CONTROL SYSTEM THEORY IMP QUESTIONS, Summaries of Control Systems

THIS DOCUMENT IS A CONTROL SYSTEM THEORY IMP QUESTIONS. ITIS HELP TO PASS IN CONTROL SYSTEM EXAM.

Typology: Summaries

2021/2022

Available from 07/27/2022

basu-jadav
basu-jadav 🇮🇳

1 document

1 / 5

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
CONTROL SYSTEM THEORY
SEM: 3RD
BRANCH: ELECTRICAL ENGINEERING
IMP QUESTIONS
Note: Bold Questions are Most IMP.
CH.
No.
QUE.
No.
Question
Page
No.
1.
Introduction to control problem
1.
Explain Open Loop System with Example.
2
2.
Explain Closed Loop System with Example.
3
3.
Comparison of open loop system and closed loop system.
6
4.
Explain Transfer Function.
11
5.
Advantages and Disadvantages of Transfer Function.
16
6.
Explain Rules for Block Diagram Reduction.
40
7.
Example 3.6.
45
2.
Time Response Analysis
1.
Explain Standard test signal used in control system.
2
2.
Explain Steady State Response.
4
3.
Explain type 0, type 1 and type 2 control system.
7
4.
Describe ramp input to a type 0 system.
8
5.
Explain type 2 system to a step, ramp and parabolic system.
12
6.
Analysis of first order system.
19
7.
Explain with necessary equation and diagram second order
step response system.
24
8.
Explain transient response specification.
30
9.
Example 5.9.7.
37
10.
Explain routh stability criterion.
54
pf3
pf4
pf5

Partial preview of the text

Download CONTROL SYSTEM THEORY IMP QUESTIONS and more Summaries Control Systems in PDF only on Docsity!

CONTROL SYSTEM THEORY

SEM: 3 RD

BRANCH: ELECTRICAL ENGINEERING

IMP QUESTIONS

Note: Bold Questions are Most IMP.

CH. No.

QUE.

No.

Question Page No.

  1. Introduction to control problem
    1. Explain Open Loop System with Example. 2
    2. Explain Closed Loop System with Example. 3
    3. Comparison of open loop system and closed loop system. 6
    4. Explain Transfer Function. 11
    5. Advantages and Disadvantages of Transfer Function. 16
    6. Explain Rules for Block Diagram Reduction. 40
    7. Example 3.6. 45
  2. Time Response Analysis
    1. Explain Standard test signal used in control system. 2
    2. Explain Steady State Response. 4
    3. Explain type 0, type 1 and type 2 control system. 7
    4. Describe ramp input to a type 0 system. 8
    5. Explain type 2 system to a step, ramp and parabolic system. 12
    6. Analysis of first order system. 19
    7. Explain with necessary equation and diagram second order step response system.
  1. Explain transient response specification. 30
  2. Example 5.9.7. 37
  3. Explain routh stability criterion. 54
  1. Example 6.5.3. 58
  2. Determine the stability to S^6 + 2S^5 + 8S^4 + 12S^3 + 20S^2 + 16S+16 60
  3. General Method for drawing root locus. 74
  4. Example 7.6.1. 80
  5. Draw the approximate root-locus diagram for close loop system whose transfer function is given by G(s) H(s) = k/s(s+5)(s+10).
  1. Frequency-response analysis
    1. Explain frequency response Analysis. 1
    2. Advantages of frequency response Analysis. 3
    3. Corelation between time domain and frequency domain. 6
    4. Example 8.7.5. 12
    5. Explain frequency domain specification. 26
    6. Sketch the Bode plots showing the magnitude the describes and phase angle in degrees as a function of log frequency for the transfer function given below. Determine the gain cross over frequency wgc. G(s) = 10/s(1+0.5s)(1+0.001s).
  1. Example 9.11.4. 39
  2. Explain polar plot 71
  3. Explain Nyquist stability criterion 85
  4. Advantages of Nyquist Plot. 87
  5. Introduction to Controller Design
  6. Explain Lead Compensator. 4
  7. Explain Lag Compensator. 6
  8. Describe Proportional + Derivative Controller. 39
  9. Describe PID Controller. 40
  10. State variable Analysis
  11. Advantages and Disadvantages Modern Control Theory. 1

8. Explain Linear Discrete Time System and Derivation of Z-Transfer Function from Discrete Time State Model.