Cómo funcionan los TRANSFORMADORES de POTENCIA? | Animación 3D Épica

In this video, we explore in depth the workings of a voltage transformer, a key component in power transmission. Discover how the variable magnetic field and coils are essential for its operation, detailing its components and the importance of the power transformer in electrical distribution. Understanding what an electrical transformer is has never been clearer, thanks to Faraday's principles. From the fundamentals of electromagnetic induction to the complex construction of laminated cores and oil-cooling systems, we analyze how voltage is stepped up and stepped down to reach our homes. You will learn the difference between step-up and step-down transformers, what eddy currents are, and how tap changers work under load. Don't miss this journey to the heart of the electrical grid! Video Chapters: 0:00 Introduction: The Engine of the Electrical Grid 0:44 What is a Transformer? Static Machines 1:29 Basic Principles: Electromagnetic Induction 2:49 Mutual Induction and AC vs. DC Sources 3:20 Construction: The Ferromagnetic Core and Efficiency 5:16 Energy Losses and Eddy Currents 6:21 Step-Up vs. Step-Down Transformers 7:36 What are Transformer Taps? 7:57 Construction Types: Core Type vs. Shell Type 8:16 Single-Phase Transformers and Residential Distribution 8:36 High-Power Three-Phase Transformers 9:06 Anatomy of a Power Transformer: The Core 9:40 Low- and High-Voltage Windings 11:12 Bushings and Electrical Safety 11:35 The Conservator Tank and Maintenance 11:55 Conclusion and Closing Original Video: The Science Works #electricalengineering #transformers #electricity #electricalpower #technology #science #electronics