ST STPS16150CT, STPS16150CG, STPS16150CR User Manual

HIGH VOLTAGE POWER SCHOTTKY RECTIFIER

MAIN PRODUCT CHARACTERISTICS

F(AV)

RRM

Tj 175°C

(max) 0.75 V

FEATURES AND BENEFITS

HIGH JUNCTION TEMPERATURE CAPABILITY

■

GOOD TRADE OFF BETWEEN LEAKAGE

■

CURRENT AND FORWARD VOLTAGE DROP LOW LEAKAGE CURRENT

■

■ AVALANCHE CAPABILITY SPECIFIED

DESCRIPTION

Dual center tap schottky rectifier designed for high frequency Switched Mode Power Supplies.

2x8A

150 V

STPS16150CT/CG/CR

I2PAK

STPS16150CR

PAK

STPS16150CG

TO-220AB

STPS16150CT

ABSOLUTE RATINGS (limiting values, per diode)

Symbol Parameter Value Unit

RRM

F(RMS)

F(AV)

FSM

ARM

Repetitive peak reverse voltage 150 V RMS forward current 20 A Average forward current

δ = 0.5

TO-220AB D2PAK/I2PAK

Tc = 150°C per diode

per device Surge non repetitive forward current tp = 10 ms sinusoidal 150 A Repetitive peak avalanche power tp = 1µs Tj = 25°C 4700 W Storage temperature range - 65 to + 175 °C

stg

Tj Maximum operating junction temperature 175 °C

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

July 2003 - Ed: 6C

1/5

STPS16150CT/CG/CR

THERMAL RESISTANCES

Symbol Parameter Value Unit

th (j-c)

th (c)

When the diodes 1 and 2 are used simultaneously :

∆ Tj(diode 1) = P(diode1) x R

STATIC ELECTRICAL CHARACTERISTICS (per diode)

Symbol Parameter Tests conditions Min. Typ. Max. Unit

Pulse test : * tp=5ms,δ<2%

To evaluate the conduction losses use the following equation: P=0.64xI

Fig. 1: Average forward power dissipation versus average forward current (per diode).

Junction to case TO-220AB / D2PAK/I2PAK Per diode 3 °C/W

Total 1.8

TO-220AB / D2PAK/I2PAK Coupling 0.6

(Per diode) + P(diode 2) x R

th(j-c)

* Reverse leakage current Tj = 25°C VR=V

th(c)

RRM

3.0 µA

Tj = 125°C 4.0 mA

** Forwardvoltage drop Tj = 25°CI

Tj = 125°C I Tj=25°CI Tj = 125°C I

** tp = 380 µs, δ <2%

+ 0.014 I

F(AV)

F2(RMS)

= 8 A 0.92 V

= 8 A 0.70 0.75

=16A 1

= 16 A 0.8 0.86

Fig. 2: Average forward current versus ambient temperature (δ = 0.5, per diode).

PF(av)(W)

8 7 6 5

δ = 0.05

δ = 0.1

δ = 0.2

δ = 0.5

δ = 1

4 3

=tp/T

2 1 0

012345678910

IF(av) (A)

Fig. 3: Normalized avalanche power derating

versus pulse duration.

P(t)

ARM p

P (1µs)

ARM

0.1

0.01

t (µs)

0.001

0.10.01 1

10 100 1000

IF(av)(A)

9 8 7 6 5 4 3 2 1 0

0 25 50 75 100 125 150 175

=tp/T

Rth(j-a)=15°C/W

Tamb(°C)

Rth(j-a)=Rth(j-c)

Fig. 4: Normalized avalanche power derating versus junction temperature.

P(t)

ARM p

P (25°C)

ARM

1.2 1

0.8

0.6

0.4

0.2 0

0 25 50 75 100 125 150

T (°C)

2/5

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