CMC Research
[Live streaming seminar] Basics, technology trends, and prospects of optical wireless power transfer technology Held on Thursday, January 25th Sponsored by: CMC Research Co., Ltd.
This seminar will be a webinar (live distribution seminar) using the video conferencing tool “Zoom” on the day.
……
CMC Research Co., Ltd. (Kanda Nishiki-cho, Chiyoda-ku:
https://cmcre.com/
For more information on the seminar and to apply, please visit our URL below! https://cmcre.com/archives/118423/
There will also be time for a question and answer session, so please come and join us.
By making the remaining wiring in devices wireless, we can expect major changes in society, including the creation of a variety of applications. Optical wireless power transfer has the advantages of being compact, capable of long-distance power transfer, and without electromagnetic wave leakage. However, despite its relatively simple configuration, it has hardly been studied to date. We will explain the advantages and challenges of optical wireless power transfer, the research status of devices and optical wireless power transfer systems, and the latest related trends, which will provide basic knowledge for future developments.
1) Seminar theme and date and time
Theme: Basics, technology trends, and prospects of optical wireless power transfer technology
Date and time: January 25, 2024 (Thursday) 10:30-16:30
Participation fee: 55,000 yen (tax included) * Materials included * E-mail newsletter subscribers: 49,500 yen (tax included) * Academic price is 26,400 yen (tax included)
Lecturer: Tomoyuki Miyamoto, Associate Professor, Institute of Future Industrial Technology, Tokyo Institute of Technology
[Knowledge gained at the seminar]
Basic principles, advantages and challenges of optical wireless power transfer, status of optical wireless power transfer devices and systems, latest trends in research cases, etc.
*This seminar will be a live-streaming seminar using the video conferencing tool “Zoom” on the day. Please refer to the tool for recommended environment. We will contact you via email with the viewing URL at a later date.
★Recording or filming during the course is strictly prohibited.
2) How to apply
CMC Research’s seminar site
https://cmcre.com/archives/118423/
Please apply from.
We will contact you via separate email with the viewing URL. Please see the URL for details.
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3) Introduction of seminar program
1 Wireless communication and wireless power supply
1.1 Wireless communication becomes standard
1.1.1 Expansion of wireless communication
1.1.2 Significance and problems of wireless communication
1.2 Current status of power supply
1.2.1 Remaining priority power supply
1.2.2 What about the battery?
1.2.3 What about energy harvesting?
1.2.4 Expectations of wireless power transfer
2 Wireless power transfer technology
2.1 Types and characteristics of wireless power transfer
2.1.1 Electromagnetic induction, magnetic resonance, electric field method 2.1.2 Microwave method
2.2.3 Ultrasonic method
2.2 Issues with wireless power transfer system
2.2.1 Human effects of electromagnetic waves and equipment interference 2.2.2 Complexity of wireless power transfer configuration
3 Basics of optical wireless power transfer
3.1 Powered by light
3.1.1 Solar power generation/indoor lighting power generation 3.1.2 Difference between sunlight and laser light
3.1.3 Solar cell irradiation with sunlight and monochromatic light 3.2 Optical wireless power transfer using light beam
3.2.1 Wireless power supply using light beam
3.2.2 Is optical wireless power transfer a new technology?
3.2.3 Past history of optical wireless power transfer
4 Principle and configuration of optical wireless power transfer 4.1 Features of solar cells for optical wireless power transfer 4.1.1 Basics of solar cell operation
