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Lec 42 Time domain parameters of first order system | Delay time | Rise time | settling time
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Control System Full Course for GATE-2022 Demos
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- 1 Lec 00 Introduction of Control System || GATE-2022
- 2 Lec 01 Basic Concept of Control System || GATE-2022
- 3 Lec 02 Open Loop & Closed Loop Control System || Control System || GATE-2022
- 4 Lec 03 Transfer Function, Negative Feedback & Positive Feedback || Control System || GATE-2022
- 5 Lec 04 Concept of OLTF & CLTF || Control System || GATE-2022
- 6 Lec 05 Dominant Pole Concept & Time Constant for a System || Control System || GATE-2022
- 7 Lec 06 DC Gain of a Transfer Function || Control System || GATE-2022
- 8 Lec 07 Question Discussion on Dominant Pole Concept || Control System || GATE-2022
- 9 Lec 08 Sensitivity of a System wrt Forward & Feedback Path Parameters || Control System || GATE-2022
- 10 Lec 09 Question Discussion on Sensitivity Concept || Control System || GATE-2022
- 11 Know about the CONTROL system | Why control system is so important for GATE?
- 12 Lec 10 Laplace Transform of Some Basic Functions Part-01 || Control System || GATE-2022
- 13 Lec 11 Laplace transform of some basic functions part 02 | Control System for GATE
- 14 Lec 12 Significance of poles and condition for stability | Control System for GATE
- 15 Lec 13 Initial value and final value theorem | Control System for GATE
- 16 Lec 14 Question discussion on initial and final value theorems | Control System for GATE
- 17 Lec 15 Impulse response and Step response | Control System for GATE
- 18 Lec 16 Question Discussion on Basic concepts Part 01
- 19 Lec 17 Question Discussion on Basic concepts Part 02
- 20 Lec 18 Question discussion on basic concepts part 03
- 21 Lec 19 Question discussion on basic concepts part 04
- 22 Lec 20 Question discussion on basic concepts part 05
- 23 Complete Revision of Basic Concept of Control system Chapter 01 Part 01
- 24 Complete revision of Basic concepts of control system chapter 01/part 02
- 25 Mirror Discussion | Competition | Practice strategy | Accuracy | Time Management | Revision
- 26 Lec 21 Introduction of Block diagram and SFG
- 27 Lec 22 Question discussion on Block diagram reduction
- 28 Lec 23 Terminology of Signal flow graph
- 29 Lec 24 Mason's Gain Formula
- 30 Lec 25 Question discussion on Mason's gain formula part 01
- 31 Lec 26 Question discussion on mason's gain formula part 02
- 32 Lec 27 Question discussion on mason's gain formula part 03
- 33 Lec 28 Question discussion on mason's gain formula part 04
- 34 Lec 29 Limitation of Mason's gain formula
- 35 Lec 30 How to draw an SFG from an ELECTRICAL network?
- 36 Lec 31 Complete revision of Block diagram and SFG
- 37 Lec 32 Time Response Analysis | Control Systems
- 38 Lec 33 Time domain analysis | First order system
- 39 Lec 35 Time domain analysis | First order system| Second order system
- 40 Lec 36 second order system | Undamped| Underdamped | Critical damped| Over damped system
- 41 Lec 37 Damping Ratio | Natural frequency of oscillation | second order system
- 42 Lec 38 Undamped | Underdamp | Critical damp | Over damped system for series and parallel RLC circuit
- 43 Lec 39 Quality factor | Time domain parameters of first order system
- 44 Lec 40 Step response of second order system
- 45 Lec 41 Brief of Impulse response and Step response of second order system
- 46 Lec 42 Time domain parameters of first order system | Delay time | Rise time | settling time
- 47 Lec 43 Time domain parameters of second order system | Delay, Rise, Peak and settling time
- 48 Lec 44 Maximum peak overshoot, settling time for under damped system
- 49 Lec 45 Question discussion on time domain parameters | Second order system part 01
- 50 Lec 47 Question discussion on time domain parameters | Second order system part 03
- 51 Lec 48 Question discussion on time domain parameters | Second order system part 04
- 52 Lec 49 Question discussion on time domain parameters | Second order system part 05
- 53 Lec 50 Question discussion on time domain parameters | Second order system part 06
- 54 Lec 51 Analysis of Steady State Error for Unity Feedback System | Complete Control System
- 55 Lec 52 Analysis of steady state error for unity feedback system and questions
- 56 Lec 53 Noise and disturbance elimination from the system
- 57 Lec 54 Sinusoidal response of an LTI system
- 58 Lec 55 Steady state error for unity feedback system question discussion
- 59 Lec 56 Steady state error for Non Unity feedback system
- 60 Lec 57 Steady state error for Non unity feedback system by Kuo method
- 61 Lec 58 Complete revision of Time Domain Analysis
- 62 Lec 59 Stability analysis | Routh hurwitz criteria
- 63 Lec 60 Concept of Row of Zeros | Routh Hurwitz criteria continue
- 64 Lec 61 Concept of sign change occurs above and below ROZ | Routh hurwitz criteria continue
- 65 Lec 62 Concept of auxiliary equation | Two ROZ | Routh Hurwitz criteria
- 66 Lec 63 Concept of Third order system stability | Routh Hurwitz
- 67 Lec 64 Question discussion on Routh Hurwitz
- 68 Lec 65 Root Locus Diagram | Important Concept | Control Systems
- 69 Lec 66 Relationship between OLTP poles & zeros to CLTF poles & zeros | Root Locus | Control system
- 70 Lec 68 Centroid, Break point, angle of asymptote concept in Root Locus | Control system
- 71 Lec 69 Angle of departure | Root locus | Control system
- 72 Lec 70 Question discussion on Root locus | Control system
- 73 Lec 71 Addition of Pole and Zero into the system | Root Locus | Control System
- 74 Lec 72 Complimentary root locus | Inverse root locus | Control system
- 75 Lec 73 Introduction of Bode Plot | Control system
- 76 Lec 74 How to draw Bode Plot for Pole and Zero at origin | Bode Plot | Control system
- 77 Lec 75 Bode plot for finite pole and zero | Corner frequency | Error | Control system
- 78 Lec 76 Error in Bode Plot | Control System
- 79 Lec 77 How to get TF from Bode Plot | Control system
- 80 Lec 78 Question discussion on Bode Plot | Control System
- 81 Lec 79 Polar Plot | Introduction | Control system
- 82 Lec 80/81 Polar plot basics | Control System
- 83 Lec 83 Polar plot | Gain Margin and Phase crossover frequency
- 84 Lec 84 Stability from Gain-Phase plot | Polar Plot
- 85 Lec 86 Nyquist Plot | important GATE concept continue |Control system
- 86 Lec87 Nyquist Plot | Principle of Argument | Control System
- 87 Lec 88 Nyquist Plot | Question discussion | Control system
- 88 Lec 89 Compensator and Controller | Control System for GATE
- 89 Lec 90 Lead Compensator | Control System for GATE
- 90 Lec 92 Complete Lag compensator, Lead-lag, Lag-Lead Compensator
- 91 Lec 93 Compensator | Important Question Discussion
- 92 Lec 94 Introduction of Controller | Control system for GATE
- 93 Lec 95 Proportional, Derivative and Integral controller
- 94 Lec 96 Frequency Response of Second Order System
- 95 Lec 97 State Space Analysis | Control System for GATE
- 96 Lec 98 State space model for Differential Equation
- 97 Lec 99 State Model for Differential Equation and Transfer function | State space analysis
- 98 Lec 100 Controllability and Observability | State space analysis
- 99 Lec 101 Question Discussion on state space continue