2024年4月26日发(作者：薄木)

元器件交易网

Preliminary Data Sheet No. PD60131-L

IR21531D(S) & (PbF)

SELF-OSCILLATING HALF-BRIDGE DRIVER

Features

•

Integrated 600V half-bridge gate driver

•

15.6V zener clamp on Vcc

•

True micropower start up

•

Tighter initial deadtime control

•

Low temperature coefficient deadtime

•

Shutdown feature (1/6th Vcc) on C

T

pin

•

Increased undervoltage lockout Hysteresis (1V)

•

Lower power level-shifting circuit

•

Constant LO, HO pulse widths at startup

•

Lower di/dt gate driver for better noise immunity

•

Low side output in phase with R

T

•

Internal 50nsec (typ.) bootstrap diode (IR21531D)

•

Excellent latch immunity on all inputs and outputs

•

ESD protection on all leads

•

Also available LEAD_FREE

Product Summary

V

OFFSET

Duty Cycle

T

r

/T

p

V

clamp

Deadtime (typ.)

600V max.

50%

80/40ns

15.6V

0.6 µs

Packages

Description

The IR21531(D)(S) are an improved version of the

popular IR2155 and IR2151 gate driver ICs, and in-

corporates a high voltage half-bridge gate driver with a front end oscillator similar to the industry standard

CMOS 555 timer. The IR21531 provides more functionality and is easier to use than previous ICs. A shutdown

feature has been designed into the C

T

pin, so that both gate driver outputs can be disabled using a low voltage

control signal. In addition, the gate driver output pulse widths are the same once the rising undervoltage

lockout threshold on V

CC

has been reached, resulting in a more stable profile of frequency vs time at

startup. Noise immunity has been improved significantly, both by lowering the peak di/dt of the gate drivers,

and by increasing the undervoltage lockout hysteresis to 1V. Finally, special attention has been payed to

maximizing the latch immunity of the device, and providing comprehensive ESD protection on all pins.

Typical Connections

IR21531(S)

600V

MAX

VCC

VB

IR21531D

600V

MAX

VCC

VB

HO

RT

VS

RT

HO

VS

CT

Shutdown

COM

LO

Shutdown

CT

COM

LO

1

元器件交易网

IR21531D(S) & (PbF)

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 Definition

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

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 Definition

V

BS

V

S

V

CC

I

CC

T

J

Note 1:

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.

元器件交易网

IR21531D(S) & (PbF)

Recommended Component Values

Symbol Component

R

T

C

T

Timing resistor value

C

T

pin capacitor value

Min.

10

330

Max.

—

—

Units

kΩ

pF

IR21531 RT vs Frequency

1000000

IR2153 RT vs Frequency

100000

F

r

e

q

u

e

n

c

y

(

H

z

)

10000

330pf

470pF

1nF

CT Values

1000

2.2nF

4.7nF

10nF

100

10

101001000

RT (ohms)

100000

3

元器件交易网

IR21531D(S) & (PbF)

Electrical Characteristics

V

BIAS

(V

CC

, V

BS

) = 12V, C

L

= 1000 pF, C

T

= 1 nF and T

A

= 25°C unless otherwise specified. The V

IN

, V

TH

and I

IN

parameters are referenced to COM. The V

O

and I

O

parameters are referenced to COM and are applicable to the

respective output leads: HO or LO.

Low Voltage Supply Characteristics

Symbol Definition

V

CCUV+

V

CCUV-

V

CCUVH

I

QCCUV

I

QCC

V

CLAMP

Rising V

CC

undervoltage lockout threshold

Falling V

CC

undervoltage lockout threshold

V

CC

undervoltage lockout Hysteresis

Micropower startup V

CC

supply current

Quiescent V

CC

supply current

V

CC

zener clamp voltage

Min.

8.1

7.2

0.5

—

—

14.4

Typ. Max. Units Test Conditions

9.0

8.0

1.0

75

500

15.6

9.9

8.8

1.5

150

950

16.8

V

µA

V

V

CC

≤

V

CCUV

-

I

CC

= 5mA

Floating Supply Characteristics

Symbol Definition

I

QBSUV

Micropower startup V

BS

supply current

I

QBS

Quiescent VBS supply current

V

BSMIN

Minimum required V

BS

voltage for proper

functionality from R

T

to HO

I

LK

Offset supply leakage current

V

F

Bootstrap diode forward voltage (IR21531D)

Min. Typ. Max. Units Test Conditions

µA

V

CC

≤

V

CCUV

-

— 010

— 3050

— 4.0 5.0

—

0.5

—

—

50

1.0

V V

CC

=V

CCUV+

+ 0.1V

µA

V

V

B

= V

S

= 600V

I

F

= 250mA

Oscillator I/O Characteristics

Symbol Definition

f

osc

Oscillator frequency

d R

T

pin duty cycle

I

CT

C

T

pin current

I

CTUV

UV-mode C

T

pin pulldown current

V

CT+

Upper C

T

ramp voltage threshold

V

CT-

Lower C

T

ramp voltage threshold

V

CTSD

C

T

voltage shutdown threshold

V

RT+

High-level R

T

output voltage, V

CC

- V

RT

V

RT-

V

RTUV

V

RTSD

Low-level R

T

output voltage

UV-mode R

T

output voltage

SD-Mode R

T

output voltage, V

CC

- V

RT

Min.

