• Post category:StudyBullet-6
  • Reading time:7 mins read


Learn all the fundamentals and concepts of Control Systems

What you will learn

Understand the concepts behind Control Engineering

Solve problems related to Control Systems

Interpret all the terminologies in Control Systems

Determine the stability of any Control System

Description

Hey all, Welcome to my course on ‘Control Systems Engineering’

This course will give you a deeper understanding on Control Systems and it’s concepts.

The concepts that we will be discussing on this course:

1. Systems – Basics, Types, Open Loop, Closed Loop

2. SISO/MISO Systems

3. Linear and Non Linear Systems

4. Time Variant and TIme Invariant Systems

5. Causal and Non Causal Systems

6. Necessity of Transforms

7. Laplace Transforms – Introduction, Formulae, Inverse Laplace Transforms

8. Laplace Transforms to solve differential equations

9. Test signals – unit step function, impulse function, ramp function, parabolic function.

10. Transfer function.

11, Fundamentals of Electrical Circuits


Get Instant Notification of New Courses on our Telegram channel.


12. Transfer function of a Low Pass Filter.

13.  Block Diagrams – Concepts, Reduction rules, Problems

14. Time response analysis – First Order, Second Order Systems

15. Poles and Zeroes – Examples

16. Steady State Error

17. Error Constants Kp, Kv, Ka

18. Stability Analysis

19. Relative stability plots.

and much more

A Control Systems Engineer is responsible for designing, developing, and implementing solutions that control dynamic systems. The aim of a Control Systems Engineer is to bring stability to these constantly changing systems to produce the desired outcome. It is a field of engineering that is wide and varied.

For competitive exams like GATE, ESE , Control Systems is one of the most tested subjects.

So what are you waiting for?

Everything is covered from scratch!

I’ll see you there in my course.

English
language

Content

Introduction

Introduction
What is a system ?
Control Systems – Open Loop and Closed Loop

Classification of Systems

SISO, MISO, Linear, Non Linear Systems
Time Invariant, Time Variant Systems
Causal, Non Causal Systems

Standard Test Signals

Standard Test Signals – Unit Step Function
Impulse – Analogy with Cricket
Ramp, Parabolic Signals
Relation between all the test signals

Laplace Transforms

Why Transforms are required – Time Domain, Frequency Domain
Introduction to Laplace Transforms
Laplace Transforms of Exponentials, Step Function
Laplace Transforms of Sinusoids, Ramp, Parabola
Properties of Laplace Transforms
Inverse Laplace Transform
Laplace Transform to solve Differential Equations
A review on LT

Transfer Function of Electrical Systems

What is Transfer function
Basics of Electrical Systems
Transfer function of a Low Pass Filter

Block Diagrams

Introduction to Block Diagrams
Rules to reduce Block Diagram and an example problem
Advanced rules to find out transfer function from block diagrams
Example Problem 2 on Block Diagrams
A tricky question in Block Diagrams

Time response analysis of First Order Systems

Time response analysis, Order, First Order Systems
Transient response and Steady State response of first order systems

Poles, Zeroes, DC Gain, Type numbers

Poles and Zeroes of a Control System
Five Examples on Poles and Pole Zero Map
DC Gain of a Control System
Type Numbers of Systems

Time response analysis of second order systems

Transfer function of Second Order Systems, Damping ratio, Natural Frequency
Types of damped systems
Pole Locations of Second Order Systems

Steady state error and error constants

Equation for Steady State Error, Final Value Theorem
Error Constants Kp, Kv, Ka

Methods to determine the stability of a system

Introduction and Methods to find Stability
Determining Stability from Impulse Response
Determining Stability from Pole Locations
Determining Stability from Characteristic Equation

Tools to determine stability

Hurwitz Stability Criterion
Introduction to Routh’s Method
Problems on Routh’s Method

Relative Stability using Plots

Gain Margin and Phase Margin
Polar Plot
Tricks to draw Polar Plot