IOR IR2136, IR21362, IR21363, IR21365, IR21366 User Manual

Data Sheet No. PD60166 revS

IR2136/IR21362/IR21363/IR21365/

IR21366/IR21367/IR21368 (J&S) & (PbF)

Features

Floating channel designed for bootstrap operation

•

Fully operational to +600V

3-PHASE BRIDGE DRIVER

Packages

Tolerant to negative transient voltage - dV/dt immune
Gate drive supply range from 10 to 20V (IR2136/IR21368),

•

11.5 to 20V (IR21362) or 12 to 20V (IR21363/IR21365/
IR21366/IR21367)
Undervoltage lockout for all channels

•

Over-current shutdown turns off all six drivers

•

Independent 3 half-bridge drivers

•

Matched propagation delay for all channels

•

Cross-conduction prevention logic

•

Lowside outputs out of phase with inputs. High side

•

outputs out of phase (IR2136/IR21363/IR21365/
IR21366/IR21367/IR21368) or in phase
(IR21362) with inputs.

3.3V logic compatible

•

Lower di/dt gate driver for

•

better noise immunity
Externally programmable

•

delay for automatic fault
clear
Also available LEAD-FREE

•

Description

Part

Input Logic
Ton (typ.)
Toff (typ.)
VIH (typ.)
VIL (typ.)
Vitrip+
UV CC/BS+
UV CC/BS-

IR2136

HIN, LIN
400ns
380ns

2.7V

1.7V

0.46V

8.9V

8.2V

Feature Comparison: IR2136/IR21362/IR21363/

IR21362

HIN/LIN
400ns
380ns

2.7V

1.7V

0.46V

10.4V

9.4V

28-Lead SOIC

28-Lead PDIP

44-Lead PLCC w/o 12 leads

IR21365/IR21366/IR21367/IR21368

IR21363

HIN, LIN
400ns
380ns

2.7V

1.7V

0.46V

11.2V

11.0V

IR21365

HIN, LIN
400ns
380ns

2.7V

1.7V

4.3V

11.2V

11.0V

IR21366

HIN, LIN
250ns
180ns

2.0V

1.3V

0.46V

11.2V

11.0V

IR21367

HIN, LIN
250ns
180ns

2.0V

1.3V

4.3V

11.2V

11.0V

IR21368

HIN,LIN
400ns
380ns

2.0V

1.3V

4.3V

8.9V

8.2V

The IR2136/IR21362/IR21363/IR21365/IR21366/IR21367/IR21368(J&S) are high votage, high speed power MOSFET
and IGBT drivers with three independent high and low side referenced output channels for 3-phase applications.
Proprietary HVIC technology enables ruggedized monolithic construction. Logic inputs are compatible with CMOS
or LSTTL outputs, down to 3.3V logic. A current trip function which terminates all six outputs can be derived from
an external current sense resistor. An enable function is available to terminate all six outputs simultaneously. An
open-drain FAULT signal is provided to indicate that an overcurrent or undervoltage shutdown has occurred.
Overcurrent fault conditions are cleared automatically after a delay programmed externally via an RC network
connected to the RCIN input. The output drivers feature a high pulse current buffer stage designed for minimum
driver cross-conduction. Propagation delays are matched to simplify use in high frequency applications. The
floating channel can be used to drive N-channel power MOSFETs or IGBTs in the high side configuration which
operates up to 600 volts.

Typical Connection

HIN1,2,3 / HIN1,2,3

(Refer to Lead Assign­ments for correct pin con­figuration). This/These
diagram(s) show electri­cal connections only.
Please refer to our Appli­cation Notes and
DesignTips for proper cir­cuit board layout.

VCC

LIN1,2,3

FAULT

GND

VCC

HIN1,2,3 / HIN1,2,3

LIN1,2,3

EN

FAULT

EN

RCIN

ITRIP

VSS COM

VB1,2,3

HO1,2,3

VS1,2,3

LO1,2,3

IR2136(2)(3)(5)(6)(7)(8)

up to 600V

TO

LOAD

www.irf.com 1

IR2136(2)(3)(5)(6)(7)(8)

(

J& S) & (PbF

)

Absolute Maximum Ratings

Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters
are absolute voltages referenced to COM. The thermal resistance and power dissipation ratings are measured under board
mounted and still air conditions.

