Control Engineering
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33 learners
What you'll learn
This course includes
- 36.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 208 lessons • 36.3 hours of video
Control Engineering
208 lessons
• 36.3 hours
Control Engineering
208 lessons
• 36.3 hours
- How to Access all the Courses of Engineering Funda? 08:22
- Introduction to Control Engineering, Syllabus and Applications of Control Engineering 06:47
- Open Loop System Explained: Block Diagram, Applications, Pros, and Cons 08:36
- Closed Loop System Explained: Block Diagram, Applications, Pros, and Cons 10:01
- Open vs Closed Loop Systems in Control Engineering: A Detailed Comparison 07:37
- Types of Feedback Explained: Negative and Positive Feedback in Control Engineering 10:46
- Effects of Feedback on Gain, Sensitivity, and Stability in Control Systems 13:51
- Transfer Function Explained: Basics, Types, Properties, Pros & Cons 08:49
- Transfer Function of Differential Equations: Step-by-Step Examples and Solutions 09:54
- Transfer Function of RC Circuits: High Pass Filter and Low Pass Filter 10:22
- Transfer Function of RL Circuits: High Pass Filter and Low Pass Filter 09:10
- Transfer Function of RLC circuit and Order of RLC circuit in Control Engineering 09:41
- Transfer Function Analysis for Electrical Networks in Control Engineering 11:06
- Block Diagram Explained: Basics, Terms, Applications, Advantages & Disadvantages 11:38
- Block Diagram Reduction Rules Explained in Control Engineering 16:01
- Block Diagram Reduction Examples: Visualizing Techniques with Animation 12:28
- Block Diagram Reduction Examples: Visualizing Techniques with Animation 12:52
- Block Diagram Reduction: Detailed Solved Example and Solution 06:30
- Block Diagram Reduction: Detailed Solved Example and Solution 08:29
- Block Diagram Reduction: Detailed Solved Example and Solution 06:41
- Block Diagram Reduction: Detailed Solved Example and Solution 05:12
- Signal Flow Graphs: Basics and Terminology in Control Systems 13:18
- Signal Flow Graph Rules: Key Concepts in Control Engineering 06:48
- Signal Flow Graphs and Mason's Gain Formula: Animated Examples Explained 13:28
- Signal Flow Graph From Line Equations: Step by Step Solved Example 10:31
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and Example 1 09:38
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and Example 2 06:03
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and Example 3 09:29
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and Example 4 12:54
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and Example 5 11:07
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 1 08:17
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 2 05:50
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 3 06:53
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 4 04:27
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 5 03:30
- Mason's Gain Formula for Signal Flow Graph: Steps, Process, and GATE Example 6 05:59
- Block Diagram to Signal Flow Graph to Mason's Gain Formula: Detailed Process with Solved Example 1 10:29
- Block Diagram to Signal Flow Graph to Mason's Gain Formula: Detailed Process with Solved Example 2 12:25
- Block Diagram to Signal Flow Graph to Mason's Gain Formula: Detailed Process with Solved Example 3 11:26
- Block Diagram to Signal Flow Graph to Mason's Gain Formula: Detailed Process with Solved Example 4 12:16
- Block Diagram to Signal Flow Graph to Mason's Gain Formula: Detailed Process with Solved Example 5 05:15
- Mathematical Model of Control System: Differential Equation, Transfer Function & State Space Model 08:15
- Mechanical Systems Explained: Basics, Types, and Parameters in Control Engineering 08:43
- Translational Mechanical System in Control Engineering & Control System by Engineering Funda 08:43
- Rotational Mechanical System in Control Engineering & Control System by Engineering Funda 10:04
- Force Voltage Analogy in Control Engineering & Control System 11:12
- Force Current Analogy in Control Engineering & Control System 10:42
- Torque Voltage Analogy in Control Engineering & Control System 09:18
