Starting a new Lecture Notes Series on Control Systems
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Control Systems By Lecture Notes together!
Lecture 1: Introduction to Control Systems
Lecture 2: System Response Characteristics
Lecture 3: Open Loop Systems
Lecture 4: Closed Loop Systems
Lecture 5: Review of Laplace Transform (Part 1)
Lecture 6: Review of Laplace Transform (Part 2)
Lecture 7: Review of Laplace Transform (Part 3)
Lecture 8: Review of Laplace Transform (Part 4)
Lecture 9: Review of Laplace Transform (Part 5)
Lecture 10: Review of Laplace Transform (Part 6)
Lecture 11: Review of Laplace Transform (Part 7)
Lecture 12: Review of Linear Time-Invariant (LTI) Systems
Lecture 13: Introduction to Transfer Function
Lecture 14: Transfer Function (Solved Problem 1)
Lecture 15: Transfer Function (Solved Problem 2)
Lecture 16: Transfer Function (Solved Problem 3)
Lecture 17: Transfer Function (Solved Problem 4)
Lecture 18: Transfer Function (Solved Problem 5)
Lecture 19: Transfer Function (Solved Problem 6)
Lecture 20: Transfer Function (Solved Problem 7)
Lecture 21: Zeros and Poles of a Transfer Function
Lecture 22: Transfer Function of a Closed Loop System
Lecture 23: Types of Systems
Lecture 24: Initial Value and Final Value Theorems
Lecture 25: Final Value Theorem (Solved Problem)
Lecture 26: Time Constant Form of a Control System
Lecture 27: Time Constant Form (Solved Problem)
Lecture 28: DC Gain of a System
Lecture 29: DC Gain of a System (Solved Problem)
Lecture 30: The Concept of Dominant Pole
Lecture 31: Dominant Pole (Solved Problem)
Lecture 32: Sensitivity of Control System (Part - 1)
Lecture 33: Sensitivity of Control System (Part - 2)
Lecture 34: Sensitivity of Control System (Part - 3)
Lecture 35: Sensitivity of Control System (Solved Example)
Lecture 36: Sensitivity of Control System (Solved Problem)
Lecture 37: Step Response of a System
Lecture 38: Ramp Response of a System
Lecture 39: Basics of Control Systems (Solved Problem 1)
Lecture 40: Basics of Control Systems (Solved Problem 2)
Lecture 41: Basics of Control Systems (Solved Problem 3)
Lecture 42: Basics of Control Systems (Solved Problem 4)
Lecture 43: Basics of Control Systems (Solved Problem 5)
Lecture 44: Introduction to Block Diagrams
Lecture 45: Block Diagram Reduction Rules - Part 1
Lecture 46: Block Diagram Reduction Rules - Part 2
Lecture 47: Block Diagram Reduction (Solved Example 1)
Lecture 48: Block Diagram Reduction (Solved Example 2)
Lecture 49: Block Diagram Reduction (Solved Problem 1)
Lecture 50: Block Diagram Reduction (Solved Problem 2)
Lecture 51: Block Diagram Reduction (Solved Problem 3)
Lecture 52: Block Diagram Reduction (Solved Problem 4)
Lecture 53: Introduction to Signal Flow Graphs
Lecture 54: Mason’s Gain Rule
Lecture 55: Mason’s Gain Rule (Solved Example 1)
Lecture 56: Mason’s Gain Rule (Solved Example 2)
Lecture 57: Signal Flow Graphs (Solved Problem 1)
Lecture 58: Signal Flow Graphs (Solved Problem 2)
Lecture 59: Signal Flow Graphs (Solved Problem 3)
Lecture 60: Signal Flow Graphs (Solved Problem 4)
Lecture 61: Limitations of Mason’s Gain Rule
Lecture 62: Modelling of Physical Systems
Lecture 65: Modelling of Electrical Systems (Solved Problem)
Lecture 66: Modelling of Mechanical Systems
Lecture 67: Translational Mechanical Systems
Lecture 71: Analogous Systems
Lecture 72: Force-Current Analogy
Lecture 73: Equivalent Mechanical Systems
Lecture 74: Analogous Systems (Solved Problem 1)
Lecture 75: Analogous Systems (Solved Problem 2)
Lecture 76: Introduction to Stability Analysis
Lecture 77: Routh-Hurwitz Criteria
Lecture 78: Routh-Hurwitz Criteria (Special Case 1)
Lecture 79: Routh-Hurwitz Criteria (Special Case 2)
Lecture 80: Applications of R-H Criteria (Part 1)
Lecture 81: Applications of R-H Criteria (Part 2)
Lecture 82: R-H Criteria (Solved Problem 1)
Lecture 83: R-H Criteria (Solved Problem 2)
Lecture 84: R-H Criteria (Solved Problem 3)
Lecture 85: R-H Criteria (Solved Problem 4)
Lecture 86: R-H Criteria (Solved Problem 5)