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HIP2060

April 1998

60V, 10A Half Bridge Power MOSFET Array

Description

The HIP2060 is a power half-bridge MOSFET array that con-

sists of two matched N-Channel enhancement-mode MOS

transistors. The advanced Intersil PASIC2 process technol-

ogy used in this product utilizes efﬁcient geometries that pro-

vides outstanding device performance and ruggedness.

The HIP2060 is designed to integrate two power devices in

one chip thus providing board layout area and heat sink sav-

ings for applications such as Motor Controls, Uninterruptable

Power Supplies, Switch Mode Power Supplies, Voice Coil

Motors, and Class D Power Ampliﬁer.

Features

• Two 10A Power MOS N-Channel Transistors

• Output Voltage to 60V

• r

DS(ON)

. . . . . 0.135Ω Max Per Transistor at V

GS

= 15V

• r

DS(ON)

. . . . . . 0.15Ω Max Per Transistor at V

GS

= 10V

• Pulsed Current . . . . . . . . . . . . . . . . 25A Each Transistor

• Avalanche Energy . . . . . . . . . . 100mJ Each Transistor

• Grounded Tab Eliminates Heat Sink Isolation

Ordering Information

PART NUMBER

HIP2060AS1

HIP2060AS2

HIP2060AS3

TEMP.

RANGE (

o

C)

-40 to 125

PACKAGE

5 Ld SIP

5 Ld Gullwing SIP

5 Ld SIP

PKG.

NO.

Z5.067C

Z5.067A

Z5.067B

GATE1

1

SOURCE1 = DRAIN2

4

GATE2

2

Z2

Z1

D1

Symbol

DRAIN1

5

NOTE: When ordering use the entire part number.

SOURCE2

3, TAB

Packages

JEDEC TS-001AA (ALTERNATE VERSION)

HIP2060 AS1

54

3

2

JEDEC MO-169

HIP2060 AS2

1

1 GATE1

2 GATE2

3 SOURCE2

4 SOURCE1-DRAIN2

5 DRAIN1

(TAB)

Z5.067B (SIP)

HIP2060 AS3

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

http://www.intersil.com or 407-727-9207

|

Copyright

©

Intersil Corporation 1999

File Number

3983.5

1

HIP2060

Absolute Maximum Ratings

T

C

= 25

o

C, Unless Otherwise Speciﬁed

HIP2060

60

±20

10

25

10

100

46

0.37

60

-40 to 125

-40 to 150

300

60

UNITS

V

A

mJ

W

W/

o

C

o

C/W

o

C

o

C

o

C

Continuous Drain-Source Voltage Over Operating Junction and Case Temperature Range. . . . . . V

DS

Drain-Gate Voltage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V

DGR

Gate-Source Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . V

GS

Continuous Source-Drain Diode Current (Note 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I

SD

Pulsed Drain Current, each Output, all Outputs on (Notes 1, 2) . . . . . . . . . . . . . . . . . . . . . . . I

DM

Continuous Drain Current, each Output, all Outputs on (Note 2) . . . . . . . . . . . . . . . . . . . . . . . .I

DS

Single Pulse Avalanche Energy (Note 3) Refer to UIS Curve . . . . . . . . . . . . . . . . . . . . . . . . . E

AS

Continuous Power Dissipation at T

C

= 25

o

C (Infinite Heatsink). . . . . . . . . . . . . . . . . . . . . . . . . P

D

Continuous Power Dissipation, Derate above T

C

= 25

o

C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Thermal Information

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . θ

JA

Operating Case Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T

C

Junction and Storage Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T

J

, T

STG

Lead Temperature (For Soldering, 10s)(Lead Tips Only). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T

L

Continuous Drain1-Source2 Voltage Over Operating Junction Temperature Range. . . . . . V

D1S2

NOTES:

1. Pulse width limited by maximum junction temperature.

2. Drain current limited by package construction.

3. V

DD

= 25V, Start T

J

= 25

o

C, L = 1.5mH, R

GS

= 50Ω, R = 0. See Figures 2, 12, and 13.