Symbol Definition Min. Max. Units

V

S

V

BS

V

HO

V

CC

V

SS

V

LO1,2,3

V

IN

V

FLT

dV/dt Allowable offset voltage slew rate — 50 V/ns

P

D

Rth

JA

T

J

T

S

T

L

High side offset voltage V

B1,2,3

- 25 V

B1,2,3

+ 0.3
High side floating supply voltage -0.3 625
High side floating output voltage V

S1,2,3

- 0.3 V

B1,2,3

+ 0.3
Low side and logic fixed supply voltage -0.3 25
Logic ground V

- 25 V

CC

CC

+ 0.3
Low side output voltage -0.3 VCC + 0.3
Input voltage LIN,HIN,ITRIP, EN, RCIN VSS - 0.3 lower of

(V

+ 15) or

SS

V

+ 0.3)

CC

FAULT output voltage VSS - 0.3 V

Package power dissipation @ T

≤ +25°C (28 lead PDIP) — 1.5

A

CC

+ 0.3

(28 lead SOIC) — 1.6

(44leadPLCC) — 2.0

Thermal resistance, junction to ambient (28 lead PDIP) — 83

(28 lead SOIC) — 78

(44 lead PLCC) — 63
Junction temperature — 150
Storage temperature -55 150
Lead temperature (soldering, 10 seconds) — 300

V

W

°C/W

°C

Recommended Operating Conditions

The Input/Output logic timing diagram is shown in figure 1. For proper operation the device should be used within the recom­mended conditions. All voltage parameters are absolute referenced to COM. The VS offset rating is tested with all supplies
biased at 15V differential.

Symbol Definition Min. Max. Units

V

B1,2,3

V

S1,2,3

V

HO1,2,3

V

LO1,2,3

V

CC

V

SS

V

FLT

V

RCIN

Note 1: Logic operational for VS of COM -5V to COM +600V. Logic state held for VS of COM -5V to COM -VBS.
(Please refer to the Design Tip DT97-3 for more details).
Note 2: All input pins and the ITRIP pin are internally clamped with a 5.2V zener diode.

2 www.irf.com

High side floating supply voltage IR2136(8) V

IR21362 V
IR2136(3)(5)(6)(7) V

S1,2,3

S1,2,3

S1,2,3

10 V

+

11.5 V

+

12 V

+

S1,2,3

S1,2,3

S1,2,3

High side floating supply offset voltage Note 1 600
High side output voltage V

S1,2,3

Low side output voltage 0 V

V

B1,2,3

CC

Low side and logic fixed supply voltage IR2136(8) 10 20

IR21362 11.5 20

IR2136(3)(5)(6)(7) 12 20
Logic ground -5 5
FAULT output voltage V
RCIN input voltage V

SS

SS

V

CC

V

CC

20

+

20

+

20

+

V

IR2136(2)(3)(5)(6)(7)(8)

(

J&S) & (PbF

Recommended Operating Conditions cont.

The Input/Output logic timing diagram is shown in figure 1. For proper operation the device should be used within the recom­mended conditions. All voltage parameters are absolute referenced to COM. The VS offset rating is tested with all supplies
biased at 15V differential.

Symbol Definition Min. Max. Units

V

ITRIP

V

IN

T

A

Note 2: All input pins and the ITRIP pin are internally clamped with a 5.2V zener diode.

