P12 SHOULD BE -G1*H2
Control Systems Online Course
Ace Control Systems like a pro by learning from industry experts
Engineering,Electronics,Control Systems,IT & Software,Hardware
Lectures -185
Duration -27.5 hours
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Course Description
Control System online course teaches viewers how to analyze control systems using mathematical models. You will be able to discover numerous approaches and methods to enhance the performance of the control systems based on the needs once you finish this course.
Control Systems Online Course Overview
This online course can benefit Electrical Engineering students, in particular, those getting ready for the GATE, IES, and other PSU exams. Also, it will help students become ready for their engineering curriculum.
Control Systems online course provides basic and intermediate Control System Library ideas and is designed for both professionals and beginners.
Our Control System course covers all related topics. This includes control system introduction, classification, Transfer Function, Time Domain Analysis, Steady State Analysis, State Space Analysis, Controllability, etc.
Goals
What will you learn in this course:
Create a system that responds favorably to common inputs
Illustrate control system designs with block diagrams
Learn how to improve operational efficiency
Learn to indicate the corrective action
Learn how to identify deviations in the process flow
Prerequisites
What are the prerequisites for this course?
Basic mathematics skills
Creativity and problem-solving skills are a plus
Knack for designing
Curriculum
Check out the detailed breakdown of what’s inside the course
Control System
13 Lectures
- Introduction To Control System 10:43 10:43
- Types of Control Systems 04:58 04:58
- Types of Feed Back 05:40 05:40
- Transfer Function of System 06:03 06:03
- Effects of Feedback 11:33 11:33
- Mathematical Model of Control System 07:18 07:18
- Introduction to Mechanical System 06:42 06:42
- Translational Mechanical System 12:39 12:39
- Rotational Mechanical System 09:04 09:04
- Force Voltage Analogy 18:04 18:04
- Force Current Analogy 15:19 15:19
- Torque Voltage Analogy 13:04 13:04
- Torque Current Analogy 13:50 13:50
Transfer Function Parameters
9 Lectures
Time Domain Analysis
15 Lectures
Steady State Analysis
7 Lectures
Stability
10 Lectures
Frequency Response Analysis
1 Lectures
Frequency Domain Specifications
21 Lectures
Compensator
6 Lectures
Controllers
9 Lectures
State Space Analysis
6 Lectures
Controllability
6 Lectures
GATE Exams Questions and Answers
81 Lectures
Instructor Details
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very excellent method of teaching.making subject very much easy.
Kindly advise formula for the natural frequency and Damping factor for the following second order system open loop with unit step input : G(s) = (1+T3*s) / ((1+T2*s)(1+T1*s))
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