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Mastering Control Systems: From Basics to Advanced Analysis

Mastering Control Systems: From Fundamentals to Advanced Techniques with Engineering Funda

5.0 (7)
111 learners

What you'll learn

Understand the principles and applications of open and closed loop control systems.
Analyze the effects of feedback on system gain, sensitivity, and stability.
Develop skills to derive and utilize transfer functions in various electrical and mechanical systems.
Familiarize with PID controllers, including their design, application, and performance evaluation.

This course includes

  • 12 hours of video
  • Certificate of completion
  • Access on mobile and TV

Course content

1 modules • 66 lessons • 12 hours of video

Mastering Control Systems: From Basics to Advanced Analysis
66 lessons • 12 hours
  • Control Systems by Engineering Funda04:52
  • Open Loop System Explained: Block Diagram, Applications, Pros, and Cons08:34
  • Closed Loop System Explained: Block Diagram, Applications, Pros, and Cons10:09
  • Open vs Closed Loop Systems in Control Systems: A Detailed Comparison08:12
  • Feedback in Control System: Negative Feedback and Positive Feedback09:41
  • Effects of Feedback on Gain, Sensitivity, and Stability of System08:57
  • Transfer Function Explained: Basics, Types, Properties, Pros & Cons09:43
  • Transfer Function from Differential Equation: Step by Step Guide & Solution09:56
  • Transfer Function of RC Circuits: High Pass Filter and Low Pass Filter Response10:20
  • Transfer Function of RL Circuits: High Pass Filter and Low Pass Filter Response09:14
  • Transfer Function and Order of System of RLC Circuits: Step by Step Solution09:17
  • Transfer Function of Electrical Network Explained: Step by Step Solution and Guide09:40
  • Block Diagram Explained: Basics, Terms, Applications, Pros, and Cons08:34
  • Block Diagram Reduction Rules: Complete Guide and Proof11:26
  • 1 Block Diagram Reduction Solved Examples: Step by Step Guide and Solutions11:32
  • Terminologies and Rules of Signal Flow Graph11:38
  • 1 Mason Gain Formula Solved Examples: Step by Step Guide and Solutions12:55
  • Mathematical Models of Control Systems: Differential Equation, Transfer Function & State Space Model07:59
  • Mechanical Systems Explained: Basics, Types, and Parameters08:53
  • Force Voltage Analogy: Derivation and Parameters of Mechanical System & Electrical System08:36
  • Force Current Analogy: Derivation and Parameters of Mechanical System & Electrical System08:30
  • Torque Voltage Analogy: Derivation and Parameters of Mechanical System & Electrical System09:06
  • Torque Current Analogy: Derivation and Parameters of Mechanical System & Electrical System08:31
  • 1 Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example09:23
  • Test Signals Explained: Need, Types, (Impulse, Step, Ramp, and Parabolic Signals)09:44
  • Steady State Error Explained: Basics, Definition, Derivation08:16
  • Static Error Constants Explained: Positional, Velocity, and Acceleration Error Constants02:24
  • Steady State Error with Unit Step Input for Type 0, Type 1, and Type 2 Systems07:44
  • Steady State Error with Unit Ramp Input for Type 0, Type 1, and Type 2 Systems08:20
  • Steady State Error with Unit Parabolic Input for Type 0, Type 1, and Type 2 Systems11:05
  • Order of the System Explained: Basics, Definition, and Solved Examples08:34
  • Time Response Analysis Explained: Basics, Types, Example, Graphical Understanding, and Parameters08:06
  • Unit Impulse Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding05:52
  • Unit Step Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding12:02
  • Unit Ramp Response of 1st Order System Explained: Basics, Derivation, and Graphical Understanding12:31
  • Stability Criteria of Control System Explained12:02
  • Routh Stability Criterion Solved Examples: Steps, Process, and Detailed Explanation11:19
  • Routh Stability Criterion Special Case I Solved Examples: Steps, Process, and Detailed Explanation11:41
  • Routh Stability Criterion Special Case II Solved Examples: Steps, Process, and Detailed Explanation13:04
  • Basics and Rules of Root Locus Plot Explained: Loci, Asymptotes, Break Away & Angle of Departure09:47
  • 1. Root Locus Plot Solved Example: Rules, Steps, Procedure, and Step by Step Guide08:55
  • 2. Root Locus Plot Solved Example: Rules, Steps, Procedure, and Step by Step Guide10:00
  • Proportional Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons11:51
  • Integral Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons08:30
  • Derivative Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons10:22
  • PI Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons11:12
  • PD Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons12:35
  • PID Controller Explained: Basics, Block Diagram, Significance, Transfer Function, Pros, and Cons14:27
  • Comparison of P PI PD and PID Controllers: A Comparative Analysis in Control System Engineering09:41
  • Initial and Final Value Theorem: Basics, Conditions, and Solved Examples15:56
  • Initial and Final Value Theorem Solved Examples: Rules, Procedure, and Step by Step Solutions09:32
  • Frequency Response Analysis Explained: Basics, Measurement, Methods, and Applications05:51
  • Polar Plot Explained: Basics, Procedure, and Advantages09:49
  • Stability & Parameters of Polar Plot Explained: Gain & Phase Margin, Gain & Phase Cross Over Freq.14:35
  • Polar Plot of Type 0 System Solved Example: Steps, Drawing, and Solution16:57
  • Nyquist Plot Explained: Basics, Steps, Calculations, Stability, and Example12:21
  • 1. Nyquist Plot Solved Example: Steps, Procedure, Drawing, and Solution24:17
  • Bode Plot Explained: Basics, Procedure, Parameters, Stability, and Advantages18:37
  • 1. Bode Plot Solved Example: Steps, Procedure, Parameters, and Stability16:31
  • Introduction to Compensators Explained: Basics, Types, and Classifications08:14
  • Lag Compensator Explained; Basics, Transfer Function, Bode Plot, and Maximum Phase Condition17:21
  • Lead Compensator Explained; Basics, Transfer Function, Bode Plot, and Maximum Phase Condition21:48
  • Lag-Lead Compensator Explained; Basics, S-Plane Representation, Transfer Function & Electrical N/W15:52
  • Effects of Lag Compensator and Lead Compensator in Control Systems08:03
  • 1. Controllability and Observability by Kalman's Test in State Space Analysis14:47
  • 2. Controllability and Observability by Kalman's Test in State Space Analysis14:33
Control systems
feedback
transfer functions
PID controllers
stability

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