2SCR544R_10 Datasheet, PDF(3/5 Page) Rohm – Midium Power Transistors (80V / 2.5A)

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2SCR544R_10 Datasheet, PDF (3/5 Pages) Rohm – Midium Power Transistors (80V / 2.5A)

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2SCR544R

ï¬Electrical characteristics curves

5mA 3mA 2.5mA

0.50

0.45

0.40

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

0.5

2.0mA

1.5mA

1.0mA

0.5mA

Ta=25Â°C

1.5

COLECTOR TO EMITTER VOLTAGE : VCE[V]

Fig.1 Typical Output Characteristics

Data Sheet

1000

Ta=25Â°C

1000

VCE = 3V

100

VCE = 5V

100

1000 10000

COLLECTOR CURRENT : IC[mA]

Fig.2 DC Current Gain vs.

Collector Current ( Î )

100

Ta=125Â°C

75Â°C

25Â°C

-40Â°C

100

1000 10000

COLLECTOR CURRENT : IC[mA]

Fig3. DC Current Gain vs.

Collector Current ( ÎÎ )

Ta=25Â°C

0.1

0.01

IC/IB=50

0.001

100

1000 10000

COLLECTOR CURRENT : IC[mA]

Fig.4 Collector-Emitter Saturation Voltage

vs. Collector Current ( Î )

1 IC/IB=20

0.1

Ta=125Â°C

75Â°C

0.01

25Â°C

-40Â°C

0.001

100

1000 10000

COLLECTOR CURRENT : IC[mA]

Fig.5 Collector-Emitter Saturation Voltage

vs. Collector Current ( ÎÎ )

10000

VCE = 3V

1000

100

Ta=125Â°C

75Â°C

25Â°C

-40Â°C

0.5

1.5

BASE TO EMITTER VOLTAGE : VBE[V]

Fig.6 Ground Emitter Propagation

Characteristics

1000

100

Ta=25Â°C

Cib

f=1MHz

IE=0A

IC=0A

Cob

0.1

100

COLLECTOR - BASE VOLTAGE : VCB [V]

EMITTER - BASE VOLTAGE : VEB [V]

Fig.7 Emitter Input Capacitance vs.

Emitter-Base Voltage

Collector Output Capacitance vs.

Collector-Base Voltage

1000 Ta=25Â°C

VCE=10V

100

1000

EMITTER CURRENT : IE[mA]

Fig.8 Gain Bandwidth Product vs.

Emitter Current

10 Single pulse

1ms

10ms

100ms

0.1

DC Ta=25Â°C

0.01

(Mounted on a

recommended land)

0.001

0.1

100

COLLECTOR TO EMITTER VOLTAGE : VCE[V]

Fig.9 Safe Operating Area

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2010.02 - Rev.A

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