ITRIP input voltage V
Logic input voltage , HIN (IR2136,IR21363(5)(6)(7)(8)),

HIN(IR21362), EN V

Ambient temperature -40 125

SS

SS

V

SS

V

SS

+5

+5

V

o

C

Static Electrical Characteristics

V

BIAS (VCC

are applicable to all six channels (HS1,2,3 and LS1,2,3). The VO and IO parameters are referenced to COM and VS1,2,3
and are applicable to the respective output leads: H

Symbol Definition Min. Typ. Max. Units Test Conditions

V

V

V

V

V

RCIN,TH+

V

RCIN,HYS

V

V

, VBS1,2,3) = 15V unless otherwise specified. The VIN, VTH and IIN parameters are referenced to VSS and

V

IH

V

EN,TH+

EN,TH-

IT,TH+

IT,HYS

V

OH

V

OL

CCUV+VCC

BSUV+

Logic “0” input voltage LIN1,2,3, HIN1,2,3

Logic “1” input voltage HIN1,2,3 IR21362

Logic “0” input voltage LIN1,2,3, HIN1,2,3

IR21366(7)(8) 2.5 — —

Logic “1” input voltage LIN1,2,3, HIN1,2,3

IL

Logic “0” input voltage HIN1,2,3 IR21362

Logic “0” input voltage LIN1,2,3, HIN1,2,3

IR21366(7)(8) — — 0.8

EN positive going threshold — — 3

EN negative going threshold 0.8 — —
ITRIP positive going threshold

ITRIP input hysteresis

RCIN positive going threshold — 8 —

RCIN input hysteresis — 3 —

High level output voltage, V

Low level output voltage, V

positive going threshold IR21362 9.6 10.4 11.2

and L

O1,2,3

IR2136(3)(5) 3.0 — —

IR2136(3)(5) — — 0.8

IR2136(2)(3)(6) 0.37 0.46 0.55

IR21365(7)(8) 3.85 4.30 4.75

IR2136(2)(3)(6) — 0.07 —

IR21365(7)(8) — .15 —

- V

BIAS

O

O

and VBS supply undervoltage IR2136(8) 8.0 8.9 9.8

IR21363(5)(6)(7) 10.6 11.1 11.6

O1,2,3.

— 0.9 1.4 IO = 20 mA

— 0.4 0.6 IO = 20 mA

V

)

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IR2136(2)(3)(5)(6)(7)(8)

(

J& S) & (PbF

)

Static Electrical Characteristics cont.

V

BIAS (VCC

are applicable to all six channels (HS1,2,3 and LS1,2,3). The VO and IO parameters are referenced to COM and VS1,2,3
and are applicable to the respective output leads: H

Symbol Definition Min. Typ. Max. Units Test Conditions

V

V

V

V

V

IN, CLAMP Input clamp voltage (HIN, LIN, ITRIP and EN)

I

I

R

ON,RCIN

R

, VBS1,2,3) = 15V unless otherwise specified. The VIN, VTH and IIN parameters are referenced to VSS and

and L

CCUV-

BSUV-

CCUVH

BSUVH

I

LK

I

QBS

I

QCC

I

LIN+

I

LIN-

I

HIN+

I

HIN-

ITRIP+

ITRIP-

I

EN+

I

EN-

I

RCIN

I

O+

I

O-

ON,FLT

O1,2,3

V

and V

CC

negative going threshold IR21362 8.6 9.4 10.2

V

and VBS supply undervoltage IR2136 0.3 0.7 —

CC

lockout hysteresis IR21362 0.5 1.0 —

Offset supply leakage current — — 50 V

Quiescent VBS supply current — 70 120

Quiescent VCC supply current — 1.6 2.3 mA

Input bias current (LOUT = HI) IR2136(2)(3)(5) — 200 300 V

Input bias current (LOUT = LO) IR2136(2)(3)(5) — 100 220 V

Input bias current (HOUT = HI) IR2136(3)(5) — 200 300 V

Input bias current (HOUT = LO) IR2136(3)(5) — 100 220 V

“high” ITRIP input bias current — 30 100 V

“low” ITRIP input bias current — 0 1 V

“high” ENABLE input bias current — 30 100 V

“low” ENABLE input bias current — 0 1 V

RCIN input bias current — 0 1 V

Output high short circuit pulsed current 120 200 — V

Output low short circuit pulsed current 250 350 — V

RCIN low on resistance — 50 100

FAULT low on resistance — 50 100

supply undervoltage IR2136(8) 7.4 8.2 9.0

BS

IR21363(5)(6)(7) 10.4 10.9 11.4

IR21363(5) — 0.2 —

IR21366(7)(8)

IR21366(7)(8)

IR21366(7)(8)

IR21362(6)(7)(8)

O1,2,3.

