1
GATE EE 2024
MCQ (Single Correct Answer)
+2
-1.33

A BJT biasing circuit is shown in the figure, where $V_{BE} = 0.7\,V$ and $\beta = 100$. The Quiescent Point values of $V_{CE}$ and $I_c$ are respectively

GATE EE 2024 Analog Electronics - Bjt and Mosfet Biasing Question 2 English

A

4.6 V and 2.46 mA

B

3.5 V and 2.46 mA

C

2.61 V and 3.13 mA

D

4.6 V and 3.13 mA

2
GATE EE 2017 Set 2
MCQ (Single Correct Answer)
+2
-0.6
For the circuit shown in the figure below, it is given that $${V_{CE}} = {{{V_{CC}}} \over 2}.$$ The transistor has $$\beta = 29$$ and $${V_{BE}} = 0.7\,\,V$$ when the $$B$$-$$E$$ junction is forward biased. GATE EE 2017 Set 2 Analog Electronics - Bjt and Mosfet Biasing Question 12 English

For this circuit, the value of $${{{R_B}} \over R}$$ is

A
$$43$$
B
$$92$$
C
$$121$$
D
$$129$$
3
GATE EE 2017 Set 1
Numerical
+2
-0
The circuit shown in the figure uses matched transistors with a thermal voltage $${V_T} = 25\,mV.$$ The base currents of the transistors are negligible. The value of the resistance $$R$$ in $$k\Omega $$ that is required to provide $$1\,\,\,\mu A$$ bias current for the differential amplifier block shown is ____________. GATE EE 2017 Set 1 Analog Electronics - Bjt and Mosfet Biasing Question 13 English
Your input ____
4
GATE EE 2012
MCQ (Single Correct Answer)
+2
-0.6
The voltage gain $${A_V}$$ of the circuit shown below is GATE EE 2012 Analog Electronics - Bjt and Mosfet Biasing Question 14 English
A
$$\left| {{A_V}} \right| \approx 200$$
B
$$\left| {{A_V}} \right| \approx 100$$
C
$$\left| {{A_V}} \right| \approx 20$$
D
$$\left| {{A_V}} \right| \approx 10$$
GATE EE Subjects
EXAM MAP