Symbol

Parameter

Min.

Max.

Units

B1,2,3

High Side Floating Supply Absolute Voltage

-0.3

S1,2,3

+ 20

S1,2,3

High Side Floating Supply Offset Voltage

- 5

+ 400

HO1,2,3

High Side Output Voltage

S1,2,3

- 0.3

S1,2,3

+ 0.3

Low Side Fixed Supply Voltage

-0.3

Low Side Driver Return

-5

+ 0.3

LO1,2,3

Low Side Output Voltage

- 0.3

+ 0.3

Logic

Input Voltage (HIN, LIN & SD)

-0.3

+ 0.3

FLT

Fault

Output Voltage

-0.3

+ 0.3

CAO

Operational Amplifier Output Voltage

-0.3

+ 0.3

CA-

Operational amplifier Inverting Input Voltage

-0.3

+ 0.3

dVS/dt

Allowable Offset Supply Voltage Transient (Fig. 16)

V/nS

Package Power Dissipation @ TA< = 25癈 (Fig. 19)

1.5

thJA

Thermal Resistance, Junction to Ambient

癈/W

Junction Temperature

-55

125

Storage Temperatue

-55

150

癈

Lead Temperature (Soldering, 10 seconds)

300

Weight

6.1 (typical)

Features

Hermetic

Floatingchanneldesignedforbootstrap

operation
Fully operational to +400V
Tolerant to negative transient voltage
dV/dt immune

Gate drive supply range from 10 to 20V

Undervoltage lockout for all channels

Over-current shutdown turns off all six drivers

Independent half-bridge drivers

Matched propagation delay for both channels

Outputs in phase with inputs

PD-60022B

IR2130D

3-PHASE DRIVER

Product Summary

OFFSET

400V max.

+/-

200 mA / 420 mA

OUT

10 - 20V

on/off

(typ.)

675 & 425 ns

Deadtime (typ.)

0.9 祍

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 Vso. The Thermal Resistance and Power Dissipation ratings are measured
under board mounted and still air conditions.

Description

The IR2130D is a high voltage, high speed power MOSFET
and IGBT driver with three independent high and low side
referenced output channels. Proprietary HVIC technology
enables ruggedized monolithic construction. Logic inputs
are compatible with 5V CMOS or LSTTL outputs. A ground-
referenced operational amplifier provides analog feedback
of bridge current via an external current sense resistor. A
current trip function which terminates all six outputs is also
derived from this resistor.

3/1/00

An open drain

FAULT

signal indicates if an over-

current or undervoltage shutdown has occurred.
The output driverhgre a high pulse current
buffer stage designed for minimum driver cross-con
duction. Propagation delays are matched to simplify
use at high frequencies. The floating channels can
be used to drive N-channel power MOSFETs or
IGBTs in the high side configuration which operate
up to 400 volts.

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IR2130D

www.irf.com

125癈

Symbol

Parameter Min. Typ. Max. Min. Max. Units Test Conditions

Turn-On Propagation Delay 500

675 850

850

(all six channels)

CL= 1000pF

Turn-On Rise Time (all six channels) --

125

175

S1,2,3

= 0 to 400 V

off

Turn-Off Propagation Delay 300 425 550

600

VIN = 0 & 5 V

(all six channels)

Turn-Off Fall Time (all six channels) -- 35

Deadtime (LS Turn-off to HS Turn-on 0.4 0.9

1.3

0.25

1.5

祍

CL = 1000pF,

& HS Turn-off to LS Turn-on)

VIN = 0 & 5V

itrip

ITRIP to Output Shutdown Prop. Delay 400 660 920

1100

CL = 1000pF,

flt

ITRIP to FAULT Indication Delay 335 590 845

1000

VIN, VITRIP = 0 & 5V

fltclr

LIN1, 2, 3 To FAULT Clear Time 5.5 10

12.5

祍

flt,in

Input Filter Time (all six inputs) --

310 --

VIN = 0 & 5V

ITRIP Blanking Time -- 400 --

VITRIP = 1V

SR+

Amplifier Slew Rate (+) 4.4 6.2

2.7

V/祍

SR-

Amplifier Slew Rate (-) 2.4 3.2

1.5

V/祍

Symbol

Parameter

Min.

Max.

Units

B1,2,3

High Side Floating Supply Voltage

S1,2,3

+ 10

S1,2,3

+ 20

S1,2,3

High Side Floating Supply Offset Voltage

- 5

+ 400

HO1,2,3

High Side Output Voltage

S1,2,3

B1,2,3

Low Side Fixed Supply Voltage

Logic Ground

-5

LO1,2,3

Low Side Output Voltage

Logic Input Voltage (HIN, LIN & SD)

+ 5

FLT

Fault

Output Voltage

CAO

Operational Amplifier Output Voltage

CA-

Operational Amplifier Inverting Input Voltage

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 voltages referenced to VS0. The
VS offset rating is tested with all supplies biased at 15V differential.

Dynamic Electrical Characteristics

VBIAS (VCC, VBS1,2,3) = 15V, VS0,1,2,3 = VSS, CL = 1000 pF unless otherwise specified.