IR21362

V

µA

4.9 5.2 5.5 V I

—01

—01

— 30 100

—01

—01

µA

mA

Ω

B1,2,3=VS1,2,3=600V

V

= 0V or 5V

IN

IN =100µA

LIN = 5V

LIN = 0V

HIN = 5V

HIN = 0V

= 5V

ITRIP

= 0V

ITRIP

= 5V

ENABLE

= 0V

ENABLE

= 0V or 15V

RCIN

=0V, PW ≤ 10 µs

O

=15V, PW ≤10 µs

O

4 www.irf.com

IR2136(2)(3)(5)(6)(7)(8)

(

J&S) & (PbF

Dynamic Electrical Characteristics

VCC = VBS = V

Symbol Definition Min. Typ. Max. Units Test Conditions

t

on

t

off

t

r

t

f

t

EN

t

ITRIP

t

bl

t

FLT

t

FILIN

t

FLTCLR

DT Deadtime 220 290 360 VIN = 0 & 5V

MT Matching delay ON and OFF — 40 75

MDT Matching delay, max (ton,t

PM Output pulse width matching, PWin -PWout (fig.2) — 40 75

NOTE: For high side PWM, HIN pulse width must be ≥ 1µsec

= 15V, V

BIAS

Turn-on propagation delay IR2136(2)(3)(5)(8) 300 425 550

Turn-off propagation delay IR2136(2)(3)(5)(8) 250 400 550

Turn-on rise time — 125 190

Turn-off fall time — 50 75

ENABLE low to output IR2136(2)(3)(5)(8) 300 450 600 V

shutdown propagation delay IR21366(7) 100 250 400

ITRIP to output shutdown propagation delay 500 750 1000 V

ITRIP blanking time 100 150 — VIN = 0V or 5V

ITRIP to FAULT propagation delay 400 600 800 V

Input filter time (HIN, LIN, EN) 100 200 — VIN = 0 & 5V

(IR2136(2)(3)(5)(8) only)

FAULT clear time RCIN: R=2meg, C=1nF 1.3 1.65 2 mS V

(ton,toff are applicable to all 3 channels)

= VSS = COM, TA = 25oC and CL = 1000 pF unless otherwise specified.

S1,2,3

IR21366(7) — 250 —

IR21366(7) — 180 —

) - min (ton,t

off

), — 25 70

off

nS

nS

VIN = 0 & 5V

= 0V or 5V

IN, VEN

= 5V

ITRIP

V

= 5V

ITRIP

= 0V or 5V

IN

V

= 5V

ITRIP

= 0V or 5V

IN

V

= 0V

ITRIP

External dead

time

>400nsec

)

VCC VBS ITRIP ENABLE FAULT LO1,2,3 HO1,2,3

<UVCC X X X 0 (note 1) 0 0

15V <UVBS 0V 5V high imp LIN1,2,3 0

15V 15V 0V 5V high imp LIN1,2,3 HIN1,2,3

15V 15V >V

ITRIP

5V 0 (note 2) 0 0

15V 15V 0V 0V high imp 0 0

Note: A shoot-through prevention logic prevents LO1,2,3 and HO1,2,3 for each channel from turning on simultaneously.
Note 1: UVCC is not latched, when VCC>UVCC, FAULT returns to high impedance.
Note 2: When ITRIP <V

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, FAULT returns to high-impedance after RCIN pin becomes greater than 8V (@ VCC = 15V)

ITRIP

IR2136(2)(3)(5)(6)(7)(8)

Functional Block Diagram

(

J& S) & (PbF

)