19.4

94

48

—

0.30

—

—

1.8

—

—

—

—

—

—

—

Typ.

20

100

50

0.001

0.70

8.0

4.0

2.1

10

100

10

100

0

10

10

Max. Units Test Conditions

20.6

106

52

1.0

1.2

—

—

2.4

50

300

50

300

100

50

300

kHz

%

uA

mA

V

I

RT

= 100µA

I

RT

= 1mA

I

RT

= 100µA

I

RT

= 1mA

V

CC

≤

V

CCUV

-

I

RT

= 100µA,

V

CT

= 0V

I

RT

= 1mA,

V

CT

= 0V

R

T

= 36.9kΩ

R

T

= 7.43kΩ

fo < 100kHz

V

CC

= 7V

mV

元器件交易网

IR21531D(S) & (PbF)

Electrical Characteristics (cont.)

Gate Driver Output Characteristics

Symbol Definition

V

OH

High level output voltage, V

BIAS

-V

O

VOL Low-level output voltage, VO

VOL_UV UV-mode output voltage, VO

t

r

t

f

t

sd

t

d

Output rise time

Output fall time

Shutdown propogation delay

Output deadtime (HO or LO)

Min.

—

—

—

—

—

—

0.35

Typ.

0

0

0

80

45

660

0.60

Max. Units Test Conditions

100

100

100

150

100

—

0.85

mV

I

O

= OA

I

O

= OA

I

O

= OA

V

CC

≤

V

CCUV

-

nsec

µsec

Lead Definitions

Symbol

V

CC

R

T

C

T

COM

LO

V

S

HO

V

B

Description

Logic and internal gate drive supply voltage

Oscillator timing resistor input

Oscillator timing capacitor input

IC power and signal ground

Low side gate driver output

High voltage floating supply return

High side gate driver output

High side gate driver floating supply

8 Lead DIP8 Lead SOIC

IR21531(D)

NOTE: The IR21531D is offered in 8 lead DIP only.

IR21531S

5

元器件交易网

IR21531D(S) & (PbF)

Functional Block Diagram for IR21531(S)

R

T

V

B

R

+

-

R

R

+

-

+

-

LOGICDEAD

TIME

DELAY

S

Q

Q

V

CC

15.6V

LO

DEAD

TIME

PULSE

GEN

HV

LEVEL

SHIFT

Q

PULSE

FILTER

R

S

V

S

HO

R/2

C

T

R/2

UV

DETECT

COM

Functional Block Diagram for IR21531D

R

T

V

B

R

+

-

R

R

+

-

+

-

LOGICDEAD

TIME

DELAY

S

Q

Q

V

CC

15.6V

LO

DEAD

TIME

PULSE

GEN

HV

LEVEL

SHIFT

Q

PULSE

FILTER

R

S

V

S

HO

D1

R/2

C

T

R/2

UV

DETECT

COM

NOTE: The D1 is a separate die.

元器件交易网

IR21531D(S) & (PbF)

8 Lead PDIP

01-3003 01

7

元器件交易网

IR21531D(S) & (PbF)

V

CLAMP

Vccuv+

Vcc

R

T

R

T

,C

T

2/3

1/3

C

T

td

LO

td

HO

Figure 1. Input/Output Timing Diagram

(HO)

(LO)

Figure 2. Switching Time Waveform Definitions

R

T

50%50%

90%

HO

LO

90%

10%

DT

10%

Figure 3. Deadtime Waveform Definitions

元器件交易网

IR21531D(S) & (PbF)

Part number

IRxxxxxx

YWW?

?XXXX

Lot Code

(Prod mode - 4 digit SPN code)

IR logoDate code

Pin 1

Identifier

?