V

Electrical Speciﬁcations

PARAMETER

Drain-Source Breakdown Voltage

T

C

= 25

o

C, Unless Otherwise Speciﬁed

SYMBOL

BV

DSS

TEST CONDITIONS

I

D

= 100µA, V

GS

= 0V

T

C

= -40

o

C to

125

o

C

T

C

= 25

o

C

MIN

60

TYP

-

MAX

-

UNITS

V

-

1.5

70

2.3

105

-

2.7

-

V

µA

V

nA

Gate Threshold Voltage

Drain1-Source2 Breakdown Voltage

(Across D1)

Zero Gate Voltage Drain Current

V

GS(TH)

BV

D1S2

I

DSS

I

D1S2

V

GS

= V

DS

, I

D

= 250µA

I

D1S2

= 1µA,

V

G1S1,

V

G2S2

= 0V

V

DS

= 60V

V

GS

= 0V

T

C

= 25

o

C

T

C

= 25

o

C

-

1

Drain1-Source2 Current (Through D1)

V

D1S2

= 60V

T

C

= 25

o

C

V

G1S1

= 0V, V

G2S2

= 0V

T

C

= 125

o

C

I

D

= 10A, V

GS

= 15V

I

D

= 10A, V

GS

= 10V

-

0.3

1

0.9

1.1

-

1

-

1.25

1.5

100

Drain-Source On-State Voltage

(Note 4)

Forward Gate Current, Drain Short

Circuited to Source

Reverse Gate Current, Drain Short

Circuited to Source

Drain-Source On Resistance (Note 4)

V

DS(ON)

I

GSSF

I

GSSR

r

DS(ON)

V

DS

= 0V, V

GS

= 20V

V

DS

= 0V, V

GS

= -20V

V

GS

= 15V, I

D

= 10A

V

GS

= 15V, I

D

= 10A

V

GS

= 10V, I

D

= 10A

V

GS

= 10V, I

D

= 10A

T

C

= 25

o

C

T

C

= 125

o

C

T

C

= 25

o

C

T

C

= 125

o

C

-

-100

nA

Ω

S

-

0.09

0.15

0.11

0.19

4.5

0.135

0.21

0.15

0.25

-

Forward Transconductance (Note 4)

g

fs

V

DS

= 15V, I

D

= 5A

2

HIP2060

Electrical Speciﬁcations

PARAMETER

Turn-On Delay Time (Note 5)

Rise Time (Note 5)

Turn-Off Delay Time (Note 5)

Fall Time (Note 5)

Total Gate Charge (Note 5)

Gate-Source Charge (Note 5)

Gate-Drain Charge (Note 5)

Short-Circuit Input Capacitance,

Common Source

Short-Circuit Output Capacitance,

Common Source for Upper FET

Short Circuit Output Capacitance

Common Source for Lower FET

Short-Circuit Reverse Transfer

Capacitance, Common Source

Thermal Resistance Junction to Case

Thermal Resistance Junction to Ambient

T

C

= 25

o

C, Unless Otherwise Speciﬁed

(Continued)

SYMBOL

t

d(ON)

t

r

t

d(OFF)

t

f

Q

g(TOT)

Q

gs

Q

gd

C

ISS

C

OSS(U)

C

OSS(L)

C

RSS

R

θJC

R

θJA

V

DS

= 25V, V

GS

= 0V, f = 1MHz

V

DS

= 50V, V

GS

= 10V, I

D

= 10A

See Figures 16 and 17

TEST CONDITIONS

V

DD

= 30V, R

L

= 3Ω

I

D

= 10A, V

GS

= 10V, R

G

= 50Ω

See Figure 14

MIN

-

TYP

4

5

12

6

10.5

1.4

4.9

230

MAX

-

12.0

2.0

5.5

-

UNITS

ns

nC

pF

-

150

-

pF

-

225

-

pF

-

40

-

pF

o

C/W

o

C/W

-

2.7

60

Source-Drain Diode Speciﬁcations

PARAMETER

SYMBOL

TEST CONDITIONS

MIN

TYP

MAX

UNITS

SOURCE-TO-DRAIN DIODE SPECIFICATIONS

(Across Z1 and Z2)

Forward Voltage (Note 4)

Reverse Recovery Time (Across Z1)

Reverse Recovery Time (Across Z2)

V

SD

t

rr(S1-D1)

t

rr(S2-D2)

I

SD

= 10A, V

GS

= 0V

I

SD

= 10A, dI

SD

/dt = 100A/µs

I

SD

= 10A, dI

SD

/dt = 100A/µs

-

1.05

50

75

1.25

-

V

ns

SOURCE2-TO-DRAIN1 DIODE SPECIFICATIONS D

(Across D1)

Forward Voltage (Note 4)

Reverse Recovery Time

DEVICE MATCHING

Drain-Source On Resistance Match

NOTES:

4. Pulse test: Pulse Width

≤

300µs, Duty Cycle

≤

2%.

