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Electronics and Communication Engineering (ECE) Exam  >  Electronics and Communication Engineering (ECE) Tests  >  GATE ECE (Electronics) Mock Test Series 2025  >  Test: Miller Effect Capacitance - Electronics and Communication Engineering (ECE) MCQ

Test: Miller Effect Capacitance - Electronics and Communication Engineering (ECE) MCQ


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10 Questions MCQ Test GATE ECE (Electronics) Mock Test Series 2025 - Test: Miller Effect Capacitance

Test: Miller Effect Capacitance for Electronics and Communication Engineering (ECE) 2024 is part of GATE ECE (Electronics) Mock Test Series 2025 preparation. The Test: Miller Effect Capacitance questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Test: Miller Effect Capacitance MCQs are made for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Miller Effect Capacitance below.
Solutions of Test: Miller Effect Capacitance questions in English are available as part of our GATE ECE (Electronics) Mock Test Series 2025 for Electronics and Communication Engineering (ECE) & Test: Miller Effect Capacitance solutions in Hindi for GATE ECE (Electronics) Mock Test Series 2025 course. Download more important topics, notes, lectures and mock test series for Electronics and Communication Engineering (ECE) Exam by signing up for free. Attempt Test: Miller Effect Capacitance | 10 questions in 30 minutes | Mock test for Electronics and Communication Engineering (ECE) preparation | Free important questions MCQ to study GATE ECE (Electronics) Mock Test Series 2025 for Electronics and Communication Engineering (ECE) Exam | Download free PDF with solutions
Test: Miller Effect Capacitance - Question 1
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In Miller’s theorem, what is the constant K?

Detailed Solution for Test: Miller Effect Capacitance - Question 1

The constant K = V2/V1, which is the internal voltage gain of the network.
Thus resistance R= R/1-K
R= R/1-K-1.

Test: Miller Effect Capacitance - Question 2
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Find net voltage gain, given hfe = 50 and hie = 1kΩ.
Find net voltage gain if hfe is 50 & hie is 1kΩ by millers theorem to resistance
 

Detailed Solution for Test: Miller Effect Capacitance - Question 2

Apply millers theorem to resistance between input and output.
At input, R= 100k/1-K = RI
Output, R= 100k/1-K-1 ≈ 100k
Internal voltage gain , K = -hfeRL’/hie
K = – 50xRc||100k/1k = – 50x4x100/104 = – 192
RI = 100k/1+192 = 0.51kΩ
RI’ = RI||hie = 0.51k||1k = 0.51×1/1.51 = 0.337kΩ
Net voltage gain = K.RI’/RS+RI’ = – 192 x 0.337/2k + 0.337k = -27.68.

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Test: Miller Effect Capacitance - Question 3
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Consider an RC coupled amplifier at low frequency. Internal voltage gain is -120. Find the voltage gain magnitude, when given that collector resistance = 1kΩ, load = 9kΩ, collector capacitance is 0. is 0.1μF, and input frequency is 20Hz.

Detailed Solution for Test: Miller Effect Capacitance - Question 3

 AV = -120
fL = 1/2πCC(R+ RL) = 1/2π x 0.001 = 1000/2π = 159.15Hz
AV’ = 120/8.02 ≈ 15.

Test: Miller Effect Capacitance - Question 4
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Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.
Detailed Solution for Test: Miller Effect Capacitance - Question 4

RC = 2kΩ, RL = 5kΩ, CC = 1μF, CB = 10μF, CE = 20μF, RS = 2 kΩ
hie = 1kΩ, IC = 2mA
fL1 = 1/2πCC(RC+RL) = 22.73 Hz
fL2 = gm/2πCE = IC/2πCEVT = 612 Hz
Since fL2 > 4fL1, hence fL2 is the correct answer.

Test: Miller Effect Capacitance - Question 5
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What is the phase shift in RC coupled CE amplifier at lower 3dB frequency?
Detailed Solution for Test: Miller Effect Capacitance - Question 5

Total phase shift = 180°+ tan-1(fL/f)
At 3dB frequency fL/f = 1
Total phase shift = 180° + 45° = 225°.

Test: Miller Effect Capacitance - Question 6
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When applying miller’s theorem to resistors, resistance R1 is for node 1 and R2 for node 2. If R1>R2, then for same circuit, then for capacitance for which the theorem is applied, which will be larger, C1 or C2?
Detailed Solution for Test: Miller Effect Capacitance - Question 6

Given R1 > R2
R/1-K > R/1-K-1, and so 1-K-1 > 1-K
Thus K2>1, K>1, K<-1 (correct)
Thus, C1 = C(1-K) and C2 = C(1-K-1)
Hence C1>C2.

Test: Miller Effect Capacitance - Question 7
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Given that capacitance w.r.t the input node is 2pF and output node is 4pF, find capacitance between input and output node.
Detailed Solution for Test: Miller Effect Capacitance - Question 7

C1 = C(1 - K), C2 = C(1 - K-1)
C1 = 2pF
C2 = 4pF
C1/C2 = 1/2 = 1-K/1-K-1
K = -2
C1 = C(1 + 2) = 3C
C = C1/3 = 2/3pF = 0.67 pF.

Test: Miller Effect Capacitance - Question 8
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Find the 3-dB frequency given that the gain of RC coupled amplifier is 150, the low frequency voltage gain is 100 and the input frequency is 50Hz.
Detailed Solution for Test: Miller Effect Capacitance - Question 8

AVM = 150
AVL = 100
f = 50Hz
1 + f2/2500 = 1.52
f2 = 2500*1.25 = 3125
f = 55.90 Hz.

Test: Miller Effect Capacitance - Question 9
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Consider the circuit shown.
Find magnitude of voltage gain at input frequency 10Hz if hfe is 50 & hie is 1000Ω
hfe = 50, hie = 1000Ω. Find magnitude of voltage gain at input frequency 10Hz.
Detailed Solution for Test: Miller Effect Capacitance - Question 9

Net load = 10k||10k = 5kΩ = RL
AVM = -hfeRL’/hie = -50 × 5/1 = -250
fL = 1/2πCC(RC+RL) = 15.9 Hz
AVL = 133.

Test: Miller Effect Capacitance - Question 10
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Consider that the phase shift of an RC coupled CE amplifier is 260°. Find the low frequency gain when the voltage gain of the transistor is -150.
Detailed Solution for Test: Miller Effect Capacitance - Question 10

180° + tan-1(fL/f) = 260°
fL/f = tan(80) = 5.67
A = 20.3 + 5.672 = 26.05.

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