HIN1

LIN1

HIN2

LIN2

HIN3

LIN3

VSS

ITRIP

RCIN

FAULT

EN

+

-

0.5V

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE
FILTER

DEADTIME &

SHOOT-THROUGH

PREVENTION

DEADTIME &

SHOOT-THROUGH

PREVENTION

DEADTIME &

SHOOT-THROUGH

PREVENTION

UV

DETECT

S

SET

DOMINANT

R

LATCH

IR2136/21363/21365

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

Q

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

SET

RESET

SET

RESET

SET

RESET

DELAY

DELAY

DELAY

LATCH

UV

DETECT

LATCH

UV

DETECT

LATCH

UV

DETECT

DRIVER

DRIVER

DRIVER

DRIVER

DRIVER

DRIVER

VB1

HO1

VS1

VB2

HO2

VS2

VB3

HO3

VS3

VCC

LO1

LO2

LO3

COM

6 www.irf.com

Functional Block Diagram

IR2136(2)(3)(5)(6)(7)(8)

(

J&S) & (PbF

)

HIN1

LIN1

HIN2

LIN2

HIN3

LIN3

VSS

ITRIP

RCIN

FAULT

EN

+

-

0.5V

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

INPUT
NOISE

FILTER

DEADTIME &

SHOOT-THROUGH

PREVENTION

DEADTIME &

SHOOT-THROUGH

PREVENTION

DEADTIME &

SHOOT-THROUGH

PREVENTION

DETECT

S

SET

DOMINANT

R

LATCH

UV

Q

IR21362

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

RESET

RESET

RESET

DELAY

DELAY

DELAY

SET

LATCH

UV

DETECT

DRIVER

HO1

VS1

VB2

VB1

SET

LATCH

UV

DETECT

DRIVER

HO2

VS2

VB3

SET

LATCH

UV

DETECT

DRIVER

HO3

VS3

VCC

DRIVER

DRIVER

DRIVER

LO1

LO2

LO3

COM

www.irf.com 7

IR2136(2)(3)(5)(6)(7)(8)

Functional Black Diagram

(

J& S) & (PbF

)

HIN1

LIN1

HIN2

LIN2

HIN3

LIN3

VSS

EN

ITRIP

RCIN

FAULT

IR21366/IR21367/IR21368

DEADTIME &

SHOOT-THROUGH

PREVENTION

VSS/COM

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

SET

RESET

LATCH

UV

DETECT

DRIVER

VB1

HO1

VS1

VB2

SET

DEADTIME &

SHOOT-THROUGH

PREVENTION

VSS/COM

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

RESET

LATCH

UV

DETECT

DRIVER

HO2

VS2

VB3

SET

DEADTIME &

SHOOT-THROUGH

PREVENTION

VSS/COM

LEVEL

SHIFTER

HV

LEVEL

SHIFTER

RESET

LATCH

UV

DETECT

DRIVER

HO3

VS3

VCC

S

DOMINANT

R

DETECT

SET

LATCH

UV

Q

INPUT
NOISE

FILTER

+

-

INPUT
NOISE

FILTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

VSS/COM

LEVEL

SHIFTER

DELAY

DELAY

DELAY

DRIVER

DRIVER

DRIVER

LO1

LO2

LO3

COM

8 www.irf.com

IR2136(2)(3)(5)(6)(7)(8)

(

J&S) & (PbF

Lead Definitions

Symbol Description

V

CC

VSS Logic Ground

HIN1,2,3 Logic inputs for high side gate driver outputs (HO1,2,3), out of phase (IR2136/IR21363(5)(6)(7)(8)
HIN1,2,3 Logic inputs for high side gate driver outputs (HO1,2,3), in phase (IR21362)

LIN1,2,3 Logic inputs for low side gate driver outputs (LO1,2,3), out of phase
FAULT Indicates over-current (ITRIP) or low-side undervoltage lockout has occured. Negative logic,

EN Logic input to enable I/O functionality. Positive logic, i.e. I/O logic functions when ENABLE is

ITRIP Analog input for overcurrent shutdown. When active, ITRIP shuts down outputs and activates

RCIN External RC network input used to define FAULT CLEAR delay, T

COM Low side gate driver return

VB1,2,3 High side floating supply

HO1,2,3 High side gate driver outputs

V

S1,2,3

LO1,2,3 Low side gate driver output

Low side and logic fixed supply

open-drain output

high. No effect on FAULT and not latched

FAULT and RCIN low. When ITRIP becomes inactive, FAULT stays active low for an externally
set time T

to R*C. When RCIN>8V, the FAULT pin goes back into open-drain high-impedance

High voltage floating supply returns

, then automatically becomes inactive (open-drain high impedance).

