IRLU230ATU datasheet, PDF - EEWORLD Datasheet

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IRLU230ATU: DescriptionPower Field-Effect Transistor, 7.5A I(D), 200V, 0.4ohm, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, TO-251, IPAK-3; CategoryDiscrete semiconductor The transistor; File Size263KB，9 Pages; ManufacturerFairchild; Websitehttp://www.fairchildsemi.com/

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IRLU230ATU Overview

Power Field-Effect Transistor, 7.5A I(D), 200V, 0.4ohm, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, TO-251, IPAK-3

IRLU230ATU Parametric

Parameter Name	Attribute value
Is it Rohs certified?	incompatible
Maker	Fairchild
Parts packaging code	TO-251
package instruction	IN-LINE, R-PSIP-T3
Contacts	3
Reach Compliance Code	unknown
ECCN code	EAR99
Avalanche Energy Efficiency Rating (Eas)	37 mJ
Configuration	SINGLE WITH BUILT-IN DIODE
Minimum drain-source breakdown voltage	200 V
Maximum drain current (Abs) (ID)	7.5 A
Maximum drain current (ID)	7.5 A
Maximum drain-source on-resistance	0.4 Ω
FET technology	METAL-OXIDE SEMICONDUCTOR
JEDEC-95 code	TO-251
JESD-30 code	R-PSIP-T3
JESD-609 code	e0
Number of components	1
Number of terminals	3
Operating mode	ENHANCEMENT MODE
Maximum operating temperature	150 °C
Package body material	PLASTIC/EPOXY
Package shape	RECTANGULAR
Package form	IN-LINE
Peak Reflow Temperature (Celsius)	NOT SPECIFIED
Polarity/channel type	N-CHANNEL
Maximum power dissipation(Abs)	48 W
Maximum pulsed drain current (IDM)	26 A
Certification status	Not Qualified
surface mount	NO
Terminal surface	Tin/Lead (Sn/Pb)
Terminal form	THROUGH-HOLE
Terminal location	SINGLE
Maximum time at peak reflow temperature	NOT SPECIFIED
transistor applications	SWITCHING
Transistor component materials	SILICON

IRLU230ATU Preview

$GYDQFHG 3RZHU 026)(7

FEATURES

♦

Avalanche Rugged Technology

♦

Rugged Gate Oxide Technology

♦

Lower Input Capacitance

♦

Improved Gate Charge

♦

Extended Safe Operating Area

♦

Lower Leakage Current: 10µA (Max.) @ V

DS

= 200V

♦

Lower R

DS(ON)

: 0.335Ω (Typ.)

IRLR/U230A

BV

DSS

= 200 V

R

DS(on)

= 0.4Ω

I

D

= 7.5 A

D-PAK

2

1

3

1

I-PAK

2

3

1. Gate 2. Drain 3. Source

Absolute Maximum Ratings

Symbol

V

DSS

I

D

I

DM

V

GS

E

AS

I

AR

E

AR

dv/dt

P

D

Characteristic

Drain-to-Source Voltage

Continuous Drain Current (T

C

=25°C)

Continuous Drain Current (T

C

=100°C)

Drain Current-Pulsed

Gate-to-Source Voltage

Single Pulsed Avalanche Energy

Avalanche Current

Repetitive Avalanche Energy

Peak Diode Recovery dv/dt

Total Power Dissipation (T

A

=25°C) *

Total Power Dissipation (T

C

=25°C)

Linear Derating Factor

T

J

, T

STG

T

L

Operating Junction and

Storage Temperature Range

Maximum Lead Temp. for Soldering

Purposes, 1/8

from case for 5-seconds

(2)

(1)

(3)

(1)

Value

200

7.5

4.7

26

±20

37

7.5

4.8

5

2.5

48

0.38

- 55 to +150

Units

V

A

V

mJ

A

mJ

V/ns

W

W/°C

°C

300

Thermal Resistance

Symbol

R

θJC

R

θJA

R

θJA

Characteristic

Junction-to-Case

Junction-to-Ambient *

Junction-to-Ambient

Typ.

--

Max.

2.6

50

110

°C/W

Units

*

When mounted on the minimum pad size recommended (PCB Mount).

Rev. B

1

IRLR/U230A

Electrical Characteristics

(T

C

=25°C unless otherwise specified)

Symbol

BV

DSS

∆BV/∆T

J

V

GS(th)

I

GSS

I

DSS

R

DS(on)

g

fs

C

iss

C

oss

C

rss

t

d(on)

t

r

t

d(off)

t

f

Q

g

Q

gs

Q

gd

Characteristic

Drain-Source Breakdown Voltage

Breakdown Voltage Temp. Coeff.