- Torque Current Analogy in Control Engineering & Control System 08:36
- Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example 1 09:56
- Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example 2 13:30
- Mathematical Modeling of Mechanical System: Steps, Parameters, Differential Equation & Example 3 12:57
- Force Voltage Analogy: Steps, Parameters, Differential Equation & Example 1 14:52
- Force Voltage Analogy: Steps, Parameters, Differential Equation & Example 2 14:17
- Force Voltage Analogy: Steps, Parameters, Differential Equation & Example 3 12:19
- Force Current Analogy: Steps, Parameters, Differential Equation & Example 1 12:15
- Force Current Analogy: Steps, Parameters, Differential Equation & Example 2 14:46
- Force Current Analogy: Steps, Parameters, Differential Equation & Example 3 15:19
- Test Signals Explained: Impulse, Step, Ramp, and Parabolic Signals 09:48
- Steady State Error Explained: Basics, Definition, Derivation, Calculation, and Formula 10:42
- Static Error Constant Explained: Positional, Velocity & Acceleration Error Constant 04:29
- Steady State Error with Unit Step Input: Type 0, 1, and 2 Systems Explained 11:55
- Steady State Error with Unit Ramp Input: Type 0, 1, and 2 Systems Explained 12:38
- Steady State Error with Unit Parabolic Input: Type 0, 1, and 2 Systems Explained 12:49
- Order of the System: Basics, Definition, and Solved Examples 07:27
- Time Response Analysis Explained: Basics, Types, Example, and Graphical Understanding 08:32
- Impulse Response of First-Order Systems: Concepts, Derivation, and Graphical Understanding 06:01
- Unit Step Response of First-Order Systems: Concepts, Derivation, and Graphical Understanding 15:48
- Unit Ramp Response of First-Order Systems: Concepts, Derivation, and Graphical Understanding 11:39
- Nature of Roots in Second Order Systems in Control Engineering 15:06
- Unit Step Response for an Undamped Second-Order System in Control Engineering 08:13
- Unit Step Response of a Critically Damped Second Order System in Control Systems 11:16
- Unit Step Response of an Underdamped Second Order System in Control Systems 17:30
- Unit Step Response of Second Order Systems: Effects of Varying Damping Factors 10:17
- Rise Time of Second Order System: Basics, Definition, and Derivation 09:54
- Peak Time of Second Order System: Basics, Definition, and Derivation 10:33
- Peak Overshoot of Second Order System: Basics, Definition, and Derivation 08:02
- Settling Time of Second Order System: Basics, Definition, and Derivation 09:17
- Second Order System Parameters Solved Examples : Rise Time, Peak Time, and Peak Overshoot 13:21
- Time Response Analysis Solved Example in Control Engineering by Engineering Funda 06:00
- Stability Criteria for Control Systems Explained: Definition, Basics, and Case Study 13:28
- System Classification by Stability in Control Engineering & Control System 03:49
- Routh Stability Criterion: Steps, Process, and Detailed Examples in Control Systems 19:22
- Routh Stability Criterion: Special Case - I in Control Systems 18:48
- Routh Stability Criterion: Special Case - II in Control Systems 08:16
- Routh Stability Criterion: Relative Stability in Control Systems 04:28
- Routh Stability Criterion: Stability Range in Control Systems 08:53
- Routh Stability Criterion: Stability Optimization in Control Systems 12:30
- 1 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 04:33
- 2 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 08:56
- 3 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 07:24
- 4 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 05:20
- 5 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 05:37
- 6 Routh Stability Criterion: For Block Diagram of System in Control Systems 05:40
- 7 Routh Stability Criterion: For Characteristics Equation of System in Control Systems 06:29
- 8 Routh Stability Criterion: Steps, Process, and GATE Example in Control Systems 03:28
- 9 Routh Stability Criterion: For Signal Flow Graph of System in Control Systems 04:15
- 10 Routh Stability Criterion: Special Case - I in Control Systems 09:23
- 11 Routh Stability Criterion: Special Case - II in Control Systems 08:13
