Control Systems MCQ Questions & Answers

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61.
A composite R-C network yielded the following transfer function when calculated from its components:
$$T\left( s \right) = \frac{{C\left( s \right)}}{{R\left( s \right)}} = \frac{{1 + 21s + 20{s^2}}}{{1 + 11s + 10{s^2}}}$$
This network can be used as which one of the following?

A. Phase lead compensator

B. Phase lag compensator

C. Lag lead compensator

D. None of the above

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62.
In a synchro error detection, the output voltage is proportional to [ω(t)]ⁿ, where ω(t) is the rotor velocity and n equals to

A. -2

B. -1

C. 1

D. 2

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63.
If the gain of the system is reduced to zero value, the roots of the system in the s-plane:

A. Coincide with zeros

B. Move away from the zeros

C. Move away from the poles

D. Coincide with the poles

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64.
For a state space representation of a system \[{\rm{A}} = \left[ {\begin{array}{*{20}{c}} 0&1\\ { - 3}&{ - 2} \end{array}} \right],\,{\rm{B}} = \left[ \begin{array}{l} 0\\ 1 \end{array} \right]\] and C = [1 2] . Then transfer function of system would be:

A. \[\frac{1}{{{s^2} + 2s + 3}}\]

B. \[\frac{1}{{{s^2} + 5s + 6}}\]

C. \[\frac{{2s + 1}}{{{s^2} + 2s + 3}}\]

D. \[\frac{{3s}}{{s + 5}}\]

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65.
Consider the following statements regarding the asymptotic Bode plots used for frequency response analysis:
1. The deviation of the actual magnitude response for a zero on real axis is 3 dB at the corner frequency.
2. The phase angle for a pair of complex conjugate poles at undamped frequency depends upon the value of damping ratio.
Which of the statements given above is/are correct?

A. Only 1

B. Only 2

C. Both 1 and 2

D. Neither 1 and 2

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66.
In root locus method, the value of K is obtained as

A. Product of length of vectors from poles/Product of length of vectors from zeros

B. (Product of length of vectors from poles) × (Product of length of vectors from zeros)

C. Product of length of vectors from zeros/Product of length of vectors from poles

D. Product of length of vectors from zeros + Product of length of vectors from poles

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67.
Consider a unity feedback system having a transfer function $$G\left( s \right) = \frac{{100}}{{s\left( {0.1s + 1} \right)}}$$ is subjected to ramp input. The steady-state error is:

A. 1

B. 0

C. 0.01

D. 0.05

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68.
The transfer function of a tachometer is of the form

A. $$Ks$$

B. $$\frac{K}{s}$$

C. $$\frac{K}{{s + 1}}$$

D. $$\frac{K}{{s\left( {s + 1} \right)}}$$

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69.
A unity feedback system has $$G\left( s \right) = \frac{{K\left( {2s + 1} \right)}}{{s\left( {4s + 1} \right){{\left( {s + 1} \right)}^2}}}$$
What is the value of K if the steady-state value of error is to be less than 0.1 when an input r(t) = 1 + 5t is applied?

A. K = 5

B. 6 < K < 10

C. 11 < K < 40

D. K > 50

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70.
If the output of the system at steady state doesn't agree with the input, then the system is said to have . . . . . . . . which determines the . . . . . . . . of the system.

A. Steady state error, accuracy

B. Residual error, overshoot

C. Steady state error, tolerance

D. Residual error, tolerance

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Control Systems MCQ Questions & Answers | ECE

61. A composite R-C network yielded the following transfer function when calculated from its components: $$T\left( s \right) = \frac{{C\left( s \right)}}{{R\left( s \right)}} = \frac{{1 + 21s + 20{s^2}}}{{1 + 11s + 10{s^2}}}$$ This network can be used as which one of the following?

Answer & Solution

62. In a synchro error detection, the output voltage is proportional to [ω(t)]n, where ω(t) is the rotor velocity and n equals to

Answer & Solution

63. If the gain of the system is reduced to zero value, the roots of the system in the s-plane:

Answer & Solution

64. For a state space representation of a system \[{\rm{A}} = \left[ {\begin{array}{*{20}{c}} 0&1\\ { - 3}&{ - 2} \end{array}} \right],\,{\rm{B}} = \left[ \begin{array}{l} 0\\ 1 \end{array} \right]\] and C = [1 2] . Then transfer function of system would be:

Answer & Solution

Answer & Solution

66. In root locus method, the value of K is obtained as

Answer & Solution

67. Consider a unity feedback system having a transfer function $$G\left( s \right) = \frac{{100}}{{s\left( {0.1s + 1} \right)}}$$ is subjected to ramp input. The steady-state error is:

Answer & Solution

68. The transfer function of a tachometer is of the form

Answer & Solution

69. A unity feedback system has $$G\left( s \right) = \frac{{K\left( {2s + 1} \right)}}{{s\left( {4s + 1} \right){{\left( {s + 1} \right)}^2}}}$$ What is the value of K if the steady-state value of error is to be less than 0.1 when an input r(t) = 1 + 5t is applied?

Answer & Solution

70. If the output of the system at steady state doesn't agree with the input, then the system is said to have . . . . . . . . which determines the . . . . . . . . of the system.

Answer & Solution

Read More Section(Control Systems)

61.
A composite R-C network yielded the following transfer function when calculated from its components:
$$T\left( s \right) = \frac{{C\left( s \right)}}{{R\left( s \right)}} = \frac{{1 + 21s + 20{s^2}}}{{1 + 11s + 10{s^2}}}$$
This network can be used as which one of the following?

62.
In a synchro error detection, the output voltage is proportional to [ω(t)]ⁿ, where ω(t) is the rotor velocity and n equals to

63.
If the gain of the system is reduced to zero value, the roots of the system in the s-plane:

64.
For a state space representation of a system \[{\rm{A}} = \left[ {\begin{array}{*{20}{c}} 0&1\\ { - 3}&{ - 2} \end{array}} \right],\,{\rm{B}} = \left[ \begin{array}{l} 0\\ 1 \end{array} \right]\] and C = [1 2] . Then transfer function of system would be:

66.
In root locus method, the value of K is obtained as

67.
Consider a unity feedback system having a transfer function $$G\left( s \right) = \frac{{100}}{{s\left( {0.1s + 1} \right)}}$$ is subjected to ramp input. The steady-state error is:

68.
The transfer function of a tachometer is of the form

69.
A unity feedback system has $$G\left( s \right) = \frac{{K\left( {2s + 1} \right)}}{{s\left( {4s + 1} \right){{\left( {s + 1} \right)}^2}}}$$
What is the value of K if the steady-state value of error is to be less than 0.1 when an input r(t) = 1 + 5t is applied?

70.
If the output of the system at steady state doesn't agree with the input, then the system is said to have . . . . . . . . which determines the . . . . . . . . of the system.