Gate Threshold Voltage

Gate-Source Leakage , Forward

Gate-Source Leakage , Reverse

Drain-to-Source Leakage Current

Static Drain-Source

On-State Resistance

Forward Transconductance

Input Capacitance

Output Capacitance

Reverse Transfer Capacitance

Turn-On Delay Time

Rise Time

Turn-Off Delay Time

Fall Time

Total Gate Charge

Gate-Source Charge

Gate-Drain ( Miller ) Charge

Min. Typ. Max. Units

200

--

1.0

--

0.25

--

4.2

580

90

44

8

6

30

9

18.6

3.5

8.3

--

2.0

100

-100

10

100

0.4

--

755

115

55

25

20

70

30

27

--

nC

ns

pF

µA

Ω

V

nA

1&+$11(/

32:(5 026)(7

Test Condition

V

GS

=0V,I

D

=250µA

V/°C I

D

=250µA

V

GS

=20V

V

GS

=-20V

V

DS

=200V

See Fig 7

V

DS

=5V,I

D

=250µA

V

DS

=160V,T

C

=125°C

V

GS

=5V,I

D

=3.75A

V

DS

=40V,I

D

=4.5A

(4)

V

GS

=0V,V

DS

=25V,f =1MHz

See Fig 5

V

DD

=100V,I

D

=9A,

R

G

=6Ω

See Fig 13

V

DS

=160V,V

GS

=5V,

I

D

=9A

(4) (5)

See Fig 6 & Fig 12

(4) (5)

Source-Drain Diode Ratings and Characteristics

Symbol

I

S

I

SM

V

SD

t

rr

Q

rr

Characteristic

Continuous Source Current

Pulsed-Source Current

Diode Forward Voltage

Reverse Recovery Time

Reverse Recovery Charge

(1)

(4)

Min. Typ. Max. Units

--

158

0.78

7.5

26

1.5

--

A

V

ns

µC

Test Condition

Integral reverse pn-diode

in the MOSFET

T

J

=25°C,I

S

=7.5A,V

GS

=0V

T

J

=25°C,I

F

=9A

di

F

/dt=100A/µs

(4)

Notes;

Repetitive Rating: Pulse Width Limited by Maximum Junction Temperature

L=1mH, I

AS

=7.5A, V

DD

=50V, R

G

=27

Ω

, Starting T

J

=25°C

I

SD

≤

9A, di/dt

≤

220A/µs, V

DD

≤

BV

DSS

, Starting T

J

=25°C

Pulse Test: Pulse Width = 250µs, Duty Cycle

≤

2%

Essentially Independent of Operating Temperature

2

1&+$11(/

32:(5 026)(7

Fig 1. Output Characteristics

V

Top :

GS

IRLR/U230A

Fig 2. Transfer Characteristics

7.0V

6.0 V

5.0 V

4.5 V

4.0 V

3.5 V

I

D

, Drain Current [A]

Bottom : 3.0V

I

D

, Drain Current [A]

1

0

5.5 V

1

0

1 0

o

C

5

1

0

2

o

C

5

@ Nt s :

oe

1 V = 0V

.

GS

2 V =4 V

.

DS

0

3 2 0

µ

s P l e T s

. 5

us et

6

8

1

0

1

0

@Nts:

oe

1 2 0

µ

s P l e T s

. 5

us et

2 T =2 C

.

C

5

1

0

o

- 5

o

C

5

1

-1

0

2

4

1

-1 -1

0

1

0

1

0

V

DS

, Drain-Source Voltage [V]

V

GS

, Gate-Source Voltage [V]

10

.0

Fig 3. On-Resistance vs. Drain Current

I

DR

, Reverse Drain Current [A]

Fig 4. Source-Drain Diode Forward Voltage

Drain-Source On-Resistance

07

.5

V =5 V

GS

05

.0

1

0

R

DS(on)

, [

Ω

]

1

0

@ Nt s:

oe

1 V =0 V

.

GS

us et

2 2 0

µ

s P l e T s

. 5

08

.

10

.

12

.

14

.

16

.

18

.

02

.5

V =1 V

0

GS

1 0

o

C

5

2

o

C

5

1

-1

0

04

.

06

.