- 12 Routh Stability Criterion: For Oscillatory System in Control Systems 10:43
- What is Root Locus Plot? 09:25
- Root Locus Rules Explained: Loci, Asymptotes, Break Away, Angle of Departure & Axis Intersection 10:37
- Angle of Departure in Root Locus Explained 14:40
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 1 12:28
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 2 13:29
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 3 14:21
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 4 16:26
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 5 12:26
- Root locus Plot From Characteristics Equation Explained: Rules, Steps, Procedure, and Example 6 17:32
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 7 21:11
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 8 20:10
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 9 17:37
- Root locus Plot Explained: Rules, Steps, Procedure, and Solved Example 10 22:21
- Root locus Plot Explained with Animations: Rules, Steps, Procedure, and Solved Example 11 17:17
- Root Locus to Identify Stability of System 07:32
- Root Locus for Finding Transfer Function: GATE Example 1 05:43
- Root Locus for Finding Open Loop Transfer Function: GATE Example 2 02:53
- Root Locus for Finding Centroid of Asymptotes: GATE Example 3 02:28
- Root Locus Plotting Through Observations: GATE Example 4 06:02
- Root Locus to Find Centroid of Asymptotes: GATE Example 5 06:35
- Root Locus to Find Interaction to Root Loci: GATE Example 6 06:27
- Proportional Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons 08:46
- Integral Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons 08:02
- Derivative Controller Explained: Basics, Block Diagram, Transfer Function, Pros, and Cons 08:14
- PI Controller Explained: Basics, Block Diagram, Significance, Transfer Function, Pros, and Cons 16:51
- PD Controller Explained: Basics, Block Diagram, Significance, Transfer Function, Pros, and Cons 16:47
- PID Controller Explained: Basics, Block Diagram, Significance, Transfer Function, Pros, and Cons 13:09
- P, PI, PD, and PID Controllers: A Comparative Analysis in Control System Engineering 11:36
- Initial Value Theorem & Final Value Theorem: Definition, Conditions and Examples 17:19
- Initial Value Theorem & Final Value Theorem Solved Examples 10:06
- Frequency Response Analysis: Basics, Definition, Parameters, and Derivation 10:06
- Frequency Response Analysis of Second-Order Systems: Magnitude and Phase Explained 07:23
- Resonance Frequency Explained: Definition, Derivation, and Formula in Frequency Response Analysis 07:15
- Resonant Peak Explained: Definition, Derivation, and Formula in Frequency Response Analysis 06:44
- Bandwidth Explained: Definition, Derivation, and Formula in Frequency Response Analysis 09:41
- Frequency Response Analysis Solved Example: Maximum Peak Overshoot, Resonant Peak, and Bandwidth 1 10:13
- Frequency Response Analysis Solved Example: Maximum Peak Overshoot, Resonant Peak, and Bandwidth 2 11:19
- Polar Plot Basics, Drawing Procedure, and Advantages 06:32
- Polar Plot Procedure and Steps 08:57
- Polar Plot Parameters: Gain Margin, Phase Margin, Gain & Phase Cross Over Frequency 13:10
- Stability Analysis with Polar Plots: Key Concepts and Methods 13:41
- Polar Plot for Type 0 System: Steps, Drawing Procedure, and Solved Example 14:37
- Polar Plot for Type 1 System: Steps, Drawing Procedure, and Solved Example 14:39
- Polar Plot: Steps, Drawing Procedure, and Solved Example 1 14:31
- Polar Plot: Steps, Drawing Procedure, and Solved Example 2 11:29
- Polar Plot: Steps, Drawing Procedure, and Solved Example 3 15:28
- Polar Plot: Steps, Drawing Procedure, and Solved Example 4 20:11
- Nyquist Plot Drawing Procedure and Steps 09:51
- Stability Analysis Using Nyquist Plot: Concepts and Techniques 09:44
- Nyquist Plot: Steps, Drawing Procedure, and Solved Example 1 25:06
- Nyquist Plot: Steps, Drawing Procedure, and Solved Example 2 26:37
- Nyquist Plot Stability Examples: Analyzing System Stability 09:17
- Nyquist Plot for a Range of Stability Examples: Detailed Analysis 10:34
- Nyquist Plot Parameters Example: Filter Identification, Stability, and Type of Transfer Function 08:46
