IR7304SPBF_技术文档

IR7304SPBF

700V Half-Bridge Driver

Features

Product Summary



Drives IGBT/MOSFET power devices

V_OFFSET

≤ 700V

10V – 20V

60mA / 130mA

220ns & 220ns

100ns

Gate drive supplies up to 20V per channel

Integrated deadtime protection 100ns

Shoot-through (cross-conduction) protection

Undervoltage lockout for V_CCand for V_BS

3.3V, 5V, 15V input logic compatible

Output in phase with input

Tolerant to negative transient voltage

Designed for use with bootstrap power supplies

Matched propagation delays

V_OUT

I_o+& I_o-(min.)

t_ON& t_OFF(typ.)

Deadtime (typ.)

RoHS compliant

Lead-Free

Description

Package Options

The IR7304S is a high voltage, high speed, power

MOSFET and IGBT gate driver with high-side and low-side

referenced output channel. This IC is designed to be used

with low-cost bootstrap power supplies. Proprietary HVIC

and latch immune CMOS technologies have been

implemented in a rugged monolithic structure. The floating

logic input is compatible with standard CMOS or LSTTL

outputs (down to 3.3 V logic). The output drivers feature a

high-pulse current buffer stage designed for minimum driver

cross-conduction. Shoot-through protection circuitry and a

minimum deadtime circuitry have been integrated into this

IC. Propagation delays are matched to simplify the HVIC’s

use in high frequency applications. The floating channels

can be used to drive N-channel power MOSFETs or IGBTs

in the high-side configuration, which operate up to 700 V.

8-Lead SOIC

Typical Applications



Appliance motor drives

Servo drives

Micro inverter drives

General purpose three phase inverters

Standard Pack

Base Part Number

Package Type

Orderable Part Number

Form

Tube

Quantity

95

IR7304SPBF

SO8N

IR7304SPBF

Tape and Reel

2500

IR7304STRPBF

1

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June 18, 2015

IR7304SPBF

Typical Connection Diagram

Up to 700V

V_CC

V_B

HO

V_S

LIN

HIN

V_CC

HIN

To Load

COM

LO

(Refer to Lead Assignments for correct pin configuration). This diagram shows electrical connections only. Please refer tour

Application Notes & DesignTips for proper circuit board layout.

2

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June 18, 2015

IR7304SPBF

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 unless otherwise stated in the table. The thermal resistance and power dissipation

ratings are measured under board mounted and still air conditions.

Symbol

Definition

Low side supply voltage

Min.

-0.3

Max.

25^†

Units

V_CC

V_IN

V_B

Logic input voltage

COM - 0.3

-0.3

V_CC+ 0.3

725

High-side floating well supply voltage

High-side floating well supply return voltage

Floating gate drive output voltage

Low-side output voltage

V_S

V_B- 25

V_S- 0.3

COM - 0.3

V_CC- 25

—

V_B+ 0.3

V_CC+ 0.3

50

V

V_HO

V_LO

COM

dV_S/dt

P_D

Power ground

Allowable V_Soffset supply transient relative to V_SS

Package power dissipation @ T_A+25ºC

Thermal resistance, junction to ambient

Junction temperature

V/ns

W

—

0.625

200

Rth_JA

T_J

—

ºC/W

—

150

T_S

Storage temperature

-55

150

ºC

T_L

Lead temperature (soldering, 10 seconds)

—

300

†

All supplies are tested at 25V.

Recommended Operating Conditions

For proper operation, the device should be used within the recommended conditions. All voltage parameters are absolute

voltages referenced to COM unless otherwise stated in the table. The offset rating is tested with supplies of (V_CC- COM) = (V_B

- V_S) = 15V.

Symbol

V_CC

Definition

Low-side supply voltage

Min

10

Max

20

Units

V_IN

IN, /SD input voltage

COM

V_S+ 10

V_CC

V_B

High-side floating well supply voltage

High-side floating well supply offset voltage^†

Floating gate drive output voltage

Low-side output voltage

V_S+ 20

V_S

V_HO

†

V_s

700

V_B

V

V_LO

COM

-5

V_CC

5

COM

PW_HIN

T_A

Power ground

High side Input pulse

500

-40

—

ns

ºC

Ambient temperature

125

†

V_{S of –5V to 700V. Logic state held for}V

S of –5V to –V_BS. Please refer to Design Tip DT97-3 for

Logic operation for

more details.

3

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June 18, 2015

IR7304SPBF

Static Electrical Characteristics

(V_CC- COM) = (V_B- V_S) = 15V. T_A= 25^oC unless otherwise specified. The V_INand I_INparameters are referenced to COM. The

V_Oand I_Oparameters are referenced to respective V_Sand COM and are applicable to the respective output leads HO or LO.

The

parameters are referenced to COM. The

parameters are referenced to V_S.

V_CCUV

V_BSUV

Symbol

Definition

Min.

8

Typ.

