SGS Thomson Microelectronics STPS160A, STPS160U Datasheet

®

MAIN PRODUCT CHARACTERISTIC S

STPS160A/U

POWER SCHO TTKY REC TIFIER

I

F(AV)

V

RRM

1 A

60 V

Tj (max) 150°C

(max) 0.57 V

V

F

FEATURES AND BENE FITS

VERY SMALL CONDUCTION LOSSES
NEGLIGIBLE SWITCHING LOSSE S
LOW FORWARD V O LTAGE DROP
SURFACE MOUNTED DEVICE

DESCR IPT ION

Single chip Schottky rectifier suited for Switched
Mode Power Supplies and high frequency DC to
DC converters.

Packaged in SMA or SMB, this device is intended
for surface mounting and used in low voltage, high
frequency inverters, free wheeling and polarity pro­tection applications.

ABSOLUTE RATINGS (limiting values)

SMA

(JEDEC DO-214AC)

STPS160A

SMB

(JEDEC DO-214AA)

STPS160U

Symbol Parameter Value Unit

V

RRM

I

F(RMS)

I

F(AV)

I

FSM

Repetitive peak reverse voltage 60 V
RMS forward current 10 A
Average forward current T

Surge non repetitive forward current tp = 10 ms

Lead

δ

= 0.5

= 130°C

1A

75 A

Sinusoidal

I

RRM

Repetitive peak reverse current tp = 2 µs square

1A

F = 1kHz

I

RSM

T

stg

Non repetitive peak reverse current tp = 100µs square 1 A
Storage temperature range - 65 to + 150

°

Tj Maximum junction temperature * 150

dV/dt Critical rate of rise of reverse voltage 10000 V/µs

dPtot

dTj

<

* :

July 1999 - Ed: 5A

1

Rth(j−a

thermal runaway condition for a diode on its own heatsink

)

C

1/6

STPS160A/U

THERMAL RE SISTA NC ES

Symbol Parameter Value Unit

R

th (j -l)

Junction to lead

SMA
SMB

30
23

°

STATIC ELECTRICAL CHARACTE RISTICS

Symbol Tests Conditions Tests Conditions Min. Typ. Max. Unit

* Reverse leakage current Tj = 25°CV

I

R

= 60V 4

R

Tj = 125°C 1.1 4 mA

* Forward voltage drop Tj = 25°CI

V

F

Tj = 125°CI
Tj = 25°CI
Tj = 125°CI

Pulse test : * tp = 380 µs, δ < 2%

= 1 A 0.67 V

F

= 1 A 0.49 0.57

F

= 2 A 0.8

F

= 2 A 0.58 0.65

F

To evaluate the maximum conduction losses use the following equation :
P = 0.49 x I

F(AV)

+ 0.08 x I

F2(RMS)

C/W

µ

A

Fig. 1:

Average forward power dissipation versus

average forward current.

PF(av)(W)

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0.0

0.0 0.2 0.4 0.6 0.8 1.0 1.2

δ = 0.05

2/6

δ = 0.1

IF(av) (A)

δ = 0.2

δ = 0.5

δ

δ = 1

T

=tp/T

Fig. 2:

Average forward current versus ambient

temperature (δ=0.5).

IF(av)(A)

1.2

1.0

SMA

0.8

0.6

0.4

tp

0.2

0.0
0 25 50 75 100 125 150

δ

=tp/T

T

tp

Rth(j-a)=100°C/W
S(Cu)=1.5cm²

SMB
Rth(j-a)=80°C/W
S(Cu)=1.5cm²

Tamb(°C)

Rth(j-a)=Rth(j-l)