Fundamental of Power Electronics with MATLAB Simulink

🚀 Master the Fundamentals of Power Electronics with MATLAB Simulink! 🏫

Course Title: Fundamental of Power Electronics with MATLAB Simulink

Unlock the Secrets of Power Electronics:

Are you a student eager to grasp the core concepts of power electronics? A researcher looking for a solid foundation in power electronic design? Or simply a curious mind seeking answers to your electrical enquiries? 🧐✨

This comprehensive course is meticulously designed to cater to all levels, ensuring a seamless learning journey from the basics to advanced understanding. With a focus on practical applications and hands-on experience using MATLAB Simulink, you'll be well-equipped to analyze, design, and simulate power electronic circuits.

Course Structure:

Chapter 1: Introduction to Power Electronics 📜

• Introduction A: Laying the groundwork for power electronics.
• Introduction B: Diving deeper into semiconductor fundamentals.
• Example Design: Putting concepts into practice with an early design example.

Chapter 2: Power Computations 💫

• Power and Energy: Understanding the principles behind power calculations.
• Inductors, Capacitors, and Energy Recovery: Mastering the behavior of key components.
• Effective Values RMS, Apparent Power, and Power Factor: Learning to interpret and apply electrical measurements.

Chapter 3: Rectifiers 🔌

• Introduction to Rectifiers: Comprehending the basics of rectification.
• Uncontrolled Rectifiers with Resistive Load: Exploring simple rectifier circuits.
• Rectifier Performance Parameters: Analyzing the performance metrics of rectifiers.
• Uncontrolled Three Phase Rectifiers: Understanding three-phase rectification systems.
• Uncontrolled Rectifiers with Resistive-Inductive Load: Addressing more complex loads.
• Controlled Single Phase Rectifier with RL Load: Learning about control mechanisms.
• Controller Single Phase Rectifier with RL Load: Implementing controllers for improved performance.
• Controlled Three Phase Rectifiers: Delving into three-phase control strategies.

Chapter 4: DC-DC Converters 🔋

• Introduction to DC-DC Converters: Setting the stage for voltage conversion.
• Buck and Boost Converters: Understanding linear and non-linear converters.
• Transformer based Buck Converter: Exploring transformer applications in converters.
• Flyback and Cuk Converters, SEPIC Converter: Discovering various topologies and their applications.
• Pulse Width Modulation (PWM): Diving into PWM techniques for efficient power control.

Chapter 5: DC-AC Converters (Inverters) 🏊‍♂️

• Introduction to Inverters: Introduction to converting DC to AC.
• Square Wave and Sine Wave Inverters: Understanding different inverter waveforms.
• Fourier Series Analysis and Total Harmonic Distortion (THD): Analyzing the quality of output from inverters.
• Filtering and Sine PWM: Ensuring clean, sine wave outputs.
• Three Phase Inverter: Exploring three-phase power generation.
• Multilevel Inverter: Learning about advanced inverter designs for high-power applications.

Chapter 6: AC-AC Converters 🌩️

• AC-AC Converter Designs: Exploring different methods of converting AC to AC.
• Single Phase and Three Phase Full Wave Controllers: Mastering full wave controller designs for various loads.

Why Choose This Course? 🎓

• Step-by-Step Learning: The course is structured to build your knowledge progressively, from foundational concepts to advanced applications.
• Practical Applications with MATLAB Simulink: Gain hands-on experience by implementing what you learn in real-world scenarios using MATLAB/Simulink software.
• Interactive Learning Environment: Engage with the material through interactive examples and exercises that reinforce your understanding of power electronics.

Instructor Support: 💡

Rest assured, you won't be learning in isolation. I am here to support you throughout your journey with this course. If you have any questions or need clarification on any topic, feel free to reach out. Your understanding is my priority.

Guarantee Your Satisfaction: 🛡️

Your satisfaction is important to us. With Udemy's 30-day money-back guarantee, you can start learning without any risks. If you're not satisfied with the course, you can get a full refund, no questions asked.

Embark on your journey to mastering power electronics today. Enroll in this course and unlock the potential of electricity with MATLAB Simulink! 🚀🔧✨