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Электронный компонент: Q62702-C1742

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Semiconductor Group
1
04.96
PNP Silicon AF Transistors
BC 856 ... BC 860
Features
q
For AF input stages and driver applications
q
High current gain
q
Low collector-emitter saturation voltage
q
Low noise between 30 Hz and 15 kHz
q
Complementary types: BC 846, BC 847,
BC 849, BC 850 (NPN)
Type
Marking
Package
1)
Pin Configuration
BC 856 A
BC 856 B
BC 857 A
BC 857 B
BC 857 C
BC 858 A
BC 858 B
BC 858 C
BC 859 A
BC 859 B
BC 859 C
BC 860 B
BC 860 C
Q62702-C1773
Q62702-C1886
Q62702-C1850
Q62702-C1688
Q62702-C1851
Q62702-C1742
Q62702-C1698
Q62702-C1507
Q62702-C1887
Q62702-C1774
Q62702-C1761
Q62702-C1888
Q62702-C1889
3As
3Bs
3Es
3Fs
3Gs
3Js
3Ks
3Ls
4As
4Bs
4Cs
4Fs
4Gs
SOT-23
1
2
3
Ordering Code
(tape and reel)
B
E
C
1)
For detailed information see chapter Package Outlines.
BC 856 ... BC 860
Semiconductor Group
2
Maximum Ratings
Parameter
Symbol
BC 856
Unit
Collector-emitter voltage
V
CE0
65
V
Collector-base voltage
V
CB0
80
Emitter-base voltage
V
EB0
Collector current
I
C
mA
Peak emitter current
I
EM
Total power dissipation,
T
S
= 71 C
P
tot
mW
Junction temperature
T
j
C
Storage temperature range
T
stg
65 ... + 150
Thermal Resistance
Junction - ambient
1)
R
th JA
310
K/W
Peak collector current
I
CM
Peak base current
I
BM
BC 857
BC 860
45
50
100
200
330
150
200
200
Values
BC 858
BC 859
30
30
Collector-emitter voltage
V
CES
80
50
30
5
5
5
Junction - soldering point
R
th JS
240
1)
Package mounted on epoxy pcb 40 mm
40 mm
1.5 mm/6 cm
2
Cu.
BC 856 ... BC 860
Semiconductor Group
3
Electrical Characteristics
at
T
A
= 25 C, unless otherwise specified.
V
Collector-emitter breakdown voltage
I
C
= 10 mA
BC 856
BC 857, BC 860
BC 858, BC 859
V
(BR)CE0
65
45
30




nA
A
Collector cutoff current
V
CB
= 30 V
V
CB
= 30 V,
T
A
= 150 C
I
CB0

1
15
4
Unit
Values
Parameter
Symbol
min.
typ.
max.
DC characteristics
Collector-base breakdown voltage
I
C
= 10
A
BC 856
BC 857, BC 860
BC 858, BC 859
V
(BR)CB0
80
50
30




Emitter-base breakdown voltage
I
E
= 1
A
V
(BR)EB0
5
mV
Collector-emitter saturation voltage
1)
I
C
= 10 mA,
I
B
= 0.5 mA
I
C
= 100 mA,
I
B
= 5 mA
V
CEsat

75
250
300
650
DC current gain
I
C
= 10
A,
V
CE
= 5 V
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
I
C
= 2 mA,
V
CE
= 5 V
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
h
FE


125
220
420
140
250
480
180
290
520


250
475
800
Base-emitter saturation voltage
1)
I
C
= 10 mA,
I
B
= 0.5 mA
I
C
= 100 mA,
I
B
= 5 mA
V
BEsat

700
850

Collector-emitter breakdown voltage
I
C
= 10
A,
V
BE
= 0
BC 856
BC 857, BC 860
BC 858, BC 859
V
(BR)CES
80
50
30




Base-emitter voltage
I
C
= 2 mA,
V
CE
= 5 V
I
C
= 10 mA,
V
CE
= 5 V
V
BE(on)
600
650
750
820
1)
Pulse test:
t
300
s,
D
= 2 %.
BC 856 ... BC 860
Semiconductor Group
4
Electrical Characteristics
at
T
A
= 25 C, unless otherwise specified.
Unit
Values
Parameter
Symbol
min.
typ.
max.
MHz
Transition frequency
I
C
= 20 mA,
V
CE
= 5 V,
f
= 100 MHz
f
T
250
AC characteristics
pF
Output capacitance
V
CB
= 10 V,
f
= 1 MHz
C
obo
3
Input capacitance
V
CB
= 0.5 V,
f
= 1 MHz
C
ibo
8
k
Short-circuit input impedance
I
C
= 2 mA,
V
CE
= 5 V,
f
= 1 kHz
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
h
11e


2.7
4.5
8.7


dB
Noise figure
I
C
= 0.2 mA,
V
CE
= 5 V,
R
S
= 2 k
f
= 30 Hz ... 15 kHz
BC 859
BC 860
f
= 1 kHz,
f
= 200 Hz
BC 859
BC 860
F



1.2
1.0
1.0
1.0
4
3
4
4
10
4
Open-circuit reverse voltage transfer ratio
I
C
= 2 mA,
V
CE
= 5 V,
f
= 1 kHz
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
h
12e


1.5
2.0
3.0


Short-circuit forward current transfer ratio
I
C
= 2 mA,
V
CE
= 5 V,
f
= 1 kHz
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
h
21e


200
330
600


S
Open-circuit output admittance
I
C
= 2 mA,
V
CE
= 5 V,
f
= 1 kHz
BC 856 A ... BC 859 A
BC 856 B ... BC 860 B
BC 857 C ... BC 860 C
h
22e


18
30
60


V
Equivalent noise voltage
I
C
= 0.2 mA,
V
CE
= 5 V,
R
S
= 2 k
f
= 10 Hz ... 50 Hz
BC 860
V
n
0.110
BC 856 ... BC 860
Semiconductor Group
5
Total power dissipation
P
tot
=
f
(
T
A
*;
T
S
)
* Package mounted on epoxy
Permissible pulse load
P
tot max
/
P
tot DC
=
f
(
t
p
)
Collector-base capacitance
C
CB0
=
f
(
V
CB0
)
Emitter-base capacitance
C
EB0
=
f
(
V
EB0
)
Transition frequency
f
T
=
f
(
I
C
)
V
CE
= 5 V