Philips BCW60A Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

ook, halfpage

M3D088

BCW60 series

NPN general purpose transistors

Product specification
Supersedes data of 1997 Mar 10

1999 Apr 22

Philips Semiconductors Product specification

NPN general purpose transistors BCW60 series

FEATURES

• Low current (max. 100 mA)

• Low voltage (max. 32 V).

APPLICATIONS

• General purpose switching and amplification.

DESCRIPTION

NPN transistor in a SOT23 plastic package.
PNP complements: BCW61 series.

MARKING

TYPE NUMBER MARKING CODE

BCW60B AB∗
BCW60C AC∗
BCW60D AD∗

Note

1. ∗ = p : Made in Hong Kong.
∗ = t : Made in Malaysia.

(1)

PINNING

PIN DESCRIPTION

1 base
2 emitter
3 collector

handbook, halfpage

Top view

3

21

MAM255

Fig.1 Simplified outline (SOT23) and symbol.

3

1

2

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

V

CBO

V

CEO

V

EBO

I

C

I

CM

I

BM

P

tot

T

stg

T

j

T

amb

collector-base voltage open emitter − 32 V
collector-emitter voltage open base − 32 V
emitter-base voltage open collector − 5V
collector current (DC) − 100 mA
peak collector current − 200 mA
peak base current − 200 mA
total power dissipation T

≤ 25 °C − 250 mW

amb

storage temperature −65 +150 °C
junction temperature − 150 °C
operating ambient temperature −65 +150 °C

1999 Apr 22 2

Philips Semiconductors Product specification

NPN general purpose transistors BCW60 series

THERMAL CHARACTERISTICS

SYMBOL PARAMETER CONDITIONS VALUE UNIT

R

th j-a

Note

1. Transistor mounted on an FR4 printed-circuit board.

CHARACTERISTICS

=25°C unless otherwise specified.

T

amb

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

I

CBO

I

EBO

h

FE

V

CEsat

V

BEsat

V

BE

C

c

C

e

f

T

F noise figure I

thermal resistance from junction to ambient note 1 500 K/W

collector cut-off current IE= 0; VCB=32V −−20 nA

I

= 0; VCB=32V; T

E

= 150 °C −−20 µA

amb

emitter cut-off current IC= 0; VEB=4V −−20 nA
DC current gain IC=10µA; VCE=5V

BCW60B 20 −−
BCW60C 40 −−
BCW60D 100 −−

DC current gain I

= 2 mA; VCE=5V

C

BCW60B 180 − 310
BCW60C 250 − 460
BCW60D 380 − 630

DC current gain I

= 50 mA; VCE=1V

C

BCW60B 70 −−
BCW60C 90 −−
BCW60D 100 −−

collector-emitter saturation
voltage

IC= 10 mA; IB= 0.25 mA 50 − 350 mV
I

= 50 mA; IB= 1.25 mA 100 − 550 mV

C

base-emitter saturation voltage IC= 10 mA; IB= 0.25 mA 600 − 850 mV

I

= 50 mA; IB= 1.25 mA 0.7 − 1.05 V

C

base-emitter voltage IC=10µA; VCE=5V − 520 − mV

I

= 2 mA; VCE= 5 V 550 650 750 mV

C

I

= 50 mA; VCE=1V − 780 − mV

C

collector capacitance IE=ie= 0; VCB=10V; f=1MHz − 1.7 − pF
emitter capacitance IC=ic= 0; VEB= 0.5 V; f = 1 MHz − 11 − pF
transition frequency IC= 10 mA; VCE=5V;

100 250 − MHz

f = 100 MHz; note 1

= 200 µA; VCE=5V;

C

− 26dB

RS=2kΩ; f = 1 kHz; B = 200 Hz

Note

1. Pulse test: t

≤ 300 µs; δ≤0.02.

p

1999 Apr 22 3