ROHM 2SB1326

2SB1386 / 2SB1412 / 2SB1326
Transistors
Low frequency transistor (−20V, −5A)
2SB1386 / 2SB1412 / 2SB1326
zExternal dimensions (Unit : mm)
2SB1412
(1)
0.4±0.1
1.5±0.1
(2)
(3)
0.5±0.1
0.4+0.1
−0.05
C0.5
0.65±0.1
0.75
0.55±0.1
0.4±0.1
1.5±0.1
2.3±0.2
2.3±0.2
1.0±0.2
(1) (2) (3)
(1) Base
(2) Collector
(3) Emitter
ROHM : MPT3
EIAJ : SC-62
9.5±0.5
0.9
3.0±0.2
ROHM : CPT3
EIAJ : SC-63
∗
(1) Base
(2) Collector
(3) Emitter
Abbreviated symbol: BH
2SB1326
2.5±0.2
4.4±0.2
0.9
6.8±0.2
0.65Max.
0.5±0.1
(1)
(2)
14.5±0.5
1.0
zStructure
Epitaxial planar type
PNP silicon transistor
0.2
2.3+−0.1
0.5±0.1
0.9
4.0±0.3
2.5+0.2
−0.1
0.3
5.5+
−0.1
6.5±0.2
0.2
5.1+−0.1
1.5
1.5 +0.2
−0.1
1.6±0.1
2.5
0.5±0.1
4.5+0.2
−0.1
1.5±0.3
2SB1386
1.0±0.2
zFeatures
1) Low VCE(sat).
VCE(sat) = −0.35V (Typ.)
(IC/IB = −4A / −0.1A)
2) Excellent DC current gain characteristics.
3) Complements the 2SD2098 / 2SD2118 /
2SD2097.
(3)
2.54 2.54
1.05
ROHM : ATV
0.45±0.1
(1) Emitter
(2) Collector
(3) Base
∗ Denotes h
FE
Rev.A
1/4
2SB1386 / 2SB1412 / 2SB1326
Transistors
zAbsolute maximum ratings (Ta=25°C)
Symbol
Limits
Collector-base voltage
VCBO
−30
V
Collector-emitter voltage
VCEO
−20
V
Emitter-base voltage
VEBO
−6
V
−5
A(DC)
Parameter
IC
Collector current
A(Pulse) ∗1
W
W
∗2
W
W(Tc=25°C)
∗3
W
−10
0.5
2
1
10
1
2SB1386
Collector power 2SB1412
dissipation
Unit
PC
2SB1326
Junction temperature
Tj
150
°C
Storage temperature
Tstg
−55 to 150
°C
∗1
∗2
∗3
Single pulse, Pw=10ms
When mounted on a 40×40×0.7 mm ceramic board.
Printed circuit board glass epoxy board 1.6 mm thick with copper plating 100mm2 or larger.
zElectrical characteristics (Ta=25°C)
Parameter
Symbol
Min.
Typ.
Max.
Unit
Conditions
BVCBO
−30
−
−
V
IC= −50µA
Collector-emitter breakdown voltage BVCEO
−20
−
−
V
IC= −1mA
BVEBO
−6
−
−
V
IE= −50µA
ICBO
−
−
−0.5
µA
VCB= −20V
IEBO
−
−
−0.5
µA
VEB= −5V
VCE(sat)
−
0.35
−1.0
V
IC/IB= −4A/ −0.1A
Collector-base breakdown voltage
Emitter-base breakdown voltage
Collector cutoff current
Emitter cutoff current
Collector-emitter saturation voltage
2SB1386,2SB1412
DC current
transfer ratio
82
−
390
−
120
−
390
−
fT
−
120
−
MHz
Cob
−
60
−
pF
hFE
2SB1326
Transition frequency
Output capacitance
∗
∗
∗
VCE= −2V, IC= −0.5A
VCE= −6V, IE=50mA, f=100MHz
VCB= −20V, IE=0A, f=1MHz
∗ Measured using pulse current.
zPackaging specifications and hFE
Taping
Package
Type
hFE
Code
T100
TL
TV2
Basic ordering
unit (pieces)
1000
2500
2500
−
−
2SB1386
PQR
2SB1412
PQR
−
2SB1326
QR
−
−
−
hFE values are classified as follows :
Item
P
Q
R
hFE
82 to 180
120 to 270
180 to 390
Rev.A
2/4
2SB1386 / 2SB1412 / 2SB1326
Transistors
zElectrical characteristic curves
−200m
−100m
−50m
−20m
−10m
−5m
−2m
−1m
0
−0.2
Fig.1
Ta=100°C
25°C
−25°C
20
−1.2
−1.6
200
Ta=100°C
25°C
−25°C
50
20
5
−5 −10
−1m −2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−5 −10
Fig.4 DC current gain vs.
collector current ( )
Fig.5 DC current gain vs.
collector current ( )
−2
−1
−0.5
−0.2
Ta=100°C
25°C
−25°C
−0.01
−2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−5 −10
COLLECTOR SATURATION VOLTAGE : VCE(sat) (V)
COLLECTOR CURRENT : IC (A)
lC/lB=10
−5
5
−1m −2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−1
Ta=100°C
25°C
−0.2
−0.1
−0.05
−25°C
−0.02
−0.01
−2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−5 −10
Ta=25°C
−2
−1
−0.5
−0.2
−0.1
IC/IB=50/1
40/1
/1
30/1
10/1
−0.05
−0.02
−0.01
−2m −5m −0.0− -0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−5 −10
Collector-emitter saturation
voltage vs. collector current (
Collector-emitter saturation
voltage vs. collector current ( )
−5
lC/lB=40
−2
−25°C
−1
25°C
−0.5
−0.2
−0.1
−0.05
Ta=100°C
−0.02
−0.01
−2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
−5 −10
COLLECTOR CURRENT : IC (A)
COLLECTOR CURRENT : IC (A)
Fig.8
DC current gain vs.
