Panasonic 2SB1490 Datasheet

Po wer Transistors
2SB1490
Silicon PNP epitaxial planar type Darlington
For power amplification Complementary to 2SD2250
Features
Optimum for 80W HiFi output
High foward current transfer ratio h
Low collector to emitter saturation voltage V
Absolute Maximum Ratings (T
Parameter
Collector to base voltage Collector to emitter voltage Emitter to base voltage Peak collector current Collector current Collector power dissipation
TC=25°C Ta=25°C
Junction temperature Storage temperature
Electrical Characteristics (T
Parameter
Collector cutoff current
Emitter cutoff current Collector to emitter voltage
Forward current transfer ratio
Collector to emitter saturation voltage Base to emitter saturation voltage Transition frequency Turn-on time Storage time Fall time
Symbol
V
CBO
V
CEO
V
EBO
I
CP
I
C
P
C
T
j
T
stg
C
Symbol
I
CBO
I
CEO
I
EBO
V
CEO
h
FE1
*
h
FE2
V
CE(sat)
V
BE(sat)
f
T
t
on
t
stg
t
f
FE
=25˚C)
C
Ratings
–160 –140
–5
–12
–7 90
3.5
150
–55 to +150
=25˚C)
: < –2.5V
CE(sat)
Unit
V V V A A
W
Internal Connection
˚C ˚C
Conditions
VCB = –160V, IE = 0 VCE = –140V, IB = 0 VEB = –5V, IC = 0 IC = –30mA, IB = 0 VCE = –5V, IC = –1A VCE = –5V, IC = –6A IC = –6A, IB = –6mA IC = –6A, IB = –6mA VCE = –10V, IC = – 0.5A, f = 1MHz
IC = –6A, IB1 = –6mA, IB2 = 6mA, VCC = –50V
6.010.0
26.0±0.520.0±0.5
1.5
2.5
20.0±0.5
1.5
Solder Dip
10.9±0.5
123
B
min
140 2000 5000
3.0±0.3
1.0±0.2
5.45±0.3
typ
20
1.0
1.5
1.2
φ 3.3±0.2
5.0±0.3
3.0
4.02.0
2.0±0.3
TOP–3L Package
C
E
max
–100 –100 –100
30000
–2.5 –3.0
Unit: mm
3.0
2.0
1.5
2.7±0.3
0.6±0.2
1:Base 2:Collector 3:Emitter
Unit
µA µA µA
V
V
MHz
µs µs µs
*
h
Rank classification
FE2
Rank Q P
h
5000 to 15000 8000 to 30000
FE2
1
Po wer Transistors 2SB1490
PC—Ta IC—V
200
) W
(
C
150
100
50
Collector power dissipation P
0
0 16040 12080 14020 10060
–100
) V
(
–30
BE(sat)
–10
–3
–1
– 0.3
Base to emitter saturation voltage V
– 0.1
– 0.1 –1 –10 –100– 0.3 –3 –30
(1) TC=Ta (2) With a 100 × 100 × 2mm
Al heat sink
(3) Without heat sink
=3.5W)
(P
C
(1)
(3)
(2)
Ambient temperature Ta (˚C
V
BE(sat)—IC
IC/IB=1000
TC=–25˚C
100˚C
Collector current IC (A
25˚C
)
CE
–12
–10
) A
(
C
IB=–5mA
–8
–6
–4
–1mA
– 0.9mA
Collector current I
–2
0
0 –12–10–8–2 –6–4
)
Collector to emitter voltage VCE (V
hFE—I
100000
30000
FE
10000
3000
1000
300
100
Forward current transfer ratio h
30
10
– 0.01
– 0.03
Collector current IC (A
TC=100˚C
– 0.1 –1 –10
– 0.3 –3
– 0.8mA
– 0.7mA
C
TC=25˚C
– 0.6mA
– 0.5mA
– 0.4mA – 0.3mA
– 0.2mA
– 0.1mA
VCE=–5V
–25˚C
25˚C
)
)
–100
V
(
–30
CE(sat)
–10
–3
–1
– 0.3
– 0.1
Collector to emitter saturation voltage V
)
1000
) pF
(
300
ob
100
30
10
Collector output capacitance C
V
CE(sat)—IC
IC/IB=1000
TC=100˚C
25˚C
–25˚C
– 0.1 –1 –10 –100– 0.3 –3 –30
CB
)
IE=0 f=1MHz T
=25˚C
C
Collector current IC (A
Cob—V
3
1
–1 –3 –10 –30 –100
Collector to base voltage VCB (V
)
100
30
) µs
(
10
f
,t
stg
3
,t
t
stg
on
t
f
1
t
on
0.3
0.1
Switching time t
0.03
0.01 0 –16–4 –12–8
Collector current IC (A
2
ton, t
, tf—I
stg
C
Pulsed tw=1ms Duty cycle=1%
=1000
I
C/IB
)
(–I
B1=IB2
V
=–50V
CC
=25˚C
T
C
Area of safe operation (ASO)
–100
–30
I
CP
)
–10
A
(
I
C
C
–3
–1
– 0.3
– 0.1
Collector current I
– 0.03
– 0.01
–1 –10 –100 –1000–3 –30 –300
)
Collector to emitter voltage VCE (V
10ms
Non repetitive pulse
=25˚C
T
C
t=1ms
DC
)
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