FLTCLR

FLTCLR

, approximately equal

)

Note: All input pins and the ITRIP pin are internally clamped with a 5.2V zener diode.

www.irf.com 9

IR2136(2)(3)(5)(6)(7)(8)

Lead Assignments

(

J& S) & (PbF

)

1

VCC

2

HIN1

3

HIN2

4

HIN3

5

LIN1

6

LIN2

7

LIN3

FAULT

ITRIP

EN

RCIN

VSS

COM

LO3

IR2136

8

9

10

11

12

13

14

VB1

HO1

VS1

VB2

HO2

VS2

VB3

HO3

VS3

LO1

LO2

28

27

26

25

24

23

22

21

20

19

18

17

16

15

LIN1

LIN2

LIN3

FAULT

ITRIP

RCIN

7

8

9

10

11

12

13

14

15

16

EN

17

18

VCC

HIN1

HIN2

HIN3

44 LEAD PLCC w/o 12 LEADS

IR2136

19 20 21 22 23 24 25

COM

LO3

VSS

VS1

HO1

VB1

41

42433456

37

VB2

36

HO2

35

VS2

31

VB3

30

HO3

29

VS3

LO2

LO1

1

VCC

2

HIN1

3

HIN2

4

HIN3

5

LIN1

6

LIN2

7

LIN3

FAULT

ITRIP

EN

RCIN

VSS

COM

LO3

IR2136

8

9

10

11

12

13

14

VB1

HO1

VS1

VB2

HO2

VS2

VB3

HO3

VS3

LO1

LO2

28

27

26

25

24

23

22

21

20

19

18

17

16

15

28 Lead PDIP 44 Lead PLCC w/o 12 leads 28 lead SOIC (wide body)

IR2136/IR21363(5)(6)(7)(8) IR2136/IR21363(5)(6)(7)(8) (J) IR2136/IR21363(5)(6)(7)(8) (S)

VS1

HO1

LO3

LO2

VB1

LO1

1

42433456

37

VB2

36

HO2

35

VS2

31

VB3

30

HO3

29

VS3

2

HIN1

3

HIN2

4

HIN3

5

LIN1

6

LIN2

7

LIN3

8

FAULT

9

ITRIP

10

EN

11

RCIN

12

VSS

13

COM

14

LO3

41

VCC

VB1

HO1

VS1

VB2

HO2

VS2

VB3

HO3

VS3

LO1

LO2

VCC

HIN1

HIN2

LIN1

LIN2

LIN3

HIN3

7

8

9

10

11

12

13

14

15

16

EN

17

18

19 20 21 22 23 24 25

VSS

COM

1

VCC

2

HIN1

3

HIN2

4

HIN3

5

LIN1

6

LIN2

7

LIN3

8

FAULT

9

ITRIP

10

EN

11

RCIN

12

VSS

13

COM

14

LO3

VB1

HO1

VS1

VB2

HO2

VS2

VB3

HO3

VS3

LO1

LO2

28

27

26

25

24

23

22

21

20

19

18

17

16

15

FAULT

ITRIP

RCIN

28

27

26

25

24

23

22

21

20

19

18

17

16

15

28 Lead PDIP 44 Lead PLCC w/o 12 leads 28 lead SOIC (wide body)

IR21362 IR21362J IR21362S

10 www.irf.com

HIN1,2,3

HIN1,2,3

LIN1,2,3

FAULT

ITRIP

RCIN

EN

HO1,2,3

LO1,2,3

IR2136(2)(3)(5)(6)(7)(8)

Figure 1. Input/Output Timing Diagram

(

J&S) & (PbF

)

LIN1,2,3

HIN1,2,3

LIN1,2,3

HIN1,2,3

HO1,2,3

LO1,2,3

Figure 2. Switching Time Waveforms

50% 50%

PW

IN

50% 50%

ton tr tftoff

PW

OUT

90%

50%

EN

ten

HO1,2,3

90%

LO1,2,3

90%

10%10%

Figure 3. Output Enable Timing Waveform

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