collector current ( )
−5
Fig.6
lC/lB=30
−0.5
−5 −10
COLLECTOR CURRENT : IC (A)
COLLECTOR CURRENT : IC (A)
−2
COLLECTOR CURRENT : IC (A)
Collector-emitter saturation
voltage vs. collector current ( )
20
Fig.3
1k
COLLECTOR CURRENT : IC (A)
−5
50
Grounded emitter output
characteristics
VCE= −2V
100
−2V
−1V
100
−2.0
10
5
−1m −2m −5m −0.01 −0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
COLLECTOR SATURATION VOLTAGE : VCE(sat) (V)
−0.8
500
10
Fig.7
−0.4
VCE= −5V
200
10
IB=0A
0
5k
DC CURRENT GAIN : hFE
DC CURRENT GAIN : hFE
200
−0.02
−1
2k
1k
−0.05
−5mA
Fig.2
VCE= −1V
500
−0.1
−2
1k
500
COLLECTOR TO EMITTER VOLTAGE : VCE (V)
2k
50
−10mA
Grounded emitter propagation
characteristics
5k
100
−3
0
Ta=25°C
2k
−15mA
−0.4 −0.6 −0.8 −1.0 −1.2 −1.4
BASE TO EMITTER VOLTAGE : VBE (V)
5k
Ta=25°C
mA
−30
A
−25m
−20mA
DC CURRENT GAIN : hFE
Ta=100°C
25°C
−25°C
−5 −50mA
−45mA
−40mA
−4 −35mA
COLLECTOR SATURATION VOLTAGE : VCE(sat) (V)
COLLECTOR CURRENT : IC (A)
−2
−1
−500m
COLLECTOR CURRENT : IC (A)
VCE= −2V
−5
COLLECTOR SATURATION VOLTAGE : VCE(sat) (V)
−10
)
Fig.9 Collector-emitter saturation
voltage vs. collector current (
Rev.A
)
3/4
2SB1386 / 2SB1412 / 2SB1326
1 000
lC/lB=50
−25°C
25°C
Ta=100°C
−2
−1
−0.5
−0.2
−0.1
−0.05
−0.02
−0.01
−2m −5m −0.01−0.02 −0.05 −0.1 −0.2 −0.5 −1 −2
Ta=25°C
VCE= −6V
500
200
100
50
20
10
5
2
1
−5 −10
1
−5
−10
EMITTER TO BASE VOLTAGE : VEB (V)
Fig.13 Emitter input capacitance
vs. emitter-base voltage
50
20
10
−0.1 −0.2 −0.5 −1
−2
−5 −10 −20
−50
COLLECTOR TO BASE VOLTAGE : VCB (V)
Fig.12 Collector output capacitance
vs. collector-base voltage
Ta=25°C
Single
nonrepetitive
pulse
∗
50
COLLECTOR CURRENT : IC (A)
100
20
10
5
2
1
500m
DC
ms
−2
200
ms
20
100
00
50
−1
500 1000
Ta=25°C
f=1MHz
IE=0A
500
0
=1
100
−0.5
50 100 200
1000
Pw
200
−0.2
20
=1
Pw
EMITTER INTPUT CAPACITANCE : Cib (pF)
Ta=25°C
f=1MHz
IC=0A
10
−0.1
10
Fig.11 Gain bandwidth product
vs. emitter current
Fig.10 Collector-emitter saturation
voltage vs. collector current ( )
500
5
EMITTER CURRENT : IE (mA)
COLLECTOR CURRENT : IC (A)
1000
2
COLLECTOR OUTPUT CAPACITANCE : Cob (pF)
−5
TRANSEITION FREQUENCY : fT (MHz)
COLLECTOR SATURATION VOLTAGE : VCE(sat) (V)
Transistors
200m
100m
50m
20m
10m
0.2 0.5 1
2
5 10 20 50 100 200 500
COLLECTOR TO EMITTER VOLTAGE : −VCE (V)
Fig.14 Safe operation area
F(2SB1412)
Rev.A
4/4
Appendix
Notes
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The contents described herein are subject to change without notice. The specifications for the
product described in this document are for reference only. Upon actual use, therefore, please request
that specifications to be separately delivered.
Application circuit diagrams and circuit constants contained herein are shown as examples of standard
use and operation. Please pay careful attention to the peripheral conditions when designing circuits
and deciding upon circuit constants in the set.
Any data, including, but not limited to application circuit diagrams information, described herein
are intended only as illustrations of such devices and not as the specifications for such devices. ROHM
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The products listed in this document are designed to be used with ordinary electronic equipment or devices
(such as audio visual equipment, office-automation equipment, communications devices, electrical
appliances and electronic toys).
Should you intend to use these products with equipment or devices which require an extremely high level of
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About Export Control Order in Japan
Products described herein are the objects of controlled goods in Annex 1 (Item 16) of Export Trade Control
Order in Japan.
In case of export from Japan, please confirm if it applies to "objective" criteria or an "informed" (by MITI clause)
on the basis of "catch all controls for Non-Proliferation of Weapons of Mass Destruction.
Appendix1-Rev1.1