This advanced diploma provides a deep dive into control system engineering, equipping participants with the skills needed for sophisticated applications and troubleshooting in the field. Ideal for engineering professionals and students aspiring to advance their knowledge in control systems.
What Will You Learn?
- Introduction to Control Systems: Grasp the fundamentals of control system theory.
- Mathematical Modeling: Develop skills in modeling control systems mathematically.
- Control System Analysis: Analyze the performance of control systems.
- PID Control: Master the principles and application of Proportional-Integral-Derivative control.
- Advanced Techniques: Explore cutting-edge control methodologies.
- Compensation: Understand techniques for system compensation.
- Digital Control Systems: Delve into the world of digital control.
- State-Space Control: Learn advanced state-space control methods.
- Implementation: Gain practical insights into implementing control systems.
- Applications: Explore real-world applications of control systems.
- Simulation and Design Tools: Utilize tools for simulating and designing control systems.
- Troubleshooting and Maintenance: Develop skills in diagnosing and maintaining control systems.
Who Should Take The Course?
- Engineers and students interested in advanced control system applications.
- Professionals seeking to enhance their skills in control system engineering.
Requirements
- Basic understanding of engineering principles.
- Access to course materials and resources.
Course Curriculum
-
- Overview of Control Systems and their applications 00:23:00
- Types of Control Systems: Open-loop and Closed-loop 00:22:00
- Control System Components and Terminology 00:26:00
- Control System Design Process 00:28:00
-
- Transfer Functions and Block Diagrams 00:20:00
- Laplace Transform and Time Domain Analysis 00:23:00
- State-Space Representation of Control Systems 00:26:00
- System Stability and Routh-Hurwitz Criterion 00:21:00
- Time Response Analysis: First Order and Second Order Systems 00:24:00
- Performance Specifications: Rise Time, Settling Time, Overshoot, etc. 00:27:00
- Frequency Response Analysis: Bode Plots, Nyquist Plots 00:25:00
- Stability Analysis: Root Locus Technique 00:27:00
- Feedforward Control 00:26:00
- Cascade Control 00:21:00
- Ratio Control 00:21:00
- Gain Scheduling 00:21:00
- Adaptive Control 00:22:00
- Introduction to Digital Control Systems 00:21:00
- Z-Transform and Sampled Data Systems 00:23:00
- Discrete PID Controllers 00:28:00
- Stability Analysis of Digital Control Systems 00:26:00
- PLC (Programmable Logic Controller) Basics 00:26:00
- PLC Programming for Control Systems 00:21:00
- PLC Programming for Control Systems 00:21:00
- Hardware Interface and Integration 00:26:00
- Case Studies on Real-world Control System Implementation 00:24:00
- MATLAB/Simulink for Control System Simulation 00:27:00
- Control System Design Software 00:21:00
- Hands-on Projects and Simulations 00:23:00
- Exam of Control Systems Level 3 Advanced Diploma 00:50:00
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