Description: Control Engineering is the engineering discipline that applies control theory to design systems. The practice uses sensors to measure the output performance of the device being controlled and those measurements can be used to give feedback to the input actuators that can make corrections toward desired performance.
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Control Engineering
- Lecture 1: The Control Problem
- Lecture 2: Some More Examples
- Lecture 3: Different kinds of Control Systems
- Lecture 4: History of Feedback
- Lecture 5: Modern Control Problems
- Lecture 6: DC Motor Speed Control
- Lecture 7: System Modelling, Analogy
- Lecture 8: Causes of System Error
- Lecture 9: Calculation of Error
- Lecture 9: Calculation of Error
- Lecture 10: Control System Sensitivity
- Lecture 11: Automic Control of DC Motor
- Lecture 12: Proportional Control
- Lecture 13: Non-Unity Feedback
- Lecture 14: Signal-Flow Graph
- Lecture 15: Masons Gain Formula
- Lecture 16: Signal-Flow Graph for DC Motor Control
- Lecture 17: Steady-State Calculations
- Lecture 18: Differential Equation Model & Laplace transformation Method
- Lecture 19: D-Operator Method
- Lecture 20: Second-Order System Response
- Lecture 21: Frequency Response
- Lecture 22: Laplace Transformation Theorems
- Lecture 23: Final-Value Theorem
- Lecture 24: Transfer Function and Pole-Zero Diagram
- Lecture 25: Good Poles and Bad Poles
- Lecture 26: Signal-Flow Graph with Transfer Functions
- Lecture 27: s-Domain and t-Domain
- Lecture 28: Second-Order System Response in s-Domain
- Lecture 29: Integral Feedback
- Lecture 30: Root-Locus Method
- Lecture 31: Root-Locus Rules
- Lecture 32: Asymptotes of Root Locus
- Lecture 33: Routh Array
- Lecture 34: Singular Cases
- Lecture 35: Closed-Loop Poles
- Lecture 36: Controller in the Forwarded Path
- Lecture 37: Mapping of Control in the Complex-Plane
- Lecture 38: Encirclement by a Curve
- Lecture 39: Nyquist Criterion
- Lecture 40: Application of the Nyquist Criterion
- Lecture 41: Polar Plot and Bode Plots
- Lecture 42: Logarithmic Scale for Frequency
- Lecture 43: Asymptotic DB Gain
- Lecture 44: Compensating Network
- Lecture 45: Nichols Chart
- Lecture 46: Time Domain Methods of Analysis and Design
- Lecture 47: State-Variable Equations
