GATE ECE 2007 | Frequency Response Analysis Question 35 | Control Systems

The asymptotic Bode plot of a transfer function is shown in the figure. the transfer function G(s) corresponding to this bode plot is GATE ECE 2007 Control Systems - Frequency Response Analysis Question 25 English

GATE ECE 2007 Control Systems - Frequency Response Analysis Question 25 English

$${1 \over {\left( {s + 1} \right)\left( {s + 20} \right)}}$$

$${1 \over {s\left( {s + 1} \right)\left( {s + 20} \right)}}$$

$${{100} \over {s\left( {s + 1} \right)\left( {s + 20} \right)}}$$

$${{100} \over {s\left( {s + 1} \right)\left( {1 + 0.05s} \right)}}$$

GATE ECE 2006

MCQ (Single Correct Answer)

-0.6

Consider a unity-gain feedback control system whose open-loop transfer function is G(s)=$${{as + 1} \over {{s^2}}}$$ The value of 'a', so that the system has a phase-margin equal to $$\pi $$/4 is approximately equal to

2.40

1.40

0.84

0.74

GATE ECE 2006

MCQ (Single Correct Answer)

-0.6

Consider a unity-gain feedback control system whose open-loop transfer function is G(s)=$${{as + 1} \over {{s^2}}}$$.

With the value of "a" set for phase-margin of $$\pi $$/4, the value of unit-impulse response of the open-loop system at t = 1 second is equal to

3.40

2.40

1.84

1.74

GATE ECE 2006

MCQ (Single Correct Answer)

-0.6

The Nyquist plot of G(jω)H(jω) for a closed loop control system, passes through (-1,j0) point in the GH plane. The gain margin of the system in dB is equal to

infinite

greater than zero

less than zero

zero

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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