Philips BUT12F, BUT12AF Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

BUT12F; BUT12AF

Silicon diffused power transistors

Product specification
Supersedes data of February 1996
File under Discrete Semiconductors, SC06

1997 Aug 13

Philips Semiconductors Product specification

Silicon diffused power transistors BUT12F; BUT12AF

DESCRIPTION

High-voltage, high-speed,
glass-passivated NPN power
transistor in a SOT186 plastic
package.

APPLICATIONS

• Converters

• Inverters

• Switching regulators

• Motor control systems.

QUICK REFERENCE DATA

PINNING

PIN DESCRIPTION

1 base
2 collector
3 emitter

mb mounting base; electrically isolated from all pins

handbook, halfpage

handbook, halfpage

23

1

MBK109

Fig.1 Simplified outline (SOT186) and symbol.

1

MBB008

2

3

SYMBOL PARAMETER CONDITIONS MAX. UNIT

V

CESM

collector-emitter peak voltage VBE=0

BUT12F 850 V
BUT12AF 1000 V

V

CEO

collector-emitter voltage open base

BUT12F 400 V

BUT12AF 450 V
V
I

Csat

CEsat

collector-emitter saturation voltage see Figs 7 and 9 1.5 V
collector saturation current

BUT12F 6 A

BUT12AF 5 A
I
I
P
t

C
CM

tot

f

collector current (DC) see Figs 2 and 4 8 A
collector current (peak value) see Fig.2 20 A
total power dissipation Th≤ 25 °C; see Fig.3 23 W
fall time resistive load; see Figs 11 and 12 0.8 µs

1997 Aug 13 1

Philips Semiconductors Product specification

Silicon diffused power transistors BUT12F; BUT12AF

THERMAL CHARACTERISTICS

SYMBOL PARAMETER CONDITIONS VALUE UNIT

R

th j-h

R

th j-a

Notes

1. Mounted without heatsink compound and 30 ±5 N force on centre of package.

2. Mounted with heatsink compound and 30 ±5 N force on centre of package.

LIMITING VALUES

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

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

V

CESM

V

CEO

I

Csat

I

C

I

CM

I

B

I

BM

P

tot

T

stg

T

j

thermal resistance from junction to external heatsink note 1 5.5 K/W

note 2 3.9 K/W

thermal resistance from junction to ambient 55 K/W

collector-emitter peak voltage VBE=0

BUT12F − 850 V
BUT12AF − 1000 V

collector-emitter voltage open base

BUT12F − 400 V
BUT12AF − 450 V

collector saturation current

BUT12F − 6A

BUT12AF − 5A
collector current (DC) see Figs 2 and 4 − 8A
collector current (peak value) see Fig.2 − 20 A
base current (DC) − 4A
base current (peak value) − 6A
total power dissipation Th≤ 25 °C; see Fig.3; note 1 − 23 W
storage temperature −65 +150 °C
junction temperature − 150 °C

Note

1. Mounted without heatsink compound and 30 ±5 N force on centre of package.

ISOLATION CHARACTERISTICS

SYMBOL PARAMETER TYP. MAX. UNIT

V
C

isolM
isol

isolation voltage from all terminals to external heatsink (peak value) − 1500 V
isolation capacitance from collector to external heatsink − 12 pF

1997 Aug 13 2

Philips Semiconductors Product specification

Silicon diffused power transistors BUT12F; BUT12AF

CHARACTERISTICS

T

=25°C unless otherwise specified.

j

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

V

CEOsust

collector-emitter sustaining voltage IC= 100 mA; I

BUT12F 400 −−V
BUT12AF 450 −−V

V

CEsat

collector-emitter saturation voltage

BUT12F I

BUT12AF I

V

BEsat

base-emitter saturation voltage

BUT12F I
BUT12AF I

I

CES

I

EBO

h

FE

collector-emitter cut-off current VCE=V

emitter-base cut-off current VEB=9V; IC=0 −−10 mA
DC current gain VCE=5V; IC= 10 mA; see Fig.10 10 18 35

Switching times resistive load (see Fig.12)
t

on

turn-on time

BUT12F I
BUT12AF I

t

s

storage time

BUT12F I
BUT12AF I

t

f

fall time

BUT12F I

BUT12AF I
Switching times inductive load (see Fig.14)
t

s

storage time

BUT12F I

BUT12AF I

t

f

fall time

BUT12F I

BUT12AF I

see Figs 5 and 6

= 6 A; IB= 1.2 A; see

C

Figs 7 and 9

= 5 A; IB= 1 A; see

C

Figs 7 and 9

= 6 A; IB= 1.2 A; see Fig.7 −−1.5 V

C

= 5 A; IB= 1 A; see Fig.7 −−1.5 V

C

CESMmax

V

CE=VCESMmax

Tj= 125 °C; note 1

=5V; IC= 1 A; see Fig.10 10 20 35

V

CE

= 6 A; I

Con

= 5 A; I

Con

= 6 A; I

Con

= 5 A; I

Con

= 6 A; I

Con

= 5 A; I

Con

= 6 A; I

Con

VCL= 250 V; Tc= 100 °C

= 5 A; I

Con

VCL= 300 V; Tc= 100 °C

= 6 A; I

Con

VCL= 250 V; Tc= 100 °C

= 5 A; I

Con

VCL= 300 V; Tc= 100 °C

= 0; L = 25 mH;

Boff

−−1.5 V

−−1.5 V

; VBE= 0; note 1 −−1mA

Bon
Bon

Bon
Bon

Bon
Bon

Bon

Bon

Bon

Bon

; VBE=0;

= −I
= −I

= −I
= −I

= −I
= −I

= 1.2 A −−1µs

Boff

=1A −−1µs

Boff

= 1.2 A −−4µs

Boff

=1A −−4µs

Boff

= 1.2 A −−0.8 µs

Boff

=1A −−0.8 µs

Boff

= 1.2 A;

=1A;

= 1.2 A;

=1A;

−−3mA

− 1.9 2.5 µs

− 1.9 2.5 µs

− 200 300 ns

− 200 300 ns

Note

1. Measured with a half-sinewave voltage (curve tracer).
1997 Aug 13 3