IR2153SPBF 参数 Datasheet PDF下载

IR2153(D) (

S

)

Absolute Maximum Ratings

Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage param-

eters are absolute voltages referenced to COM, all currents are defined positive into any lead. The thermal resistance and

power dissipation ratings are measured under board mounted and still air conditions.

Symbol

V

B

V

S

V

HO

V

LO

V

RT

V

CT

I

CC

I

RT

dV

s

/dt

P

D

Rth

JA

T

J

T

S

T

L

Definition

High side floating supply voltage

High side floating supply offset voltage

High side floating output voltage

Low side output voltage

R

T

pin voltage

C

T

pin voltage

Supply current (note 1)

R

T

pin current

Allowable offset voltage slew rate

Maximum power dissipation @ T

A

≤

+25°C

Thermal resistance, junction to ambient

Junction temperature

Storage temperature

Lead temperature (soldering, 10 seconds)

(8 Lead DIP)

(8 Lead SOIC)

(8 Lead DIP)

(8 Lead SOIC)

Min.

-0.3

V

B

- 25

V

S

- 0.3

-0.3

-0.3

-0.3

—

-5

-50

—

—

—

—

-55

-55

—

Max.

625

V

B

+ 0.3

V

B

+ 0.3

V

CC

+ 0.3

V

CC

+ 0.3

V

CC

+ 0.3

25

5

50

1.0

0.625

125

200

150

150

300

Units

V

mA

V/ns

W

°C/W

°C

Recommended Operating Conditions

For proper operation the device should be used within the recommended conditions.

Symbol

V

B

s

V

S

V

CC

I

CC

T

J

Note 1:

Definition

High side floating supply voltage

Steady state high side floating supply offset voltage

Supply voltage

Supply current

Junction temperature

Min.

V

CC

- 0.7

-3.0 (note 2)

10

(note 3)

-40

Max.

V

CLAMP

600

V

CLAMP

5

125

Units

V

mA

°C

Note 2:

Note 3:

This IC contains a zener clamp structure between the chip V

CC

and COM which has a nominal breakdown

voltage of 15.6V. Please note that this supply pin should not be driven by a DC, low impedance power source

greater than the V

CLAMP

specified in the Electrical Characteristics section.

Care should be taken to avoid output switching conditions where the V

S

node flies inductively below ground by

more than 5V.

Enough current should be supplied to the V

CC

pin of the IC to keep the internal 15.6V zener diode clamping the

voltage at this pin.

2

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