5. Independent of operating temperature.

r

DS(ON)M

V

GS

= 10V, I

D

= 10A, T

C

= 25

o

C

-

90

-

%

V

SD

t

rr

I

SD

= 10A, V

GS

= 0V

I

SD

= 10A, dI

SD

/dt = 100A/µs

-

8.5

200

9.5

-

V

ns

3

HIP2060

Typical Performance Curves

50

T

C

= 25

o

C

10µs

10

5

1ms

OPERATION IN THIS

AREA MAY BE

LIMITED BY r

DS(ON)

1

5

10

50

V

DS

, DRAIN-TO-SOURCE VOLTAGE (V)

10ms

DC

100

1

0.001

0.01

0.1

t

AV

, TIME IN AVALANCHE (ms)

1

100µs

I

AS

, AVALANCHE CURRENT (A)

STARTING T

C

= 25

o

C

I

D

, DRAIN CURRENT (A)

10

STARTING T

C

= 125

o

C

5

1

0.5

FIGURE 1. SAFE-OPERATING AREA CURVE

FIGURE 2. UNCLAMPED INDUCTIVE-SWITCHING

20

V

GS

= 15V

V

GS

= 12V

I

D

, DRAIN CURRENT (A)

V

GS

= 8V

I

D

, DRAIN CURRENT (A)

15

V

GS

= 10V

20

-40

o

C

25

o

C

V

DS

= 15V

15

150

o

C

10

5

0

PULSE DURATION = 300µs, T

C

= 25

o

C

2

4

6

8

10

V

DS

, DRAIN-TO-SOURCE VOLTAGE (V)

0

2

4

6

8

10

V

GS

, GATE-TO-SOURCE VOLTAGE (V)

FIGURE 3. SATURATION CHARACTERISTICS

FIGURE 4. TRANSFER CHARACTERISTICS

2.5

PULSE DURATION = 300µs, V

GS

= 10V, I

D

= 10A

2.0

NORMALIZED r

DS(ON)

NORMALIZED BV

DSS

1.2

I

D

= 100µA

1.1

1.5

1.0

0.9

0.5

0

-75

-25

25

75

125

175

0.8

-75

-25

25

75

125

175

T

J

, JUNCTION TEMPERATURE (

o

C)

T

J

, JUNCTION TEMPERATURE (

o

C)

FIGURE 5. NORMALIZED r

DS(ON)

vs JUNCTION TEMPERATURE

FIGURE 6. NORMALIZED BV

DSS

vs JUNCTION TEMPERATURE

4

HIP2060

Typical Performance Curves

2.0

V

GS

, GATE-SOURCE VOLTAGE (V)

V

GS

= V

DS

, I

D

= 250µA

NORMALIZED V

GS(TH)

1.5

(Continued)

16

V

DS

= 50V

V

DS

= 30V

V

DS

= 20V

12

I

D

= 10A, T

C

= 25

o

C

8

1.0

0.5

4

0

-75

0

-25

25

75

125

175

0

5

T

J

, JUNCTION TEMPERATURE (

o

C)

10

Q, GATE CHARGE (nC)

15

20

FIGURE 7. NORMALIZED V

GS(TH)

vs JUNCTION

TEMPERATURE

1000

FIGURE 8. GATE-SOURCE VOLTAGE vs GATE CHARGE

V

GS

= 0V, f = 1MHz, T

C

= 25

o

C

12

10

I

D

, DRAIN CURRENT (A)

8

6

V

GS

= 15V

V

GS

= 10V

800

C, CAPACITANCE (pF)

C

RSS

600

C

OSS(U)

C

OSS(L)

400

C

ISS

4

200

2

0

25

50

75

100

125

T

C

, CASE TEMPERATURE (

o

C)

150

0

5

10

15

20

25

V

DS

, DRAIN-TO-SOURCE VOLTAGE (V)

FIGURE 9. CAPACITANCE vs VOLTAGE

FIGURE 10. MAXIMUM CONTINUOUS DRAIN CURRENT vs

CASE TEMPERATURE

Z

θJC

, NORMALIZED THERMAL RESPONSE

10

T

C

= 25

o

C

1

D = 1.0

0.5

0.2

0.1

0.05

0.02

0.01

SINGLE PULSE

NOTES:

1. DUTY FACTOR, D = t

1

/t

2

2. PEAK T

J

= P

DM

x (Z

θJC

) +T

C

10

1

0.01

10

-5

10

-3

10

-1

10

-4

10

-2

10

o

t

1

, RECTANGULAR PULSE DURATION (s)

FIGURE 11. NORMALIZED MAXIMUM TRANSIENT THERMAL IMPEDANCE

5

HIP2060AS1

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