P

MARKING CODE

Lead Free Released

Non-Lead Free

Released

Assembly site code

Per SCOP 200-002

Basic Part (Non-Lead Free)

8-Lead PDIP IR21531D order IR21531D

8-Lead SOIC IR21531S order IR21531S

Leadfree Part

8-Lead PDIP IR21531D order IR21531DPbF

8-Lead SOIC IR21531S order IR21531SPbF

IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105

This product has been qualified per industrial level

Data and specifications subject to change without notice. 4/2/2004

9

2024年4月26日发(作者：薄木)

元器件交易网

Preliminary Data Sheet No. PD60131-L

IR21531D(S) & (PbF)

SELF-OSCILLATING HALF-BRIDGE DRIVER

Features

•

Integrated 600V half-bridge gate driver

•

15.6V zener clamp on Vcc

•

True micropower start up

•

Tighter initial deadtime control

•

Low temperature coefficient deadtime

•

Shutdown feature (1/6th Vcc) on C

T

pin

•

Increased undervoltage lockout Hysteresis (1V)

•

Lower power level-shifting circuit

•

Constant LO, HO pulse widths at startup

•

Lower di/dt gate driver for better noise immunity

•

Low side output in phase with R

T

•

Internal 50nsec (typ.) bootstrap diode (IR21531D)

•

Excellent latch immunity on all inputs and outputs

•

ESD protection on all leads

•

Also available LEAD_FREE

Product Summary

V

OFFSET

Duty Cycle

T

r

/T

p

V

clamp

Deadtime (typ.)

600V max.

50%

80/40ns

15.6V

0.6 µs

Packages

Description

The IR21531(D)(S) are an improved version of the

popular IR2155 and IR2151 gate driver ICs, and in-

corporates a high voltage half-bridge gate driver with a front end oscillator similar to the industry standard

CMOS 555 timer. The IR21531 provides more functionality and is easier to use than previous ICs. A shutdown

feature has been designed into the C

T

pin, so that both gate driver outputs can be disabled using a low voltage

control signal. In addition, the gate driver output pulse widths are the same once the rising undervoltage

lockout threshold on V

CC

has been reached, resulting in a more stable profile of frequency vs time at

startup. Noise immunity has been improved significantly, both by lowering the peak di/dt of the gate drivers,

and by increasing the undervoltage lockout hysteresis to 1V. Finally, special attention has been payed to

maximizing the latch immunity of the device, and providing comprehensive ESD protection on all pins.

Typical Connections

IR21531(S)

600V

MAX

VCC

VB

IR21531D

600V

MAX

VCC

VB

HO

RT

VS

RT

HO

VS

CT

Shutdown

COM

LO

Shutdown

CT

COM

LO

1

元器件交易网

IR21531D(S) & (PbF)

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 Definition

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

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 Definition

V

BS

V

S

V

CC

I

CC

T

J

Note 1:

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.

元器件交易网

IR21531D(S) & (PbF)

Recommended Component Values

Symbol Component

R

T

C

T

Timing resistor value

C

T

pin capacitor value

Min.

10

330

Max.

—

—

Units

kΩ

pF

IR21531 RT vs Frequency

1000000

IR2153 RT vs Frequency

100000

F

r

e

q

u

e

n

c

y

(

H

z

)

10000

330pf

470pF

1nF

CT Values

1000

2.2nF

4.7nF

10nF

100

10

101001000

RT (ohms)

100000

3

元器件交易网

IR21531D(S) & (PbF)

Electrical Characteristics

V

BIAS

(V

CC

, V

BS

) = 12V, C

L

= 1000 pF, C

T

= 1 nF and T

A

= 25°C unless otherwise specified. The V

IN

, V

TH

and I

IN

parameters are referenced to COM. The V

O

and I

O

parameters are referenced to COM and are applicable to the

respective output leads: HO or LO.

Low Voltage Supply Characteristics

Symbol Definition

V

CCUV+

V

CCUV-

V

CCUVH

I

QCCUV

I

QCC

V

CLAMP

Rising V

CC

undervoltage lockout threshold

Falling V

CC

undervoltage lockout threshold

V

CC

undervoltage lockout Hysteresis

Micropower startup V

CC

supply current

Quiescent V

CC

supply current

V

CC

zener clamp voltage

Min.

8.1

7.2

0.5

—

—

14.4

Typ. Max. Units Test Conditions

9.0

8.0

1.0

75

500

15.6

9.9

8.8

1.5

150

950

16.8

V

µA

V

V

CC

≤

V

CCUV

-

I

CC

= 5mA

Floating Supply Characteristics

Symbol Definition

I

QBSUV

Micropower startup V

BS

supply current

I

QBS

Quiescent VBS supply current

V

BSMIN

Minimum required V

BS

voltage for proper

functionality from R

T

to HO

I

LK

Offset supply leakage current

V

F

Bootstrap diode forward voltage (IR21531D)

Min. Typ. Max. Units Test Conditions

µA

V

CC

≤

V

CCUV

-

— 010

— 3050

— 4.0 5.0

—

0.5

—

—

50

1.0

V V

CC

=V

CCUV+

+ 0.1V

µA

V

V

B

= V

S

= 600V

I

F

= 250mA

Oscillator I/O Characteristics

Symbol Definition

f

osc

Oscillator frequency

d R

T

pin duty cycle

I

CT

C

T

pin current

I

CTUV

UV-mode C

T

pin pulldown current

V

CT+

Upper C

T

ramp voltage threshold

V

CT-

Lower C

T

ramp voltage threshold

V

CTSD

C

T

voltage shutdown threshold

V

RT+

High-level R

T

output voltage, V

CC

- V

RT

V

RT-

V

RTUV

V

RTSD

Low-level R

T

output voltage

UV-mode R

T

output voltage

SD-Mode R

T

output voltage, V

CC

- V

RT

Min.

