On Semiconductor N/A MJE 350 PNP Case type TO 225 AA I(C) -0 MJE350 Data Sheet

V, 

TEMPERA

TURE COEFFICIENTS (mV/

C)

°

θ

I

C

, COLLECTOR CURRENT (mA)

h FE

, DC CURRENT

 GAIN

200

7.0

20

5.0

50

30

10

10

50

100

30

25

°

C

T

J

 = 150

°

C

-
55

°

C

100

20

70

200

500

300

70

V

CE

 = 2.0 V

V

CC

 = 10 V

1.0

I

C

, COLLECTOR CURRENT (mA)

0.8

0.2

0

T

J

 = 25

°

C

V,

 VOL

TAGE (VOL

TS)

V

BE(sat)

 @ I

C

/I

B

 = 10

V

BE

 @ V

CE

 = 10 V

0.6

0.4

V

CE(sat)

7.0

20

5.0

10

50

100

30

200

500

300

70

I

C

/I

B

 = 10

I

C

/I

B

 = 5.0

1000

V

CE

, COLLECTOR-EMITTER VOLTAGE (VOLTS)

70

300

10

50

BONDING WIRE LIMITED

THERMALLY LIMITED @ T

C

 = 25

°

C

SECOND BREAKDOWN LIMITED

1.0ms

dc

700

200

100

50

20

T

J

 = 150

°

C

I C

, COLLECT

OR CURRENT

 (mA)

100

300

500

30

100

µ

s

400

30

70

200

20

500

µ

s

+
1.2

I

C

, COLLECTOR CURRENT (mA)

70

50

30

10

5.0

500

7.0

20

+
0.8
+
0.4

0

-
0.4
-
0.8
-
1.2
-
1.6
-
2.0
-
2.4
-
2.8

100

200 300

*APPLIES FOR I

C

/I

B

 < h

FE/4

*

θ

VC

 for V

CE(sat)

θ

VB

 for V

BE

+
100

°

C to +
150

°

C

+
25

°

C to +
100

°

C

-
55

°

C to +
25

°

C

+
25

°

C to +
150

°

C

-
55

°

C to +
25

°

C

There are two limitations on the power handling ability of

a transistor: average junction temperature and second
breakdown. Safe operating area curves indicate I

C

 – V

CE

limits of the transistor that must be observed for reliable
operation; i.e., the transistor must not be subjected to greater
dissipation than the curves indicate.

The data of Figure 3 is based on T

J(pk)

 = 150

C; T

C

 is

variable depending on conditions. Second breakdown pulse
limits are valid for duty cycles to 10% provided T

J(pk)

 150
C. At high case temperatures, thermal limitations
will reduce the power that can be handled to values less than
the limitations imposed by second breakdown.

20

T

C

, CASE TEMPERATURE (

°

C)

100

80

40

0

160

20

60

16

12

8.0

4.0

0

120

140

P D

, POWER DISSIP

ATION (W

ATTS)