GATE ECE 2013 | Bipolar Junction Transistor Question 21 | Analog Circuits

In the circuit shown below, the silicon npn transistor Q has a very high value of $$\beta $$. The required value of R₂ in k$$\Omega $$ to produce I_c = 1mA is GATE ECE 2013 Analog Circuits - Bipolar Junction Transistor Question 27 English

GATE ECE 2013 Analog Circuits - Bipolar Junction Transistor Question 27 English

GATE ECE 2012

MCQ (Single Correct Answer)

-0.6

The voltage gain A_v of the circuit shown below is GATE ECE 2012 Analog Circuits - Bipolar Junction Transistor Question 28 English

$$\left| {{{\rm A}_v}} \right|\, \approx \,200$$

$$\left| {{{\rm A}_v}} \right|\, \approx \,100$$

$$\left| {{{\rm A}_v}} \right|\, \approx \,20$$

$$\left| {{{\rm A}_v}} \right|\, \approx \,10$$

GATE ECE 2011

MCQ (Single Correct Answer)

-0.6

For a BJT, the common-base current gain $$\alpha = \,\,0.98$$ and the colector base junction reverse bias saturation current I_co = 0.6 $$\mu {\rm A}$$. This BJT is connected in the common emitter mode and operated in the active region with a base drive current I_B = 20$$\mu {\rm A}$$. The collector current I_c for this mode of operation is

0.98 mA

0.99 mA

1.0 mA

1.01 mA

GATE ECE 2011

MCQ (Single Correct Answer)

-0.6

For the BJT Q₁ in the circuit shown below, $$\beta = \infty ,\,\,\,\,{V_{BEon\,}}\, = \,0.7V,\,\,\,{V_{CEsat}}\, = \,0.7V.$$. The switch is initially closed. at time t = 0, the switch is opened. The time t at which q₁ leaves the active region is GATE ECE 2011 Analog Circuits - Bipolar Junction Transistor Question 29 English

GATE ECE 2011 Analog Circuits - Bipolar Junction Transistor Question 29 English

10 ms

25 ms

50 ms

100 ms

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GATE ECE Subjects

Signals and Systems

Network Theory

Control Systems

Digital Circuits

General Aptitude

Electronic Devices and VLSI

Analog Circuits

Engineering Mathematics

Microprocessors

Communications

Electromagnetics