SGS Thomson Microelectronics STD38NH02L Datasheet

STD38NH02L

N-CHANNEL 24V - 0.011 Ω - 38A DPAK/IPAK

STripFET™ III POWER MOSFET

TYPE

V

DSS

STD38NH02L 24 V < 0.0135

■ TYPICAL R

■ TYPICAL R

■ R

DS(ON)

■ CONDUCTION LOSSES REDUCED

■ SWITCHING LOSSES REDUCED

■ LOW THRESHOLD DEVICE

■ THROUGH-HOLE IPAK (TO-251) POWER

(on) = 0.011 Ω @ 10 V

DS

(on) = 0.015 Ω @ 5 V

DS

* Qg INDUSTRY’s BENCHMARK

R

DS(on)

I

D

Ω

38 A

PACKAGE IN TUBE (SUFFIX “- 1 ")

■ SURFACE-MOUNTING DPAK (TO-252)

POWER PACKAGE IN TAPE & REEL
(SUFFIX “T4")

DESCRIPTION

The STD38NH02L utilizes the latest advanced design

rules of ST’s proprieta ry STripFET™ technology. This is
suitable fot the most demanding DC-DC converter
application where high efficiency is to be achieved.

APPLICATIONS

■ SPECIFICALL Y D ESIGNED AND OP TIMISED

FOR HIGH EFFICIENCY DC/DC CONVERTES

3

2

1

IPAK

TO-251

(Suffix “-1”)

DPAK

TO-252

(Suffix “T4”)

INTERNAL SCHEMATIC DIAGRAM

3

1

ABSOLUTE MAXIMUM RATINGS

Symbol Parameter Value Unit

V

spike(1)

V

V

V

I

DM

P

E

AS

T

DS

DGR

GS

I

D

I

D

(2)

tot

stg

T

j

Drain-source Voltage Rating 30 V
Drain-source Voltage (VGS = 0)
Drain-gate Voltage (RGS = 20 kΩ)

24 V

24 V
Gate- source Voltage ± 20 V
Drain Current (continuous) at TC = 25°C
Drain Current (continuous) at TC = 100°C

38 A

27 A
Drain Current (pulsed) 152 A
Total Dissipation at TC = 25°C

40 W
Derating Factor 0.27 W/°C

(3)

Single Pulse Avalanche Energy 250 mJ
Storage Temperature
Max. Operating Junction Temperature

-55 to 175 °C

1/12September 2003

STD38NH02L

THERMA L D ATA

Rthj-case

Rthj-amb

T

Thermal Resistance Junction-case
Thermal Resistance Junction-ambient
Maximum Lead Temperature For Soldering Purpose

l

Max
Max

3.75
100
275

°C/W
°C/W

°C

ELECTRICAL CHARACTERISTICS (T

= 25 °C UNLESS OTHERWISE SPECIFIED)

CASE

OFF

Symbol Parameter Test Conditions Min. Typ. Max. Unit

= 25 mA, VGS = 0

V

(BR)DSS

Drain-source

I

D

24 V

Breakdown Voltage

= 20 V

V

DS

V

= 20 V TC = 125°C

DS

V

= ± 20V

GS

1

10

±100 nA

ON

(4)

I

DSS

I

GSS

Zero Gate Voltage
Drain Current (V

GS

Gate-body Leakage
Current (V

DS

= 0)

= 0)

Symbol Parameter Test Conditions Min. Typ. Max. Unit

V

V

GS(th)

R

DS(on)

Gate Threshold Voltage
Static Drain-source On

Resistance

= VGS I

DS

= 10 V ID = 19 A

V

GS

V

= 5 V ID = 9.5 A

GS

= 250 µA

D

1 1.8 2.5 V

0.011

0.015

0.0135

0.025

DYNAMIC

Symbol Parameter Test Conditions Min. Typ. Max. Unit

(4)

g

fs

C

iss

C

oss

C

rss

Forward Transconductance
Input Capacitance

Output Capacitance
Reverse Transfer
Capacitance

V

= 10 V ID= 19 A

DS

= 15V f = 1 MHz VGS = 0

V

DS

19 S

1070

305

45

µA
µA

Ω
Ω

pF
pF
pF

2/12

R

G

Gate Input Resistance f = 1 MHz Gate DC Bias = 0

1

Ω

Test Signal Level = 20 mV
Open Drain

STD38NH02L

ELECTRICAL CHARACTERISTICS (continued)
SWITCHING ON

Symbol Parameter Test Conditions Min. Typ. Max. Unit

= 10 V ID = 19 A

t

d(on)

t

Turn-on Delay Time

r

Rise Time

V

DD

R

= 4.7 Ω VGS = 10 V

G

(Resistive Load, Figure 3)

Q

Q

gs

Q

gd

Q

oss

Total Gate Charge

g

Gate-Source Charge
Gate-Drain Charge

(5)

Output Charge

0.44V ≤

V

= 10 V

GS

V

= 16 V VGS= 0 V

DS

V

DD

10V , I

≤

= 38 A

D

SWITCHING OFF

Symbol Parameter Test Conditions Min. Typ. Max. Unit

= 10 V ID = 19 A

t

d(off)

t

Turn-off Delay Time

f

Fall Time

V

DD

R

= 4.7Ω, V

G

GS

= 10 V

(Resistive Load, Figure 3)

SOURCE DRAIN DIODE

Symbol Parameter Test Conditions Min. Typ. Max. Unit

7

62

18

24 nC

4

2.5

6.5 nC

25
12 16

ns
ns

nC
nC

ns
ns

I

SD

I

SDM

V

SD

t

rr

Q

rr

I

RRM

(1)

Garanted wh en external Rg=4.7 Ω and tf < t

(2)

Pulse width limited by safe operating area

3

(

) Starting Tj = 25 oC, ID = 19A, VDD = 18V .

.

Source-drain Current
Source-drain Current (pulsed)

(4)

Forward On Voltage
Reverse Recovery Time

Reverse Recovery Charge
Reverse Recovery Current

fmax

I

= 19 A VGS = 0

SD

= 38 A di/dt = 100A/µs

I

SD

V

= 18 V Tj = 150°C

DD

(see test circuit, Figure 5)

.

(4)
(5)

Pulsed: P ul se duration = 300 µs, duty cycle 1.5 %.

Q

oss = Coss

*∆ V

in , Coss = Cgd + Cds .

Safe Operating Area Thermal Impedance

152

1.3 V

27
22

1.6

See Appendix A

38

36
29

A
A

ns

nC

A

3/12

STD38NH02L

Output Characteristics Transfer Characteristics

Transconductance Static Drain-source On Resistance

Gate Charge vs Gate-source Voltage Capacitance Variations

4/12