ETC STBV32-AP

STBV32

HIGH VOLTAGE FAST-SWITCHING
NPN POWER TRANSISTOR
■
■
■
■
MEDIUM VOLTAGE CAPABILITY
LOW SPREAD OF DYNAMIC PARAMETERS
MINIMUM LOT-TO-LOT SPREAD FOR
RELIABLE OPERATION
VERY HIGH SWITCHING SPEED
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 STBV32 is designed for use in compact
fluorescent lamp application.
Ordering codes:
STBV32
(shipment in bulk)
STBV32-AP
(shipment in ammopack)
TO-92
INTERNAL SCHEMATIC DIAGRAM
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Uni t
V CES
Collector-Emitter Voltage (V BE = 0)
700
V
V CEO
Collector-Emitter Voltage (I B = 0)
400
V
V EBO
Emitt er-Base Voltage
o
(I C = 0, IB = 0.5 A, tp < 10µs, T j < 150 C)
Collector Current
BV EBO
V
1
A
3
A
0.5
1.5
A
A
IC
I CM
Collector Peak Current (tp < 5 ms)
I BM
Base Current
Base Peak Current (t p < 5 ms)
P t ot
Total Dissipation at T amb = 25 oC
T stg
St orage Temperature
IB
Tj
August 2001
Max. Operating Junction T emperature
1.1
W
-65 to 150
o
C
150
o
C
1/7
STBV32
THERMAL DATA
R thj-a
Thermal Resistance Junction-ambient
Max
o
112
C/W
ELECTRICAL CHARACTERISTICS (Tcase = 25 oC unless otherwise specified)
Symb ol
I CEV
Parameter
Test Cond ition s
Min.
Collector Cut-off
Current (V BE = -1.5V)
V CE = 700V
V CE = 700V
Emitter-Base
Breakdown Voltage
(I C = 0)
I E = 10 mA
9
V CEO(sus )∗ Collector-Emitter
Sustaining Voltage
(I B = 0)
I C = 10 mA
L = 25mH
400
BV EBO
Typ .
o
T j = 125 C
Max.
Un it
1
5
mA
mA
18
V
V
V CE(sat )∗
Collector-Emitter
Saturation Voltage
I C = 0.5 A
IC = 1 A
I C = 1.5 A
I B = 0.1 A
IB = 0.25 A
I B = 0.5 A
0.5
1
3
V
V
V
V BE(s at)∗
Base-Emitter
Saturation Voltage
I C = 0.5 A
IC = 1 A
I B = 0.1 A
IB = 0.25 A
1
1.2
V
V
DC Current G ain
I C = 0.5 A
IC = 1 A
V CE = 2 V
VCE = 2 V
IC = 1 A
I B1 = 0.2 A
T p = 25 µs
V CC = 125 V
I B2 = -0.2 A
h FE
tr
ts
tf
RESISTIVE LO AD
Rise Time
Storage Time
Fall Time
ts
INDUCTIVE LOAD
Storage Time
IC = 1 A
V BE = -5 V
V c la mp = 300 V
∗ Pulsed: Pulse duration = 300µs, duty cycle = 1.5 %.
2/7
I B1 = 0.2 A
L = 50 mH
8
5
35
25
1
4
0.7
0.8
µs
µs
µs
µs
STBV32
Safe Operating Areas
Derating Curve
DC Current Gain
DC Current Gain
Collector Emitter Saturation Voltage
Base Emitter Saturation Voltage
3/7
STBV32
Inductive Fall Time
Reverse Biased SOA
4/7
Inductive Storage Time
STBV32
Figure 1: Inductive Load Switching Test Circuits.
1) F ast electr onic switch
2) Non-inductive Resistor
3) F ast recovery rectifier
Figure 2: Resistive Load Switching Test Circuits.
1) F ast electr onic switch
2) Non-inductive Resistor
5/7
STBV32
TO-92 MECHANICAL DATA
mm
inch
DIM.
MIN.
MAX.
MIN.
TYP.
MAX.
A
4.58
5.33
0.180
0.210
B
4.45
5.2
0.175
0.204
C
3.2
4.2
0.126
0.165
D
12.7
E
6/7
TYP.
0.500
1.27
F
0.4
G
0.35
0.050
0.51
0.016
0.14
0.020
STBV32
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of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is
granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are
subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products
are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
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