SGS Thomson Microelectronics STD93003 Datasheet

®

HIGH VOLTAGE FAST-SWITCHING

■ REVERSE PINS O UT Vs STAN DARD IPAK

(TO-251) / DPAK (TO-252) PACKAGES

■ MEDIUM VOLTAGE CAPABILITY

■ LOW SPREAD OF DYNAMIC PARAMETERS

■ MINIMUM LOT- TO- LO T SPR E AD FO R

RELIABLE OPERATION

■ VERY HIGH SWI TCHING SPEED

■ SURFACE-MOUNTING DPAK (TO-252)

POWER PACKAGE IN TAPE & REEL (Suffix
"T4")

■ THROUGH-HO L E IPA K (TO-251) PO WE R

PACKA GE IN TU BE (Suf fix "- 1" )

APPLICATIONS:

■ ELECTRONIC BALLASTS FOR

FLUORESCENT LIGHTING

DESCRIPTION

The device is manufactured using high voltage
Multi-Epitaxial Planar technology for high
switching speeds and medium voltage capability.
It uses a Cellular Emitter structure with planar
edge termination to enhance switching speeds
while maintaining the wide RBSOA.

The STD93003 is expressly designed for a new
solution to be used in compact fluorescent lamps,
where it is coupled with the STD83003, its
complementary NPN tra nsist or.

STD93003

PNP POWER TRANSISTOR

1

2

3

IPAK

TO-251

(Suffix "-1" )

DPAK

TO-252

(Suffix "T4 ")

INTERNAL SCHEMATIC DIAGRAM

1

3

ABSOL UT E MAXIMU M RATINGS

Symbol Parameter Value Unit

V
V
V

I

I
P

T

October 2002

Collector-Emitter Voltage (VBE = 0) -500 V

CES

Collector-Emitter Voltage (IB = 0) -400 V

CEO

Emitter-Base Voltage

EBO

= 0, IB = -0.75 A, tp < 10µs, Tj < 150oC)

(I

C

Collector Current -1.5 A

I

C

Collector Peak Current (tp < 5 ms) -3 A

CM

I

Base Current -0.75 A

B

Base Peak Current (tp < 5 ms) -1.5 A

BM

Total Dissipation at Tc = 25 oC20W

tot

Storage Temperature -65 to 150

stg

T

Max. Operating Junction Temperature 150

j

V

(BR)EBO

V

o

C

o

C

1/8

STD93003

THERMAL DATA

R

thj-case

R

thj-amb

Thermal Resistance Junction-case Max
Thermal Resistance Junction-ambient Max

6.25
100

o

C/W

o

C/W

ELECTRICAL CHARACTERISTICS (T

= 25 oC unless otherwise specified)

case

Symbol Parameter Test Conditions Min. Typ. Max. Unit

I

CES

V

(BR)EBO

Collector Cut-off
Current (V

BE

= 0)

Emitter Base

= -500V

V

CE

V

= -500V T

CE

I

= -10 mA -5 -10 V

E

= 125oC

j

-1

-5

Breakdown Voltage
(I

= 0)

C

V

CEO(sus)

V

CE(sat)

V

BE(sat)

∗ Collector-Emitter

Sustaining Voltage
(I

= 0)

B

∗ Collector-Emitter

Saturation Voltage

∗ Base-Emitter

I

= -10 mA

C

-400 V

L = 25 mH

IC = -0.5 A IB = -0.1 A
I

= -0.35 A IB = -50 mA

C

-0.5

-0.5

IC = -0.5 A IB = -0.1 A -1 V

Saturation Voltage

∗ DC Current Gain IC = -10 mA V

h

FE

I

= -0.35 A V

C

I

= -1 A V

C

CE
CE

CE

= -5 V
= -5 V

= -5 V

10
16

25 32

4

RESISTIVE LOAD

t

Rise Time

r
s

t

f

Storage Time
Fall Time

t

INDUCTIVE LOAD

t

E

∗ Pulsed: Pulse duration = 300µs, duty cycle = 1.5 %.

Storage Time

s

Fall Time

t

f

Avalanche Energy L = 4 mH C = 1.8 nF

sb

I

= -0.35 A VCC = 125 V

C

I

= -70 mA IB2 = 70 mA

B1

≥ 25 µs (see Figure 2)

T

p

I

= -0.5 A IB1 = -0.1 A

C

V

= 5 V L = 10 mH

BE(off)

V

= 300 V (see Figure 1)

clamp

≤ 2.5 A 25oC < TC < 125oC

I

BR

90

1.5

2.2

2.9

0.1

400

40

12 mJ

mA
mA

V
V

ns

µs
µs

ns
ns

2/8

STD93003

Safe Operating Are a

DC Current Gain

Derating Curve

DC Current Gain

Collector Emitter Sat uration Volt a ge

Base Emitter Satur ation Voltage

3/8