Simulation of magnetics for power electronics using Python

🌟 Course Title: Simulation of Magnetics for Power Electronics Using Python

🚀 Course Headline: Master the Art of Simulating Inductors and Transformers in Power Electronics with Python!

Dive into the World of Power Electronics Simulations!

Welcome to an enlightening journey through the realm of power electronics simulation! This comprehensive course, led by the esteemed instructor Shivkumar Iyerc, will equip you with the skills and knowledge to simulate complex magnetic components using Python. Simulation of Magnetics for Power Electronics Using Python is not just a course; it's an immersive learning experience designed to bridge the gap between theoretical concepts and practical application.

📚 Course Overview:

• Foundational Theory: Gain a solid understanding of the fundamental laws of physics that govern the behavior of inductors and transformers.
• Hands-On Learning: Engage with code-along sessions, where you'll build simulation models from scratch using Python.
• Real-World Application: Apply your newfound skills to a real-world case study involving a flyback converter, including the simulation of its high-frequency transformer.

What You'll Learn:

• 🧮 Theoretical Fundamentals: Learn the core principles behind inductors and transformers, and how they behave in different conditions.
• 🛠️ Practical Python Skills: Utilize Python to create simulation models, ensuring a deep understanding of both theory and application.
• 📊 Circuit Simulation Tools: Get hands-on experience with the free and open-source circuit simulator, Python Power Electronics (PPEC).
• 🚀 Case Study Analysis: Explore an in-depth case study that ties together theory with practical simulation, focusing on a flyback converter.

Course Structure:

1. Introduction to Inductors and Transformers: Understand the basics and the role they play in power electronics systems.
2. Simulation of Inductors: Learn how to simulate simple inductors using Python, comparing simulation results with theoretical values.
3. Transformer Theory and Modeling: Explore the theory behind transformers and build your own simulation models.
4. Advanced Transformer Simulations: Dive into more complex simulations of transformers used in high-frequency applications like flyback converters.
5. Flyback Converter Case Study: Analyze a real-world example, understanding its operation, the role of its transformer, and simulate it using Python.
6. Final Project: Apply all your skills to simulate a complete power electronic circuit, demonstrating your mastery of the course content.

Who Should Take This Course:

• Electrical Engineers and Students seeking to understand the principles of power electronics simulation.
• Power Electronics Designers aiming to enhance their skill set with Python programming for circuit simulations.
• Professionals working in areas related to power electronics who wish to expand their knowledge and toolset.

Why This Course?

• Expert Instruction: Learn from an instructor with extensive experience in power electronics and simulation.
• Hands-On Approach: Engage with Python through interactive coding sessions.
• Cutting-Edge Tools: Utilize the latest in open-source simulation software.
• Community Support: Join a community of peers and professionals to share insights, challenges, and successes.

Embark on this transformative learning journey today and unlock the potential of power electronics through simulation with Python! 🎓✨