4.1.2 Solar cell efficiency
4.1.3 Trends in solar cells
4.2 Characteristics of light sources for optical wireless power transfer 4.2.1 Light source output and efficiency
4.2.2 Long distance transmission of laser light
4.2.3 Can LEDs be used for optical wireless power transfer?
4.3 Efficiency of optical wireless power transfer
4.3.1 Concept of power supply efficiency
4.3.2 Current status and future of efficiency
4.4 Components of optical wireless power transfer system
4.4.1 Uniform irradiation
4.4.2 Beam control
4.4.3 Target detection, etc.
5 Optical wireless power supply system
5.1 Research and development example of optical wireless power transfer 5.1.1 Implantable devices
5.1.2 Small IoT terminal
5.1.3 Information terminals/indoor equipment
5.1.4 Ground mobile objects (EVs, robots, AGVs, etc.)
5.1.5 Aerial mobile objects (drones, etc.)
5.1.6 Underwater application
5.1.7 Space applications
5.2 Safety of optical wireless power transfer
5.2.1 Maximum exposure allowance and laser classification
5.2.2 Measures to ensure safety
5.3 Optical power supply using optical fiber
5.3.1 Characteristics of optical fiber power supply
5.3.2 Example of optical fiber power supply
6 Summary
4) Instructor introduction
[Lecturer career]
1996 Completed doctoral course at Tokyo Institute of Technology Graduate School of Science and Engineering (Doctor of Engineering) 1996 Tokyo Institute of Technology Precision Engineering Laboratory Assistant 1998 Lecturer, Quantum Effect Electronics Research Center, Tokyo Institute of Technology
2000 Tokyo Institute of Technology, Institute of Precision
Engineering, Associate Professor
2004-2006 Ministry of Education, Culture, Sports, Science and Technology, Research Promotion Bureau, Basic Research Division, Materials Development Promotion Office, Academic Researcher
(concurrent post)
2016: Tokyo Institute of Technology, Institute of Science and Technology, Institute of Future Industrial Technology, Associate Professor (to present)
[Activities]
Engaged in optoelectronics and photonics fields since his degree research. Since my degree research, I have focused on research on optical devices such as surface-emitting lasers, optical devices, and optical semiconductor crystal growth, but about 6 years ago I started paying attention to optical wireless power transfer, and am currently focusing on optical wireless power transfer from devices to devices. Extensive research into systems.
5) Regarding seminar targets and benefits
*This seminar will be a live-streaming seminar using the video conferencing tool “Zoom” on the day. Please refer to the tool for recommended environment. We will contact you via email with the viewing URL at a later date.
★ Recording or filming during the course is strictly prohibited.
[Seminar target audience]
People who want to gain knowledge about the basic technology and applied fields of optical wireless power transfer, corporate research and development departments, new business exploration departments, university researchers, graduate school students, etc.
☆Click here for details and application↓
https://cmcre.com/archives/118423/
6) Information on webinars (online distribution seminars)
〇Lithium-ion battery basics and performance/safety evaluation methods Date and time: December 25, 2023 (Monday) 13:30-16:30
https://cmcre.com/archives/118495/
○Current status, trends and prospects of water electrolysis for a green hydrogen society
Date and time: December 26, 2023 (Tuesday) 13:30-16:30
https://cmcre.com/archives/117502/
〇Trends in automotive resin recycling technology in Europe
Date and time: January 12, 2024 (Friday) 13:30-15:00
https://cmcre.com/archives/117936/
〇Creation of magnetic materials that exceed human empirical rules through calculation x information x experimentation
~ Assisting in the discovery of unexplored substances ~
Date and time: January 16, 2024 (Tuesday) 13:30-16:30
https://cmcre.com/archives/113128/
〇Trends in new display materials and technologies for IT/vehicles, AR/VR/MR, etc.
Date and time: January 18, 2024 (Thursday) 13:30-16:30
https://cmcre.com/archives/117983/
〇Introduction to data analysis for material development
~ Materials informatics, chemoinformatics,
Process informatics ~
Date and time: January 19, 2024 (Friday) 10:00-17:00
https://cmcre.com/archives/118078/
〇Basics of microwave heating ~ From microwave ovens to
high-temperature heating furnaces ~
Date and time: January 23, 2024 (Tuesday) 10:30-16:30
https://cmcre.com/archives/117955/
〇 Fundamentals of food sensory evaluation and key points of procedures and methods
Date and time: January 24, 2024 (Wednesday) 10:30-16:30
https://cmcre.com/archives/118247/
〇Trends in ion exchange resins: Improvement in deterioration behavior and chemical stability
Date and time: January 25, 2024 (Thursday) 13:30-15:00
https://cmcre.com/archives/118206/
〇Basics, technology trends, and prospects of optical wireless power transfer technology
Date and time: January 25, 2024 (Thursday) 10:30-16:30
https://cmcre.com/archives/118423/
☆Click here for a list of upcoming webinars! ↓
https://cmcre.com/archives/category/cmc_all/
7) Information on related books
(1) Global charging infrastructure latest industry report
– Power supply while stopped/running, electrified roads, battery replacement – https://cmcre.com/archives/112806/
■ Published: May 19, 2023
■ List price: Base price 180,000 yen (198,000 yen including tax) Main unit CD set 240,000 yen (264,000 yen including tax)
★ E-mail newsletter members: 10% off the list price!
■ Format: A4 size, paperback, 224 pages
■ Edited and published by: CMC Research Co., Ltd.
ISBN 978-4-910581-39-2
↓Click here for details and purchase
https://cmcre.com/archives/112806/
☆Click here for the list of published books↓
https://cmcre.com/archives/category/cmc_all/