Typical Connection

Tj = 25癈

Tj = -55 to

IR2130D

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Static Electrical Characteristics

VBIAS (VCC, VBS1, 2, 3) = 15V, VSO1, 2, 3 = VSS unless otherwise specified. The VIN, VTH and IIN parameters are
referenced to VSS and are applicable to all six logic input leads: HIN1, 2, 3 & LIN1, 2, 3. The VO and IO parameters are
referenced to VSO1, 2, 3.

Tj = 25癈

Tj=55-125癈

Symbol

Parameter

Min.

Typ.

Max.

Min.

Max.

Units

Test Conditions

Offset Supply Leakage Currents

500

VB = VS=400V

QBS

Quiescent V

Supply Current

VIN = 0V or 5V

QCC

Quiescent V

Supply

Current

3.0

4.0

6.0

VIN = 0V or 5V

Logic "1" Input Bias Current(OUT= HI)

450

650

1050

VIN = 0V

Logic "0" Input Bias Current(OUT=LO)

225

400

礎

VIN = 5V

ITRIP

"High" ITRIP Bias Current

150

ITRIP = 5V

ITRIP

"Low" ITRIP Bias Current

100

170

ITRIP =0V

Logic "0" Input Voltage( OUT = LO )

2.2

Logic "1" Input Voltage ( OUT = HI )

0.8

IT,TH

ITRIP Input Positive Going Threshold

400

490

580

350

580

Amplifier Input Offset Voltage

VSO

= CA-

= 0.2V

on,FLT

FAULT- Low On Resistance

150

CA- Input Bias Current

0.5

4.0

CA-

= 2.5V

CCUV

Supply Undervoltage Positive

8.3

9.0

10.6

8.0

10.7

Going Threshold

CCUV

Supply Undervoltage Negative

8.0

8.7

10.5

7.7

10.5

Going Threshold

BSUV

Supply Undervoltage Positive

7.5

8.4

9.2

Going Threshold

BSUV

Supply Undervoltage Negative

7.1

8.0

8.8

Going Threshold

Output High Short Circuit Pulsed

200

250

VOUT

= VIN-

= 0V

Current

PW <= 10礢

Output Low Short Circuit Pulsed

420

500

VOUT

=15, VIN-=5V

Current

PW <= 10礢

OH,Amp

Amplifier High Level Output Voltage

5.0

5.2

5.4

4.9

5.6

CA-

= 0V, VSO

=1V

OL,Amp

Amplifier Low Level Output Voltage

2.5

CA-

= 1V, VSO

=0V

SRC,Amp

Amplifier Output Source Current

2.3

4.0

1.5

CA-

= 0V, VSO

=1V, CAO=4V

SNK,Amp

Amplifier Output Sink Current

1.0

2.1

0.5

CA-

= 1V, VSO

=0V,CAO=2V

CMRR

Amplifier Common Mode Rejection

CA-

=VSO

=0.1V & 5V

Ratio

PSRR

Amplifier Power Supply Rejection

CA-

= VSO

=0.2V

Ratio

VCC = 10V & 20V

High Level Output Voltage

100

VIN- = 0V, IO = 0A

Low Level Output Voltage

100

VIN- = 5V, IO = 0A

礎

IR2130D

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Static Electrical Characteristics Continued

VBIAS (VCC, VBS1, 2, 3) = 15V, VSO1, 2, 3 = VSS unless otherwise specified. The VIN, VTH and IIN
parameters are referenced to VSS and are applicable to all six logic input leads: HIN1, 2, 3 & LIN1, 2, 3.
The VO and IO parameters are referenced to VSO1, 2, 3.

Tj = 25癈

Tj = 55 to 125癈

Symbol

Parameter Min. Typ. Max.

Min.

Max.

Units

Test Conditions

O+,Amp

Amplifier Output High Short Circuit

-- 4.5 6.5

8.0

CA-

= 0V, VSO

= 5V

Circuit

VCAO = 0V

O-,Amp

Amplifier Output High Short Circuit -- 3.2 5.2

7.0

CA-

= 5V, VSO

= 0V

Circuit

VCAO = 5V

IR2130D

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Figure 3. Deadtime Waveform Definitions

Figure 4. Input/Output Switching Time Waveform

Definitions

Figure 1. Input/Output Timing Diagram

Figure 2. Floating Supply Voltage Transient Test Circuit

Figure 5. Overcurrent Shutdown Switching Time Waveform

Definitions

Figure 6. Diagnostic Feedback Operational Amplifier

Circuit

LO1,2,3

HO1,2,3

ITRIP

FAULT

LIN1,2,3

HIN1,2,3

off

50%

90%

10%

50%

HIN1,2,3

LIN1,2,3

HO1,2,3

LO1,2,3

HIN1,2,3
LIN1,2,3

LO1,2,3

HO1,2,3

CAO

CA-

50%

flt

itrip

fltclr

FAULT

LIN1,2,3

ITRIP

LO1,2,3

协谢械泻褌褉芯薪薪褘泄 泻芯屑锌芯薪械薪褌: IR2130D

协谢械泻褌褉芯薪薪褘泄泻芯屑锌芯薪械薪褌: IR2130D