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Research Adventure on Resonant Wireless Power Transfer
Rating: 4.2 out of 5(12 ratings)
60 students

Research Adventure on Resonant Wireless Power Transfer

Resonant Wireless Power Transfer is covered in this course by dealing with tools such as MATLAB and EM Simulators.
Last updated 3/2023
English

What you'll learn

  • Discover the fascinating world of near-field wireless power transfer and explore its exciting research challenges in the first ever comprehensive course
  • Learners will also gain experience in understanding new dimension of research in mitigating lateral misalignment problems in near-field wireless charging system
  • Learn to develop analytical magnetic-field distributions using MATLAB software with practical examples in this course and gain hands-on experience.
  • Learn how to use EM Simulator to simulate magnetic fields under both resonant and non-resonant conditions. Gain hands-on experience to enhance your skills.

Course content

3 sections14 lectures3h 32m total length
  • PART-A41:16

    In this lecture, you will be introduced to the fascinating world of WPT systems. The lecture covers a range of topics, including the various research areas that a researcher can explore in this field.

    The instructor will provide a detailed explanation of the motivation behind a specific research problem they have selected, which will help you gain a deeper understanding of the practical applications of WPT systems.

    Whether you are a student, researcher, or simply interested in this exciting technology, this lecture is designed to provide you with valuable insights and knowledge. By the end of the lecture, you will clearly understand the key concepts and ideas related to WPT systems and the various research opportunities available in this field.

  • PART-A17:58

    In this thought-provoking lecture, you will explore a variety of literary works and gain a deeper understanding of their significance. The lecture will cover a diverse range of genres, styles, and authors, providing you with a comprehensive overview of the rich and varied landscape of literature.

    In addition to exploring these works, the lecture will also delve into the proposed objective of the course. Through this exploration, you will gain insight into the key themes, ideas, and concepts central to the literature study.

  • PART-A4:25

    This captivating lecture will introduce you to a comprehensive understanding of the evolutionary process proposed to address the lateral misalignment problem in wireless power transfer systems.

  • PART-A16:45

    This lecture discusses a novel 3D Tx coil to mitigate lateral misalignment problems.


  • PART-A18:40

    This lecture discusses planar Tx coil antenna to mitigate lateral misalignment problems using a uniform magnetic field.


    Th following link will help as a reference to the lecture.

    https://doi.org/10.1109/TAP.2022.3146433

  • PART-A19:15

    The lecture discusses planar Tx coil antenna using non-uniform magnetic fields to mitigate lateral misalignment problems.


  • PART-A9:11

    The lecture discusses a novel booster coil antenna to control flux leakage to mitigate lateral misalignment problems.



  • PART-A10:57

    This lecture discusses a novel multi-coil modular Tx coil antenna with a detection system to mitigate lateral misalignment problems.



  • PART-A5:44

    The lecture discusses the investigation of Rx coil antenna to mitigate lateral misalignment problems.



  • PART-A5:08

    This lecture explains about the comparison of various designs discussed in previous lectures and gives a clear understanding about the best possible design.

  • PART-A2:25

    This lecture focuses on possible research works that one can look upon

Requirements

  • To enroll in this course on wireless power transfer, all you need is a strong desire to learn. Once you're on board, get ready for an exciting and thrilling journey as we explore the topic together. So fasten your seat belts and let's go!

Description

In this comprehensive Udemy course, you will dive deep into the world of resonant wireless power transfer, gaining valuable insights into the key concepts and techniques involved in this exciting field.

The course offers a comprehensive overview of the different research areas that are currently being explored, providing you with a broad understanding of the latest developments and trends. The instructor has also chosen to focus on a specific research area, which they have worked on extensively, and will provide you with a detailed exploration of this topic.

In addition, the course offers practical guidance on the use of computational software such as MATLAB and simulation software such as EM Simulator to create accurate 3D and 2D magnetic field distributions in the Rx plane. This guidance will help you develop the skills and knowledge you need to create your own simulations and models, enabling you to tackle real-world problems with confidence and ease.

Whether you are a student, researcher, or simply interested in resonant wireless power transfer, this course is designed to provide you with the tools and knowledge you need to succeed in this exciting field. By the end of the course, you will have a deep understanding of the latest trends and techniques, and be equipped to take on complex research problems and projects with confidence.

Who this course is for:

  • This course is designed primarily for researchers in the field of near-field wireless power transfer systems, but it's not limited to them. It's also suitable for new researchers looking to explore this area and engineers already working in near-field wireless power transfer who want to enhance their skills.