Philips PDTA114TT Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

ook, halfpage

M3D088

PDTA114TT

PNP resistor-equipped transistor

Objective specification
Supersedes data of 1998 May 18

1999 Apr 13

Philips Semiconductors Objective specification

h

PNP resistor-equipped transistor PDTA114TT

FEATURES

• Built-in bias resistor R1 (typ. 10 kΩ)

• Simplification of circuit design

• Reduces number of components

and board space.

APPLICATIONS

• Especially suitable for space
reduction in interface and driver
circuits

• Inverter circuit configurations
without use of an external resistor.

DESCRIPTION

andbook, 4 columns

Top view

Fig.1 Simplified outline (SOT23) and symbol.

3

3

1

21

MAM286

R1

2

PNP resistor-equipped transistor in a
SOT23 plastic package.
NPN complement: PDTC114TT.

PINNING

PIN DESCRIPTION

1 base/input
2 emitter/ground (+)

1

2

MGA893 - 1

3

Fig.2 Equivalent inverter

symbol.

MARKING

TYPE

NUMBER

MARKING

CODE

PDTA114TT ∗11

Note

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

3 collector/output

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

O

I

CM

P

tot

T

stg

T

j

T

amb

collector-base voltage open emitter −−50 V
collector-emitter voltage open base −−50 V
emitter-base voltage open collector −−5V
output current (DC) −−100 mA
peak collector current −−100 mA
total power dissipation T

≤ 25 °C; note 1 − 250 mW

amb

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

(1)

Note

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

1999 Apr 13 2

Philips Semiconductors Objective specification

PNP resistor-equipped transistor PDTA114TT

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

CEO

I

EBO

h

FE

V

CEsat

R1 input resistor 7 10 13 kΩ
C

c

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

collector cut-off current IE= 0; VCB= −50 V −−−100 nA
collector cut-off current IB= 0; VCE= −30 V −−−1µA

I

= 0; VCE= −30 V; Tj= 150 °C −−−50 µA

B

emitter cut-off current IC= 0; VEB= −4V −−−100 nA
DC current gain IC= −1 mA; VCE= −5 V 200 −−
collector-emitter saturation voltage IC= −10 mA; IB= −0.5 mA −−−150 mV

collector capacitance IE=ie= 0; VCB= −10 V; f = 1 MHz −−3pF

600

handbook, halfpage

h

FE

400

200

0

−1

−10

VCE= −5V.
(1) T
(2) T
(3) T

amb
amb
amb

= 150°C.
=25°C.
= −40 °C.

−1 −10 −10

MBK784

(1)

(2)

(3)

IC (mA)

Fig.3 DC current gain as a function of collector

current; typical values.

−1

handbook, halfpage

V

CEsat

(V)

−1

−10

−2

−10

2

IC/IB= 10.
(1) T
(2) T
(3) T

−10

amb
amb
amb

−1

= 100 °C.
=25°C.
= −40 °C.

−1 −10 −10

MBK783

(1)
(2)
(3)

2

IC (mA)

Fig.4 Collector-emitter saturation voltage as a

function of collector current; typical values.

1999 Apr 13 3