@ N t : T = 2

o

C

oe

J

5

00

.0

0

5

1

0

D

1

5

2

0

2

5

3

0

I , Drain Current [A]

V

SD

, Source-Drain Voltage [V]

Fig 5. Capacitance vs. Drain-Source Voltage

90

0

C = C + C (C = so td )

iss gs gd

ds

h r e

C =C +C

oss ds gd

C =C

rss gd

6

Fig 6. Gate Charge vs. Gate-Source Voltage

70

2

C

iss

V =4 V

0

V

GS

, Gate-Source Voltage [V]

DS

Capacitance [pF]

V =1 0 V

0

DS

4

V =1 0 V

6

DS

50

4

30

6

C

oss

10

8

C

rss

@ Nt s:

oe

1 V =0 V

.

GS

2 f =1 M z

.

H

2

@ Nt s: I =9 A

oe

D

0

4

G

0

1

0

1

0

8

1

2

1

6

2

0

V

DS

, Drain-Source Voltage [V]

Q , Total Gate Charge [nC]

IRLR/U230A

Fig 7. Breakdown Voltage vs. Temperature

12

.

30

.

1&+$11(/

32:(5 026)(7

Fig 8. On-Resistance vs. Temperature

Drain-Source Breakdown Voltage

11

.

R

DS(on)

, (Normalized)

Drain-Source On-Resistance

25

.

BV

DSS

, (Normalized)

20

.

10

.

15

.

10

.

@Nts:

oe

1 V =5V

.

GS

2 I =45A

.

D

.

-0

5

-5

2

0

2

5

0

7

5

10

0

15

2

10

5

15

7

09

.

@ Nt s:

oe

1 V =0 V

.

GS

2 I = 2 0

µ

A

.

D

5

05

.

08

.

-5

7

-0

5

-5

2

0

2

5

0

7

5

10

0

15

2

10

5

15

7

00

.

-5

7

T

J

, Junction Temperature [

o

C]

T

J

, Junction Temperature [

o

C]

Fig 9. Max. Safe Operating Area

1

2

0

O ea in i Ti Ae

pr t o n h s r a

i L m t d b R

DS(on)

s i ie y

Fig 10. Max. Drain Current vs. Case Temperature

8

I

D

, Drain Current [A]

I

D

, Drain Current [A]

1

0

1m

s

1 m

0 s

1

0

@ Nt s:

oe

1 T = 2

o

C

.

C

5

1

-1

0

2 T = 1 0

o

C

.

J

5

3 S nl Pl e

. ig e us

D

C

1 0

µ

s

0

6

4

2

1

-2 0

0

1

0

1

0

1

2

0

2

5

0

c

7

5

10

0

15

2

10

5

V

DS

, Drain-Source Voltage [V]

T , Case Temperature [

o

C]

Fig 11. Thermal Response

Thermal Response

D=0.5

10

0

0.2

0.1

0.05

10

-1

@ Notes :

1. Z

J C

(t)=1.0

o

C/W Max.

θ

2. Duty Factor, D=t

1

/t

2

3. T

P

DM

J M

-T =P

C

Z (t) ,

0.02

0.01

single pulse

DM

*Z

θ

JC

(t)

t

1

t

2

θ

JC

10

- 2 - 5

10

- 4

10

- 3

10

- 2

10

- 1

10

0

10

1

t

1

, Square Wave Pulse Duration

[sec]

1&+$11(/

32:(5 026)(7

IRLR/U230A

Fig 12. Gate Charge Test Circuit & Waveform

Current Regulator

50kΩ

12V

200nF

300nF

Same Type

as DUT

V

GS

Q

g

5V

V

DS

V

GS

DUT

3mA

Q

gs

Q

gd

R

1

Current Sampling (I

G

)

Resistor

R

2

Current Sampling (I

D

)

Resistor

Charge

Fig 13. Resistive Switching Test Circuit & Waveforms

R

L

V

out

V

in

R

G

DUT

V

in

5V

t

d(on)

t

on

t

r

t

d(off)

t

off

t

f

10%

V

out

V

DD

( 0.5 rated V

DS

)

90%

Fig 14. Unclamped Inductive Switching Test Circuit & Waveforms

L

V

DS

Vary t

p

to obtain

required peak I

D

BV

DSS

1

2

--------------------

E

AS

= ---- L

L

I

AS

2

BV

DSS

-- V

DD

BV

DSS

I

AS

C

V

DD

V

DD

t

p

I

D

R

G

DUT

5V

t

p

I

D

(t)

V

DS

(t)

Time

5

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