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Electronics and Communication Engineering (ECE) Exam  >  Electronics and Communication Engineering (ECE) Tests  >  Analog Electronics - 2 - Electronics and Communication Engineering (ECE) MCQ

Analog Electronics - 2 - Electronics and Communication Engineering (ECE) MCQ


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10 Questions MCQ Test - Analog Electronics - 2

Analog Electronics - 2 for Electronics and Communication Engineering (ECE) 2024 is part of Electronics and Communication Engineering (ECE) preparation. The Analog Electronics - 2 questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Analog Electronics - 2 MCQs are made for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Analog Electronics - 2 below.
Solutions of Analog Electronics - 2 questions in English are available as part of our course for Electronics and Communication Engineering (ECE) & Analog Electronics - 2 solutions in Hindi for Electronics and Communication Engineering (ECE) course. Download more important topics, notes, lectures and mock test series for Electronics and Communication Engineering (ECE) Exam by signing up for free. Attempt Analog Electronics - 2 | 10 questions in 30 minutes | Mock test for Electronics and Communication Engineering (ECE) preparation | Free important questions MCQ to study for Electronics and Communication Engineering (ECE) Exam | Download free PDF with solutions
Analog Electronics - 2 - Question 1
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For the transistor circuit shown below:

If V1 = 1V and V2 = -12V R1 = 15k and R2 = 100k R= 2.2 k Vcc = 12V Then the Region of operation of transistor is 

Detailed Solution for Analog Electronics - 2 - Question 1

V1 = 1V

V2 = -12V

R1 = 15 k

R2 = 100 k

= -0.7V

VBB­ < 0, the Base emitter Junction is reversed biased

Hence Transistor is in cut off mode

*Answer can only contain numeric values
Analog Electronics - 2 - Question 2
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Calculate the value of β for the following circuit


Detailed Solution for Analog Electronics - 2 - Question 2


 

I= (1 + β) Iβ

3 × 10-3 = (1 + β) × 0.33 × 10-3

β = 89.9

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Analog Electronics - 2 - Question 3
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In the DC fixed bias circuit shown below the operating point is

Detailed Solution for Analog Electronics - 2 - Question 3


So the operating point is (5.43 mA, 5.89 V)

Analog Electronics - 2 - Question 4
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The Miller effect in the context of a Common Emitter amplifier explains
Detailed Solution for Analog Electronics - 2 - Question 4

The miller effect causes increase in the Input capacitance increase in the Input capacitance of Common – Emitter Amplifier

Upper cutoff frequency 

Therefore, there is decrease in upper-cut off frequency & Bandwidth of CE Amplifier

*Answer can only contain numeric values
Analog Electronics - 2 - Question 5
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For the network shown in the figure. Find the Input independence Zi (kΩ) [Use appropriate approximation]

Detailed Solution for Analog Electronics - 2 - Question 5

DC analysis from voltage divider

Now using appropriate approximations.

Z ≅ βre = 150 × 18.2 = 2.718 kΩ

Input impedance = RB || ZB = 9.09 || 2.718 = 2.092 kΩ

Analog Electronics - 2 - Question 6
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The voltage gain of the amplifier shown if β = 250 is approximately
Detailed Solution for Analog Electronics - 2 - Question 6

Form DC Analysis

Since β value is large

Collector resistance = RC’ = RC ||RL

= 2.2 || 10

= 1.8 kΩ

Voltage gain = 

*Answer can only contain numeric values
Analog Electronics - 2 - Question 7
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For the pnp transistor shown, the collector current IC is_______ mA.

(Assume VEB(ON) = VEB(Sat) = 0.7 V)

VEC(Sat) = 0.2 V

Detailed Solution for Analog Electronics - 2 - Question 7

Assume transistor is in active region

KVL in base emitter loop

0 + IB (10) + 0.7 + IE (1) = 5

IE = (1 + β)IB

IB (10 + 1 + 30) = 4.3

IC = βIB = 30 × 0.105 = 3.15 mA

VE = 5 – 1 (3.255)

= 1.745 V

VB = 1.745 – 0.7 = 1.045 V

VC = -5 + 10 (3.15) = 26.5 (not possible)

Transistor is not in active region it is  in saturation region

VEB = 0.7

VE = VB + 0.7

VEC = VB - VC = 0.2

VC = VB + 0.5

 

= (0.1VB + 0.55) mA

I= IB + IC

4.3 - VB = 0.1 VB + 0.1 VB + 0.55

VB = 3.13

Analog Electronics - 2 - Question 8
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For the circuit shown in the figure if RC = 4 kΩ, RL = 4 kΩ, RB = 20 kΩ, Rs = 1 kΩ and transistor parameter are magnitude of hie = 1.1 kΩ, hfe = 50
The current gain is:
Detailed Solution for Analog Electronics - 2 - Question 8

The AC equivalent circuit is:

Replacing BJT with its h-parameter model


ib using current division

iB = 0

Magnitude = |-11.65| ≈ 12

*Answer can only contain numeric values
Analog Electronics - 2 - Question 9
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For the Common emitter configuration circuit shown below, if IC = 1.25 mA, then the magnitude of voltage gain is_______

Detailed Solution for Analog Electronics - 2 - Question 9

Given RC = 4.7 kΩ, RL = 60 kΩ, Re = 4.7 kΩ, IC = 1.5 mA

Analog Electronics - 2 - Question 10
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The reverse leakage current of the transistor when connected in CB Configuration is 0.3 μ A and it is 18 μA when the same transistor is connected in CE Configuration the value of α and β of the transistor for a base current of 40 mA will be respected.
Detailed Solution for Analog Electronics - 2 - Question 10


Hence α = 0.983 and β = 59

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