MR4104 Control System Design Syllabus:

MR4104 Control System Design Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES

1. To represent and simplify the mathematical models for various types of physical systems.
2. To recognize the time domain specifications and to analyze of various types of system and its characteristics in time domain.
3. To know the frequency domain specifications and to analyze of various types of system and its characteristics in frequency domain methods.
4. To design compensator and controller using time and frequency domain.
5. To evaluate, analyse and design a control system of servomotors for motion control.

UNIT I SYSTEM REPRESENTATION AND MODELLING

Introduction and need for Control Systems with examples – Feedback systems – Block Diagram – Definition of Process variable, Set-point, Manipulated variable and Final control element with examples -Open loop and Closed loop systems – Transfer Function Model – State Space Model – Mathematical Modelling of Mechanical, Electrical, Pneumatic and Hydraulic systems – Block Diagram reduction – Signal flow graph.

UNIT II DESIGN OF FEEDBACK CONTROL SYSTEM

Feedback systems – Block Diagram – Definition of process variable, set –point, manipulated variable and final control element with examples – characteristics of on –off,P, PI, PD and PID controllers – Implementation issues of PID controller – Modified PID controller – Tuning of controller.

UNIT III TIME AND FREQUENCY DOMAIN ANALYSIS

Time response of First & Second order systems – Time domain specifications – steady state errors and error constants – Routh Hurwitz criterion – Root locus – Bode Plot – Polar Plot – Nyquist stability criterion – Stability analysis – Experimental determination of Transfer Functions

UNIT IV CONTROL SYSTEM DESIGN

Root locus approach to control system design – lead, lag, lag-lead compensation using time domain analysis. Control system design using frequency domain analysis – lead, lag, lag-lead compensation using frequency domain analysis– P, PI, and PID controllers – tuning methods and rule.

UNIT V CONTROL AND ANALYSIS OF SERVO MOTOR

Servo motor – Mathematical Modelling of Servo Motor – Analysis of Servo motor system using Routh Hurwitz criterion, Root locus, Bode Plot, Polar Plot and stability analysis – Implementation of P, PI , PD and PID controllers for servo motor and analysis – bumpless control transfer between manual and PID Control- anti-windup control using PID Controller.

TOTAL : 45 PERIODS

COURSE OUTCOMES:

Upon completion of this course, the students will be able to:
CO1: Develop the mathematical model of physical systems.
CO2: Characterize the responses and evaluate the range of stability for the physical systems using time domain techniques.
CO3: Describe and assess the range of stability for the physical systems using frequency domain technique.
CO4: Design an appropriate control system and compensator for system dynamics.
CO5: Evaluate and demonstrate the motion control of motors.

REFERENCES

1. A. NagoorKani, “Control Systems”, RBA Publications (P) Ltd., 2020.
2. B.C. Kuo, “Automatic Control Systems”, Prentice Hall of India Pvt. Ltd., New Delhi, 2018.
3. I.J.Nagrath and Gopal, “Control System Engineering”, New Age international (P) Ltd., 2006.
4. K.Ogata, “Modern Controls Engineering“, Prentice Hall of India Pvt. Ltd., New Delhi, 2005.
5. M. Nakamura .S.Gata&N.Kyura, Mechatronic Servo System Control, Springer.

LABORATORY

LIST OF EXPERIMENTS

1. 1Mathematical Modelling and Simulation of a Physical Systems.
2. 2Simulation and Reduction of Cascade and Parallel, and Closed Loop Sub-System.
3. 3Plot the pole-zero configuration in s-plane for the given Transfer Function.
4. 4Simulation and Analysis of First and Second Order System Equations in Time and frequency Domain
5. 5Simulation and Analysis of Root-Locus and Bode Plot.
6. 6Simulation and Implementation of PID Controller Combinations for First and Second Order Systems.
7. 7Simulation of Motor velocity, position and torque control.

TOTAL: 30 PERIODS

LIST OF SOFTWARE FOR A BATCH OF 30 STUDENTS:

1. MATLAB/ SCILAB – Control System Tool Box – 15 No’s

Related posts:

  1. ED4002 Design for X Syllabus
  2. AE8604 Aircraft Design Syllabus
  3. AR3901 Urban Design Syllabus
  4. AR3002 Sustainable Design Syllabus
  5. AR3006 Product Design Syllabus
  6. AR3007 Design Detailing Syllabus
  7. AR3012 Interior Design Syllabus
  8. AR3020 Design Communication Syllabus
  9. IF4072 Design Thinking Syllabus
  10. ST4006 Design of Formwork Syllabus
  11. SF4311 Design Studio Syllabus
  12. CD4152 Design for Sustainability Syllabus
  13. ED4080 Tribology in Design Syllabus
  14. CM4003 Design for Manufacturing Syllabus
  15. AO4014 Aircraft Design Syllabus
  16. IL4091 Design of Experiments Syllabus
  17. OEN751 Green Building Design Syllabus
  18. ME8593 Design of Machine Elements Syllabus
  19. OAT752 Vehicle Styling and Design Syllabus
  20. MR4201 Mechatronics System Design Syllabus