SGS Thomson Microelectronics BAT54S, BAT54C, BAT54, BAT54A Datasheet

®

BAT54, A, C, S

SMALL SIGNAL SCHOTTKY DIODE

FEATURES AND BENE FITS

VERY SMALL CONDUCTION LOSSES
NEGLIGIBLE SWITCHING LOSSES
LOW FORWARD V O LTAGE DROP
SURFACE MOUNT DEVICE

DESCRIPTION

Schottky barrier diodes encapsulated in a SOT-23
small SMD packages.

Double diodes with different pining are available.

K

A

BAT54

K

A1

A2

BAT54C

Nc

A1

A2

A

A

K

K1

K2

BAT54A

A1

K

K2

K1

A2

BAT54S

SOT-23

ABSOLUTE RATINGS

(limiting values)

Symbol Parameter Value Unit

K1

A

K2

A2

A1
K2

K1

V

I

RRM

I

FSM

P
T

stg

Repetitive peak reverse voltage 30 V
Continuous forward current 0.3 A

F

Surge non repetitive forward current tp=10ms sinusoidal 1 A
Power dissipation (note 1) T

tot

= 25°C 250 mW

amb

Maximum storage temperature range - 65 to +150

Tj Maximum operating junction temperature * 150

T

Note 1:

dPtot

* :

dTj

June 1999 - Ed: 3A

Maximum temperature for soldering during 10s 260

L

for double diodes, Ptot is the total dissipation of both diodes.

<

1

Rth(j−a

thermal runaway condition for a diode on its own heatsink

)

°

C

°

C

°

C

1/5

BAT54, A, C, S

THERMAL RE SISTA NC E

Symbol Parameter Value Unit

R

th (j -a)

(*) Mounted on epoxy board with recommended pad layout.

Junction to ambient (*) 500

STATIC ELECTRICAL CHARACTE RISTICS

(per diode)

°

Symbol Parameters Tests conditions Min. Typ. Max. Unit

* Forward voltage drop Tj = 25°CI

V

F

** Reverse leakage current Tj = 25°CV

I

R

= 0.1 mA 240 mV

F

= 1 mA 320

I

F

= 10 mA 400

I

F

= 30 mA 500

I

F

= 100 mA 900

I

F

= 30 V 1

R

Tj = 100°C 100

Pulse test : * tp = 380 µs, δ < 2%

** tp = 5 ms, δ < 2%

DYNAMIC CHARACTERISTICS

(Tj = 25 °C)

C/W

µ

A

Symbol Parameters Tests conditions Min. Typ. Max. Unit

C J unction

Tj = 25°CV

= 1 V F = 1 MHz 10 pF

R

capacitance

t

Fig.1 :

average forward current.

PF(av)(W)

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

0.00 0.05 0.10 0.15 0.20 0.25 0.30

Revers e recovery

rr

time

IF = 10 mA IR = 10 mA Tj = 25°C
I

= 1 mA RL = 100

rr

Average forward power dissipation versus

δ = 0.1

δ = 0.05

δ = 0.2

IF(av) (A)

δ = 0.5

δ

δ = 1

T

=tp/T

5ns

Ω

Fig.2 :

Average forward current versus ambient

temperature ( δ = 1).

IF(av)(A)

0.35

0.30

0.25

0.20

0.15

0.10

tp

0.05

0.00
0 25 50 75 100 125 150

δ

=tp/T

T

tp

Tamb(°C)

2/5