- Nyquist Plot Analysis for Identifying System Stability 10:06
- Nyquist Plot Stability Identification 04:32
- Stability and Minimum Phase System GATE Examples | Control Engineering | Engineering Funda 04:58
- Phase Margin GATE Example 1 | Control Engineering | Engineering Funda 05:45
- Phase Margin GATE Example 2 | Control Engineering | Engineering Funda 07:06
- Gain Margin GATE Example | Control Engineering | Engineering Funda 05:44
- Gain Margin and Phase Margin GATE Example | Control Engineering | Engineering Funda 04:57
- Gain Margin with Shortcut Method GATE Example | Control Engineering | Engineering Funda 06:01
- Phase Cross Over Frequency GATE Example | Control Engineering | Engineering Funda 10:17
- System Response GATE Example | Control Engineering | Engineering Funda 03:14
- Bode Plot in Control Systems: Basics, Drawing Procedure, Parameters, and Advantages 21:05
- Bode Plot Example in Control Systems: Basics, Drawing Procedure, and Parameters 26:57
- Bode Plot Example Explained in Control Systems: Basics, Drawing Procedure, and Parameters 23:56
- Bode Plot Example Explained with Animations: Basics, Steps, Parameters and Stability 20:58
- Bode Plot Example: Identifying Transfer Function from Gain Plot in Control Systems 09:16
- Bode Plot Example: Finding Transfer Function of the System in Control Systems 08:47
- Bode Plot Example: Generating Gain Plot from Transfer Function in Control Systems 10:54
- Bode Plot Example: Finding Transfer Function from Gain Plot in Control Systems 07:35
- Bode Plot Example: Finding Steady State Error in Control Systems 13:13
- Bode Plot Example Based on dB/Octave Plot in Control Systems 11:31
- Bode Plot Example: Analyzing Gain Constant and Corner Frequency in Control Systems 05:49
- Bode Plot Example: Finding Unknown Frequency from Gain Plot in Control Systems 06:52
- Bode Plot Example: Finding Transfer Function and Corner Frequencies from Gain Plot 10:27
- State Space Analysis Advantages: Comparison with Transfer Function Analysis 06:55
- State Space Analysis: Basics, Applications, and Its Role in Control Systems 11:03
- State Space Analysis: Representation, Terminologies, and Equations in Control Systems 09:09
- State Space Analysis for MIMO Systems in Control Systems 10:44
- State Space Analysis to Determine Transfer Function 09:27
- State Space Analysis to Determine Transfer Function 09:22
- State Space Analysis to Find Transfer Function and Block Diagram 14:22
- Transfer Function to State Space Equations: Solved Example 15:32
- State Space Analysis for Electrical Systems 11:46
- State Space Modeling for Differential Equations in Control Engineering 10:43
- State Space Analysis for Signal Flow Graph Solved Example 1 13:15
- State Space Analysis for Signal Flow Graph Solved Example 2 16:12
- Compensators: Introduction, Basics, and Types in Control Systems 05:49
- Lead Compensators: Basics, Derivation, Condition, and Response 21:17
- Effects of Lead Compensator on Control Systems 03:24
- Lag Compensators: Basics, Mathematical Derivation, Conditions and System Response 17:24
- Effects of Lag Compensator on Control Systems 04:33
- Lag-Lead Compensators: Basics, Mathematical Derivation, Conditions and Response 11:39
- Compensator Example for Maximum Phase in Control Systems 05:45
- Compensator Identification From Transfer Function of System 03:33
- Compensator Identification From Pole Zero Plot of System 04:43
- Compensator Example Based on System Response 02:20
- Compensator Example Based on Transfer Function of a System 02:38
- Compensator Identification From Pole Zero Plot of System 03:04
- MATLAB Tutorial: Sine, Cosine, Square, and Triangular Wave Generation 15:16
- MATLAB Tutorial: Key Matrix Functions and Their Uses 11:02
- MATLAB Tutorial: Block Diagram Reduction Techniques 08:03
- MATLAB Tutorial: Calculating Steady State Error for Step, Ramp, and Parabolic Inputs 11:54
- MATLAB Tutorial: Analyzing Unit Impulse and Step Responses of 2nd Order Systems 12:41
- MATLAB Tutorial: How to Generate Nyquist Plots for Control Systems 10:11
- MATLAB Tutorial: How to Generate Bode Plots for Control Systems 10:13
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