#Japan #MIT Technology #Chiyoda #CMC Research #Non-Contact Charging

Discover the Future of Non-Contact Charging Technology

As the demand for innovative energy solutions increases, non-contact charging technology, specifically utilizing the MIT method, is gaining traction. This seminar, hosted by CMC Research Co., Ltd., will delve into the intricate mechanisms of high-efficiency energy transfer associated with this groundbreaking technology. The event will take place online via Zoom on September 3rd, 2025, and will feature guest speaker Atsuki Hatano, a part-time lecturer at Nippon Institute of Technology.

Why Attend?

Participants will gain a comprehensive understanding of the benefits of non-contact charging systems, particularly how the MIT method facilitates efficient energy transfer. Attendees will also explore strategies for addressing electromagnetic interference (EMI) associated with such charging systems. This knowledge is crucial for professionals working in technical sales, product planning, and development of non-contact charging solutions.

Seminar Overview

• - Date and Time: September 3, 2025, from 13:30 to 16:30
• - Joining Fee: 44,000 yen (including tax), with a reduced rate of 39,600 yen for CMC newsletter subscribers, and 26,400 yen for academic attendees.
• - Instructor: Atsuki Hatano, who brings years of experience in the field, having worked with major companies including Hitachi and Subaru, and currently involved in research and academia focused on non-contact charging technologies.

Key Takeaways

Participants will leave the seminar with the ability to:

• - Explain the technical positioning of non-contact charging systems and how the MIT method achieves high energy transfer efficiency.
• - Address concerns regarding electromagnetic noise, empowering them to develop and implement effective solutions within their organizations.

Seminar Agenda

1. Formulation as a Resonance Method (MIT)
- Addressing misconceptions about non-contact charging and its efficiency.
- Understanding the engineering conditions for applying concentrated constant circuits and how to differentiate them from distributed constant circuits.
- Demonstrating how the resonance method (MIT) can match wired power supply efficiency when viewed as a concentrated constant circuit.

2. Analysis of the Resonance Method (MIT)
- Analyzing causes of high voltage within resonance circuits and introducing first and second currents.
- Examining the reasons behind the efficiency of the MIT method.

3. Electromagnetic Leakage
- Modeling electromagnetic leakage from non-contact charging systems and discussing methods to mitigate it effectively without compromising energy transfer efficiency using spectral expansion techniques developed in mobile technology.

Interactive Q&A Session

Attendees will have the opportunity to engage in a Q&A session, allowing for a deeper discussion of the topics covered and the chance to clarify any uncertainties regarding the technology and its applications.

How to Register

To register for the seminar, please visit our website. Following your registration, a URL for access to the live stream will be sent to you via email.

We encourage you to participate and delve into the future of energy transfer technologies, especially as the fields of electric vehicles and consumer electronics expand their reliance on efficient and effective charging solutions. Don't miss this opportunity to enhance your understanding and stay at the forefront of technological advancements in the energy sector.