Datasheet

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8

9

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    

SLIS005B − APRIL 1993 − REVISED MAY 2005

11

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

Figure 11

V

CC

− Logic Supply Voltage − V

0

0.25

0.5

0.75

1

1.25

1.5

45 67

T

C

= 125°C

STATIC DRAIN-SOURCE ON-STATE RESISTANCE

vs

LOGIC SUPPLY VOLTAGE

Ω

DS(on)

− Static Drain-Source On-State Resistance −r

T

C

= 25°C

T

C

= −40°C

1.75

2

I

D

= 350 mA

See Note A

Figure 12

100

60

40

20

140

80

− 50 0 50 100 150

120

SWITCHING TIME

vs

CASE TEMPERATURE

Switching Time − ns

t

PLH

t

r

t

f

T

C

− Case Temperature − °C

t

PHL

I

D

= 350 mA

See Note A

NOTE A: Technique should limit T

J

− T

C

to 10°C maximum.

THERMAL INFORMATION

NE PACKAGE

TRANSIENT THERMAL IMPEDANCE

vs

ON TIME

The single-pulse curve represents measured data. The

curves for various pulse durations are based on the

following equation:

t − On Time − s

C

°

θ

Z − Transient Thermal Impedance − /W

JA

0.1

0.001 0.01 0.1 1 10 100

1

10

100

1000

Single Pulse

d = 2%

d = 5%

d = 10%

d = 20%

d = 50%

t

w

t

c

I

D

0

Z

q

JA

+

Ť

t

w

t

c

Ť

R

q

JA

)

Ť

1 –

t

w

t

c

Ť

Z

q

ǒ

t

w

) t

c

Ǔ

) Z

q

ǒ

t

w

Ǔ

–Z

q

ǒ

t

c

Ǔ

= the single-pulse thermal impedance

for t = t

w

seconds

= the single-pulse thermal impedance

for t = t

c

seconds

= the single-pulse thermal impedance

for t = t

w

+ t

c

seconds

Where:

d = t

w

/t

c

Z

q

ǒ

t

w

Ǔ

Z

q

ǒ

t

c

Ǔ

Z

q

ǒ

t

w

) t

c

Ǔ

Figure 13