International Rectifier IRSF3010S, IRSF3010 Datasheet

Features:

n Extremely Rugged for Harsh Operating

Environments

n Over Temperature Protection
n Over Current Protection
n Active Drain to Source Clamp
n ESD Protection
n Compatible with standard POWER

MOSFET

n Low Operating Input Current
n Monolithic Construction

n Dual set/reset Threshold Input

IRSF3010

Available PackagesIRSF3010 - Block Diagram

V

ds(clamp)

50 V

R

ds(on)

80 m

ΩΩ

ΩΩ

Ω

I

ds(sd)

11 A

T

j(sd)

155 °C

E

AS

400 mJ

Source

Drain

Applications:

n DC Motor Drive
n Solenoid Driver

FULLY PROTECTED POWER MOSFET SWITCH

Pin Assignment

Pin 1 - Input
Pin 2 - Drain
Pin 3 - Source
Tab - Drain

Provisional Data Sheet No.PD-6.0027A

3

2

1

Tab

IRSF3010

IRSF3010S

Rating Summary:General Description:

The IRSF3010 is a three terminal monolithic
SMART POWER MOSFET with built in short cir­cuit, over-temperature, ESD and over-voltage pro­tections.

The on chip protection circuit latches off the
POWER MOSFET in case the drain current ex­ceeds 14A (typical) or the junction temperature ex­ceeds 165°C (typical) and keeps it off until the
input is driven low. The drain to source voltage
is actively clamped at 55V (typical), prior to the
avalanche of POWER MOSFET, thus improving
its performance during turn off with inductive
loads.

The input current requirements are very low
(300uA) which makes the IRSF3010 compatible with
most existing designs based on standard
POWER MOSFETs.

IRSF3010

2

Absolute Maximum Ratings

Absolute Maximum Ratings indicate sustained limits beyond which damage to the device may occur. (Tc =
25°C unless otherwise specified.)

Symbol Parameter Definition Min. Max. Test Conditions

V

ds, max

Continuous Drain to Source Voltage — 50

V

in, max

Continuous Input Voltage -0.3 10

I

ds

Continuous Drain Current — self limited

P

d

Power Dissipation — 40 W T

c

≤ 25°C

Linear Derating Factor for Tc > 25°C — 0.33 W/°C

E

AS

Unclamped Single Pulse Inductive Energy — 40 0 m J

V

esd1

Electrostatic Discharge Voltage (Human Body Model) — 4000 1000pF . 1.5kΩ

V

esd2

(Machine Model) — 1000 200pF, 0Ω

T

Jop

Junction T emperature -55

self-limited

T

Stg

Storage T emperature -55 175

T

L

Lead T emperature (Soldering, 10 seconds) — 300

Thermal Characteristics

Units

V

V

o

C

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

V

ds,clamp

Drain to Source Clamp Voltage 50 54 — Ids = 10mA

—5662 Ids = 11A, tp = 700 µS

R

ds(on)

Drain to Source On Resistance — 70 80 Vin = 5V, Ids = 4A

—85— Vin = 4V, Ids = 4A
—53— Vin = 10V, Ids = 4A

I

dss

Drain to Source Leakage Current — — 10 Vds = 12V, Vin = 0V

— — 100 Vds = 50V, Vin = 0V
— 10 250 V

ds

=40V,Vin=0V,Tc=150oC

V

th

Input Threshold Voltage 1.5 2.0 2.5 V Vds = 5V, Ids = 1mA

I

i, on

Input Supply Current (Normal Operation) — 0.25 0.6 Vin = 5V

— 0.35 0.85 Vin = 10V

I

i, off

Input Supply Current (Protection Mode) — 0.5 1.0 Vin = 5V

—0.61.2 Vin = 10V

V

in, clamp

Input Clamp Voltage 10 10.8 — Iin = 10mA

V

sd

Body-Drain Diode Forward Drop ➁ — 1.2 1.5 Ids = -17A, Rin = 1k

Ω

Static Electrical Characteristics

(Tc = 25°C unless otherwise specified.)

