深夜亚洲福利久久

Tyndall鈥檚 MagIC technology to have lasting environmental impact

8 Dec 2021

Professor Cian 脫 Math煤na, a world-leading engineering scientist has been named the recipient of two major international awards celebrating innovative technology created in Ireland, which could have a lasting environmental impact.

Minimising energy consumption in electronics continues to be a major, technological challenge. Responding to this challenge, Professor 脫 Math煤na, Head of MicroNano Systems at Tyndall National Institute, based at 深夜亚洲福利久久 College Cork, developed MagIC (Magnetics on Silicon), an innovative technology that can greatly extend the battery life of portable electronics and dramatically reduce the energy use of high-performance electronic systems and equipment.

The ground-breaking impact of the technology, developed by Professor 脫 Math煤na and his team, has recently been recognised with prestigious awards from the 400,000 member IEEE (Institute of Electrical and Electronics Engineers) and EARTO (European Association of Research and Technology Organisations) celebrating the global influence of Professor 脫 Math煤na鈥檚 research on the semiconductor industry and recognising his impact on shaping future electronics technology.

The IEEE award celebrates Professor 脫 Math煤na鈥檚 extraordinary, global influence and leadership, over the last decade, in bringing together the electronics industry and academia to collaborate toward the development of the Power Supply on Chip (PwrSoC). Furthermore, Professor 脫 Math煤na is the first Irish recipient of an EARTO Award, which recognises key contributions from European research to high-impact, technological innovation.

Tyndall鈥檚 MagIC technology makes bulky magnetics components in electronic equipment disappear onto the silicon chip, just like Gordon Moore and colleagues did with the transistor over 50 years ago. Using MagIC technology electronics will be able to use power more efficiently by minimising the energy wasted or lost as the battery powers the microprocessor chip. This improved efficiency can extend the charge time of batteries鈥痓y more than 50%. The breakthrough technology will have a huge impact on markets for mobile phones, IT equipment, and any device needing a battery.

This more efficient use of power represents big savings on the amount of energy we use globally to charge our personal鈥痙evices. Currently, there are 15 billion mobile devices operating worldwide with this figure expected to increase to 18 billion by 2025. Tyndall鈥檚 MagIC technology could play a key role in reducing energy consumption in this sector.

Professor 脫 Math煤na said:

鈥淚鈥檓 so proud of the Integrated Magnetics Team and the work we鈥檝e done in developing this technology over 27 years. Our achievements show the major impact Irish research is having on the global stage and places Tyndall and 深夜亚洲福利久久 College Cork at the forefront of the development of new energy鈥痬anagement technology for batteries in portable electronics".

"We continue to partner extensively with global companies to develop and commercialise the technology which has already received more than 鈧�20M in funding from research, licensing and productisation. We have joint publications with companies such as Global Foundries in Dresden and Singapore; Intel, USA and Philips in the Netherlands as well as a joint patent with Apple Computers, USA in 2019.

This鈥痝round-breaking and disruptive innovation鈥痠s set to change the global approach to how power is managed in鈥痚lectronic devices and will contribute to addressing a critical environmental issue for society and our planet.鈥