AC/DC Converter in Simulink
Design and simulate controlled rectifiers using MATLAB/Simulink
Ratings 4.33 / 5.00
What You Will Learn!
- Understand the principles of power electronics and the role of switching devices.
- Identify and analzye different types of power converters
- Analyze and design uncontrolled rectifiers for both half-wave and full-wave applications
- Design and simulate controlled rectifiers using MATLAB/Simulink, including single-phase half wave, single-phase full wave (semi-controlled and fully controlled
- Gain practical insights into AC-DC converter performance and behavior through hands-on MATLAB/Simulink simulations
Description
In this comprehensive course on Power Electronics, participants will delve into the fundamental principles and applications of power electronics, gaining the knowledge and skills necessary to design and analyze various power converter circuits. Through a combination of theoretical lectures and practical hands-on simulations using MATLAB/Simulink, participants will explore the intricate workings of power electronic devices and their applications in real-world scenarios.
The course begins by introducing the principles of power electronics and the pivotal role of switching devices in modern power systems. Participants will learn how these devices facilitate the efficient conversion and control of electrical power, enabling the design of advanced power converter circuits.
Moving forward, participants will delve into the analysis and design of different types of power converters, including uncontrolled rectifiers for both half-wave and full-wave applications. Through theoretical discussions and practical examples, participants will gain a deep understanding of rectifier operation and design considerations.
A significant portion of the course is dedicated to the design and simulation of controlled rectifiers using MATLAB/Simulink. Participants will learn to design and simulate various configurations of controlled rectifiers, including single-phase half-wave, single-phase full-wave (semi-controlled and fully controlled), and three-phase setups. Through hands-on simulations, participants will gain practical insights into the performance and behavior of AC-DC converters under different operating conditions.
By the end of this course, participants will have developed a thorough understanding of power electronics principles and the ability to design and analyze complex power converter circuits. Armed with practical skills and insights gained from MATLAB/Simulink simulations, participants will be well-equipped to tackle real-world challenges in power electronics engineering with confidence and proficiency.
Who Should Attend!
- Anyone interested in power electronics