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Control Systems
Block Diagram and Signal Flow Graph
Marks 1Marks 2
Polar Nyquist and Bode Plot
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State Variable Analysis
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Basics of Control System
Marks 1Marks 2
Routh Hurwitz Stability
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Time Response Analysis
Marks 1Marks 2
Root Locus Techniques
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Controller and Compensator
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1
GATE EE 2022
MCQ (Single Correct Answer)
+2
-0.67

The damping ratio and undamped natural frequency of a closed loop system as shown in the figure, are denoted as $$\xi$$ and $$\omega$$n are

GATE EE 2022 Control Systems - Time Response Analysis Question 4 English

A
$$\xi$$ = 0.5 and $$\omega$$n = 10 rad/s
B
$$\xi$$ = 0.1 and $$\omega$$n = 10 rad/s
C
$$\xi$$ = 0.707 and $$\omega$$n = 10 rad/s
D
$$\xi$$ = 0.707 and $$\omega$$n = 100 rad/s
2
GATE EE 2015 Set 2
MCQ (Single Correct Answer)
+2
-0.6
The unit step response of a system with the transfer function $$G\left( s \right) = {{1 - 2s} \over {1 + s}}$$ is given by which one of the following waveforms?
A
GATE EE 2015 Set 2 Control Systems - Time Response Analysis Question 12 English Option 1
B
GATE EE 2015 Set 2 Control Systems - Time Response Analysis Question 12 English Option 2
C
GATE EE 2015 Set 2 Control Systems - Time Response Analysis Question 12 English Option 3
D
GATE EE 2015 Set 2 Control Systems - Time Response Analysis Question 12 English Option 4
3
GATE EE 2013
MCQ (Single Correct Answer)
+2
-0.6
The open-loop transfer function of a $$dc$$ motor is given as $${{\omega \left( s \right)} \over {{V_a}\left( s \right)}} = {{10} \over {1 + 10s}}.$$ When connected in feedback as shown below, the approximate value of $${K_a}$$ that will reduce the time constant of the closed loop system by one hundred times as compared to that of the open-loop system is GATE EE 2013 Control Systems - Time Response Analysis Question 13 English
A
$$1$$
B
$$5$$
C
$$10$$
D
$$100$$
4
GATE EE 2011
MCQ (Single Correct Answer)
+2
-0.6
A two-loop position control system is shown below. GATE EE 2011 Control Systems - Time Response Analysis Question 15 English
The gain $$k$$ of the Tacho-generator influences mainly the
A
Peak overshoot
B
Natural frequency of oscillation
C
Phase shift of the closed loop transfer function at very low frequencies $$\left( {\omega \to \infty } \right)$$
D
Phase shift of the closed loop transfer function at very low frequencies $$\left( {\omega \to \infty } \right)$$
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Questions Asked from Marks 2
GATE EE 2022 (1) GATE EE 2015 Set 2 (1) GATE EE 2013 (1) GATE EE 2011 (2) GATE EE 2009 (1) GATE EE 2008 (2) GATE EE 2007 (3) GATE EE 2005 (2) GATE EE 2004 (2) GATE EE 2003 (3) GATE EE 2000 (1) GATE EE 1996 (2) GATE EE 1991 (1)
GATE EE Subjects
Electromagnetic Fields
Signals and Systems
Engineering Mathematics
General Aptitude
Power Electronics
Power System Analysis
Analog Electronics
Control Systems
Digital Electronics
Electrical Machines
Electric Circuits
Electrical and Electronics Measurement