V

mΩ

µA

mA

V

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

R

Θjc

Thermal Resistance, Junction to Case — 3.0 — °C/W

R

ΘjA

Thermal Resistance, Junction to Ambient — 60 — °C/W

IRSF3010

3

Notes:

1. EAS is tested with a constant current source of 11A applied for 700µS with Vin = OV and starting Tj = 25oC.

2. Input current must be limited to less than 5mA with a 1kΩ resistor in series with the input when the Body-Drain Diode
is forward biased.

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

V

ds,clamp

Temperature Coefficient of Drain to Source
Clamp Voltage — 18.2 —

V

th

Temperature Coefficient of Input Threshold
Voltage — -3.2 —

V

in,clamp

Temperature Coefficient of Input Clamp
Voltage — 7.0 —

I

ds(sd)

Temperature Coefficient of Over-Current
Shutdown Threshold — -21.5 — mA/oC

Ids = 10mA

Vds = 5V, Ids = 1mA

Iin = 10mA

Vin = 5V

mV/oC

T emperature Coefficients of Electrical Characteristics:

(Please see Figures 3 through 14 for more data on thermal characteristics of other electrical parameters.

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

t

don

Turn-On Delay time — 425 650 Vin = 5V

— 150 — Vin = 10V

t

r

Rise Time — 2000 4000 Vin = 5V

— 425 — Vin = 10V

t

doff

Turn-Off Delay time — 650 1000 Vin = 5V

— 850 — Vin = 10V

t

f

Fall Time — 500 800 Vin = 5V

— 450 — Vin = 10V

Switching Electrical Characteristics:

(Vcc = 14V, Resistive Load RL = 5Ω, Tc = 25 °C.) Please refer to Figure 15 for switching time definitions.

nS

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

I

ds(sd)

Over-Current Shutdown Threshold 11 14 17 A Vin = 5V

T

j(sd)

Over Temperature Shutdown Threshold 155 165 — °C Vin = 5V, Ids = 2A

V

protect

Minimum Input Voltage for Over-temp fxn. — 3 — V

t

Iresp

Over Current Response Time — 2 — See figure 16 for definition

t

Iblank

Over Current Blanking Time — 3 — See figure 16 for definition

I

peak

Peak Short Circuit Current — 2 0 — A See figure 16 for definition

V

reset

Protection Reset Voltage — 1.3 — V

t

reset

Protection Reset Time — 7 — See figure 17 for definition

t

Tresp OverTemperature Response Time

— 1 2 — See figure 18 for definition

µS

µS

Protection Characteristics:

(Tc = 25 °C unless otherwise specified.)

IRSF3010

4

30

40

50

60

70

80

90

100

110

120

-50 -25 0 25 50 75 100 125 150

Temperature (°C)

Rds(on) (mOhm)

Vin = 10V

Vin = 5V

Ids = 4A

40

50

60

70

80

90

100

110

120

24681012141618

Ids (A)

Rds(on) (mOhm)

Vin = 4V

Vin = 5V

Vin = 7V

Vin = 10V

T = 25°C

Fig. 3 - On Resistance vs Drain to Source Current Fig. 4 - On Resistance vs. Temperature

13

14

15

16

17

45678910

Input Voltage (Volts)

Shut Down Current (A)

T = 25°C

Fig. 5 - Over-current Shutdown Threshold vs

Input Voltage

10

11

12

13

14

15

16

-50 -25 0 25 50 75 100 125 1 50

Temperature (°C)

Shut Down Current (A)

Vi n = 5V

Fig. 6 - Over-current Shutdown Threshold vs

Temperature

0

0.2

0.4

0.6

0.8

1

1.2

1.4

1.6

01234567891011

Input Volt age (Volt s )

Input Current (mA)

Iin ,off

T=25°C

Iin ,on

Rating

0

500

1000

1500

2000

2500

3000

3500

0255075100125150

Starting Ju nc tion Temperature (°C)

Single Pulse En ergy to Failur e (mJ)

Ids = 12A

Ids = 8A

Vdd = 25V

Figure 7 - Input Current vs. Input Voltage

Fig. 8 - Unclamped Single Pulse Inductive Energy to

Failure vs Starting Junction Temperature