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Test: Integrators & Differentiators - Electrical Engineering (EE) MCQ


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10 Questions MCQ Test - Test: Integrators & Differentiators

Test: Integrators & Differentiators for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Test: Integrators & Differentiators questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Integrators & Differentiators MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Integrators & Differentiators below.
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Test: Integrators & Differentiators - Question 1

The other name for Miller Circuit is

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Miller Circuit is also called Inverting integrator.

Test: Integrators & Differentiators - Question 2

The slope of the frequency response of an integrator is

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The slope is linear and negative.

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Test: Integrators & Differentiators - Question 3

 The integrating transfer function has the value of

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 Standard mathematical expression for the transfer function.

Test: Integrators & Differentiators - Question 4

The expression for the integration frequency is

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Standard mathematical expression for the integrator frequency.

Test: Integrators & Differentiators - Question 5

Determine the expression for the transfer function for the circuit shown below.​

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It is a standard expression.

Test: Integrators & Differentiators - Question 6

The frequency transfer function of a differentiator is given by

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Standard mathematical expression for the transfer function of a differentiator.

Test: Integrators & Differentiators - Question 7

 The slope of the frequency response of a differentiator is

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The slope is linear with a positive slope.

Test: Integrators & Differentiators - Question 8

The phase in the integrator and differentiator circuit respectively are

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These are the characteristics of the integrators and differentiators circuits respectively.

Test: Integrators & Differentiators - Question 9

Consider a symmetrical square wave of 20-V peak-to-peak, 0 average, and 2-ms period applied to a Miller integrator. Find the value of the time constant CR such that the triangular waveform at the output has a 20-V peak-to-peak amplitude.

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 According to the question 1/CR = 2.

Test: Integrators & Differentiators - Question 10

The expression for the differentiator time constant is

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Standard mathematical expression for the time constant for the differentiators.

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