SGS Thomson Microelectronics 2N5323, 2N5322 Datasheet

SMALL SIGNAL PNP TRANSISTORS

■ SILICON EPI TAX IA L PLANAR PN P

TRANSISTORS

■ MEDIUM POWER AMPLIFIER

■ NPN COMPLEMENT S ARE 2N5320 AND

2N5321

DESCRIPTION

The 2N5322 and 2N5323 are silicon epitaxial
planar PNP transistors in Jedec TO-39 metal
case. They are especially intended for
high-voltage medium power application in
industrial and commercial equipments.

The complementary NPN types are respectively
the 2N5320 and 2N5321

2N5322
2N5323

TO-39

INTERNAL SCHEMATIC DIAGRAM

ABSOL UT E MAXIMU M RATINGS

Symbol Parameter Value Unit

2N5322 2N5323

V
V
V
V

I

P
P

T

stg

Collector-Base Voltage (IE = 0) -100 -75 V

CBO

Collector-Emitter Voltage (VBE = -1.5V) -100 -75 V

CEV

Collector-Emitter Voltage (IB = 0) -75 -50 V

CEO

Emitter-Base Voltage (IC = 0) -6 -5 V

EBO

Collector Current -1.2 A

I

C

Collector Peak Current -2 A

CM

Base Current -1 A

I

B

Total Dissipation at T

tot

Total Dissipation at Tc = 25 oC10W

tot

, TjStorage and Junction Temperature -65 to 200

= 25 oC1W

amb

o

C

June 1997

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2N5322/2N5323

THERMAL DATA

R

thj-case

R

thj-amb

Thermal Resistance Junction-Case Max
Thermal Resistance Junction-Ambient Max

17.5
175

o

C/W

o

C/W

ELECTRICAL CHARACTERISTICS (T

= 25 oC unless otherwise specified)

case

Symbol Parameter Test Conditions Min. Typ. Max. Unit

I

CBO

I

EBO

V

(BR)CEV

V

(BR)CEO

V

(BR)EBO

V

CE(sat)

V

h

BE

FE

Collector Cut-off
Current (I

= 0)

E

Collector Cut-off
Current (I

= 0)

C

Collector-Emitter
Breakdown Voltage
(V

= 1.5V)

BE

∗ Collector-Emitter

Breakdown Voltage
(I

= 0)

B

Emitter-Base
Breakdown Voltage
(I

= 0)

C

∗ Collector-Emitter

Saturation Voltage

= -80 V for 2N5322

V

CB

V

= -60 V for 2N5323

CB

= -5 V for 2N5322

V

EB

V

= -4 V for 2N5323

EB

= -100 µA

I

C

for 2N5322
for 2N5323

I

= -10 mA

C

for 2N5322
for 2N5323

= -100 µA

I

E

for 2N5322
for 2N5323

IC = -500 mA IB = -50 mA
for 2N5322
for 2N5323

∗ Base-Emitter Voltage IC = -500 mA VCE = -4 V

for 2N5322
for 2N5323

∗ DC Current Gain for 2N5322

I

= -500 mA VCE = -4 V

C

I

= -1 A VCE = -2 V

C

-100

-75

-75

-50

-6

-5

30
10

-0.5

-5

-0.1

-0.5

-0.7

-1.2

-1.1

-1.4

130

for 2N5323
I

f

t

Transition Frequency IC = -50 mA VCE = -4 V f = 10 MHz 50 MHz

T

Turn-on Time IC = -500 mA VCC = -30 V

on

I

t

Turn-off Time IC = -500 mA VCC = -30 V

off

I

∗ Pulsed: Pulse duration = 300 µs, duty cycle = 1 %

= -500 mA VCE = -4 V

C

= -50 mA

B1

= -IB2 = -50 mA

B1

40

250

100 ns

1000 ns

µA
µA

µA
µA

V
V

V
V

V
V

V
V

V
V

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