3 –30

VCE=–5V

Collector current IC (mA

Ta=25˚C

–6mA

–5mA
–4mA
–3mA

–2mA

–1mA

)

–120

–100

)
mA

(

–80

C

–60

–40

Collector current I

–20

0

0 –2.0–1.6– 0.4 –1.2– 0.8

)

Base to emitter voltage VBE (V

250

225

)

200

MHz

(

175

T

150

125

100

75

50

Transition frequency f

25

0

0.1 1 10 1000.3 3 30

IC — V

BE

VCE=–5V

25˚C

Ta=75˚C

fT — I

–25˚C

E

VCB=–10V
Ta=25˚C

Emitter current IE (mA

)

)

Cob — V

10

)

9

pF

(

8

ob

7

6

5

4

3

2

1

Collector output capacitance C

0

–1 –3 –10 –30 –100

CB

Collector to base voltage VCB (V

2

IE=0
f=1MHz
Ta=25˚C

)