8.9

Max. Units Test Conditions

9.8

V_CCUV

V_CCsupply undervoltage positive going threshold

V_CCsupply undervoltage negative going threshold

V_CCsupply undervoltage hysteresis

+

V_CCUV

7.4

8.2

9

-

V_CCUVHY

0.3

8

0.7

8.9

8.2

0.7

—

V

V_BSUV

V_BSsupply undervoltage positive going threshold

V_BSsupply undervoltage negative going threshold

V_BSsupply undervoltage hysteresis

9.8

+

V_BSUV

7.4

0.3

—

9

-

V_BSUVHY

I_LK

—

High-side floating well offset supply leakage

Quiescent V_BSsupply current

50

150

240

2.8

1.2

V_B= V_S= 700V

I_QBS

60

µA

V

V_IN= 0V, V_IN= 5V

I_QCC

V_OH

Quiescent V_CCsupply current

120

—

High level output voltage drop, V_BIAS-V_O

Low level output voltage drop, V_O

I_O= 20mA

V_OL

—

V_O= 15 V,V_IN= 5V,

PW ≤ 10µs

V_O= 0V,V_IN= 0V,

PW ≤ 10µs

I_o+

I_o-

Output high short circuit pulsed current

Output low short circuit pulsed current

60

—

mA

130

V_IH

V_IL

Logic “1” input voltage

2.3

—

5

—

0.8

40

2

V

Logic “0” input voltage

I_IN+

I_IN-

Input bias current (HO = High)

Input bias current (HO = Low)

V_IN= 5V

V_IN= 0V

µA

1

Dynamic Electrical Characteristics

V_CC= V_B= 15V, V_S= COM, T_A= 25^oC, and C_L= 1000pF unless otherwise specified.

Symbol Definition

Min.

—

Typ.

220

200

100

—

Max. Units Test Conditions

t_ON

t_OFF

t_R

Turn-on propagation delay

320

330

300

170

190

50

V_S= 0V

—

Turn-off propagation delay

Turn-on rise time

Turn-off fall time

V_S= 0V or 700V

ns

t_F

DT

MT

Deadtime

—

Delay matching time

4

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June 18, 2015

IR7304SPBF

Functional Block Diagram

VB

UV DETECT

HO

R

S

Q

PULSE

FILTER

HV LEVEL

SHIFTER

VS

PULSE

GENERATOR

HIN

SHOOT THROUGH

PREVENTION LOGIC

VCC

LO

UV DETECT

DELAY

COM

LIN

5

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June 18, 2015

IR7304SPBF

Lead Definitions

Symbol

Description

VCC

VB

Low-side and logic supply voltage

High-side gate drive floating supply

High voltage floating supply return

Logic input for high-side driver output

Logic input for low-side driver output

High-side driver output

VS

HIN

LIN

HO

LO

Low-side driver output

COM

Low-side gate drive return

Lead Assignments

8

7

6

5

V_B

LIN

1

2

HIN

HO

V_S

V_CC

3

4

COM

LO

8-Lead SOIC

6

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June 18, 2015

IR7304SPBF

Application Information and Additional Details

Figure 1. Input/Output Functionality Diagram

HIN

50%

LIN

50%

HIN

LIN

t_off

t_r

90%

t_f

t_on

10%

LO

90%

HO

LO

HO

DT

90%

DT

10%

Figure X. Internal Deadtime Timing

Figure 2. Switch Timing Waveforms

Figure 3. Internal Deadtime Timing

7

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June 18, 2015

IR7304SPBF

Package Details

8

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June 18, 2015

IR7304SPBF

Tape and Reel Details

LOADED TAPE FEED DIRECTION

B

A

H

D

F

C

NOTE : CONTROLLING

DIMENSION IN MM

E

G

CARRIER TAPE DIMENSION FOR 8SOICN

Metric Imperial

Code

A

B

C

D

E

F

G

H

Min

7.90

3.90

11.70

5.45

6.30

5.10

1.50

Max

8.10

4.10

12.30

5.55

6.50

5.30

n/a

Min

Max

0.318

0.161

0.484

0.218

0.255

0.208

n/a

0.311

0.153

0.46

0.214

0.248

0.200

0.059

1.60

0.062

F

D

B

C

A

E

G

H

REEL DIMENSIONS FOR 8SOICN

Metric

Imperial

Code

A

B

C

D

E

F

G

H

Min

329.60

20.95

12.80

1.95

98.00

n/a

14.50

12.40

Max

330.25

21.45

13.20

2.45

102.00

18.40

17.10

14.40

Min

12.976

0.824

0.503

0.767

3.858

n/a

Max

13.001

0.844

0.519

0.096

4.015

0.724

0.673

0.566

0.570

0.488

9

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June 18, 2015

IR7304SPBF

Part Marking Information

Part number

Date code

IR7304S

YWW ?

IR logo

Pin 1

Identifier

? XXXX

Lot Code

(Prod mode –

4 digit SPN code)

?

MARKING CODE

P

Lead Free Released

Non-Lead Free Released

Assembly site code

Per SCOP 200-002

10 www.irf.com

June 18, 2015

IR7304SPBF

Qualification Information^†

Industrial^††

Comments: This family of ICs has passed JEDEC’s

Industrial qualification. IR’s Consumer qualification level is

granted by extension of the higher Industrial level.

Qualification Level

MSL2^†††, 260C

(per IPC/JEDEC J-STD-020)

Moisture Sensitivity Level

8 Lead SOIC

Class 1C

(per JEDEC standard JS-001-2012)

Human Body Model

Machine Model

ESD

Class B

(per EIA/JEDEC standard EIA/JESD22-A115)

Class I, Level A

(per JESD78)

Yes

IC Latch-Up Test

RoHS Compliant

†

††

Qualification standards can be found at International Rectifier’s web site http://www.irf.com/

Higher qualification ratings may be available should the user have such requirements. Please contact your

International Rectifier sales representative for further information.

†††

Higher MSL ratings may be available for the specific package types listed here. Please contact your International

Rectifier sales representative for further information.

11 www.irf.com

June 18, 2015


型号：	IR7304SPBF
厂家：	Infineon
描述：	700V Half-Bridge Driver
文件：	总11页 (文件大小：531K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

IR7304SPBF [INFINEON]

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