19.4

94

48

—

0.30

—

—

1.8

—

—

—

—

—

—

—

Typ.

20

100

50

0.001

0.70

8.0

4.0

2.1

10

100

10

100

0

10

10

Max. Units Test Conditions

20.6

106

52

1.0

1.2

—

—

2.4

50

300

50

300

100

50

300

kHz

%

uA

mA

V

I

RT

= 100µA

I

RT

= 1mA

I

RT

= 100µA

I

RT

= 1mA

V

CC

≤

V

CCUV

-

I

RT

= 100µA,

V

CT

= 0V

I

RT

= 1mA,

V

CT

= 0V

R

T

= 36.9kΩ

R

T

= 7.43kΩ

fo < 100kHz

V

CC

= 7V

mV

元器件交易网

IR21531D(S) & (PbF)

Electrical Characteristics (cont.)

Gate Driver Output Characteristics

Symbol Definition

V

OH

High level output voltage, V

BIAS

-V

O

VOL Low-level output voltage, VO

VOL_UV UV-mode output voltage, VO

t

r

t

f

t

sd

t

d

Output rise time

Output fall time

Shutdown propogation delay

Output deadtime (HO or LO)

Min.

—

—

—

—

—

—

0.35

Typ.

0

0

0

80

45

660

0.60

Max. Units Test Conditions

100

100

100

150

100

—

0.85

mV

I

O

= OA

I

O

= OA

I

O

= OA

V

CC

≤

V

CCUV

-

nsec

µsec

Lead Definitions

Symbol

V

CC

R

T

C

T

COM

LO

V

S

HO

V

B

Description

Logic and internal gate drive supply voltage

Oscillator timing resistor input

Oscillator timing capacitor input

IC power and signal ground

Low side gate driver output

High voltage floating supply return

High side gate driver output

High side gate driver floating supply

8 Lead DIP8 Lead SOIC

IR21531(D)

NOTE: The IR21531D is offered in 8 lead DIP only.

IR21531S

5

元器件交易网

IR21531D(S) & (PbF)

Functional Block Diagram for IR21531(S)

R

T

V

B

R

+

-

R

R

+

-

+

-

LOGICDEAD

TIME

DELAY

S

Q

Q

V

CC

15.6V

LO

DEAD

TIME

PULSE

GEN

HV

LEVEL

SHIFT

Q

PULSE

FILTER

R

S

V

S

HO

R/2

C

T

R/2

UV

DETECT

COM

Functional Block Diagram for IR21531D

R

T

V

B

R

+

-

R

R

+

-

+

-

LOGICDEAD

TIME

DELAY

S

Q

Q

V

CC

15.6V

LO

DEAD

TIME

PULSE

GEN

HV

LEVEL

SHIFT

Q

PULSE

FILTER

R

S

V

S

HO

D1

R/2

C

T

R/2

UV

DETECT

COM

NOTE: The D1 is a separate die.

元器件交易网

IR21531D(S) & (PbF)

8 Lead PDIP

01-3003 01

7

元器件交易网

IR21531D(S) & (PbF)

V

CLAMP

Vccuv+

Vcc

R

T

R

T

,C

T

2/3

1/3

C

T

td

LO

td

HO

Figure 1. Input/Output Timing Diagram

(HO)

(LO)

Figure 2. Switching Time Waveform Definitions

R

T

50%50%

90%

HO

LO

90%

10%

DT

10%

Figure 3. Deadtime Waveform Definitions

元器件交易网

IR21531D(S) & (PbF)

Part number

IRxxxxxx

YWW?

?XXXX

Lot Code

(Prod mode - 4 digit SPN code)

IR logoDate code

Pin 1

Identifier

?

P

MARKING CODE

Lead Free Released

Non-Lead Free

Released

Assembly site code

Per SCOP 200-002

Basic Part (Non-Lead Free)

8-Lead PDIP IR21531D order IR21531D

8-Lead SOIC IR21531S order IR21531S

Leadfree Part

8-Lead PDIP IR21531D order IR21531DPbF

8-Lead SOIC IR21531S order IR21531SPbF

IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105

This product has been qualified per industrial level

Data and specifications subject to change without notice. 4/2/2004

9