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Imperial College London Wins 氮化镓系统 (GaN Systems) Geoff Haynes Future Power Challenge

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氮化镓系统 (GaN Systems) teams with the UK EPSRC Power Electronics Centre to accelerate the use of high speed GaN transistors in future power conversion or control applications
Nottingham, England – At a ceremony held at the EPSRC Centre for Power Electronics Annual Conference 2016 in Nottingham, England, a post-graduate team from Imperial College London received the £2,000 prize for winning the first, annual 氮化镓系统 (GaN Systems) Geoff Haynes Future Power Challenge. Sponsored by 氮化镓系统 (GaN Systems), the competition was open to all UK power electronics postgraduate students who submitted research papers or posters that contributed to accelerating the use of GaN transistors in future power conversion or control applications. Prof. Mark Johnson of The University of Nottingham and Prof. Barrie Mecrow of Newcastle University judged the competition at the annual summer school event organized by the PhD students of the 10 Universities that form the EPSRC power electronics center. The summer school is a student led event intended to increase communication and co-operation between the student research teams and to provide an opportunity for the students to meet with prospective employers and research partners. Entries covered subjects as diverse as the design of a novel compact motor with embedded filter windings, through a reliability study and optimized p.w.m. control strategy for an A-NPC converter.

Ph.D. students George Kkelis and Juan Arteaga, and research assistants Sam Aldhaher and David Yates from Imperial College London’s Department of Electrical and Electronic Engineering, supervised by Dr. Paul Mitcheson, first presented their work at the IEEE Wireless Power Transfer Conference in May this year. The team developed two inverter prototypes, each based on a Class EF topology using 氮化镓系统 (GaN Systems)’ GS66504B switches. Their new design maintains zero-voltage switching and delivers a constant output AC current regardless of the load resistance value. The design allows a Class E or Class EF inverter to operate efficiently for any load. This was shown to significantly relax the requirement for accurate alignment of transmit and receive coils in a wireless power application.

The annual 氮化镓系统 (GaN Systems) Geoff Haynes Future Power Challenge was established in recognition of Mr. Haynes’s critical role in establishing 氮化镓系统 (GaN Systems), and championing the use of gallium nitride for power applications. Geoff Haynes retired last year as vice president of 氮化镓系统 (GaN Systems) but continues to drive the application of the technology by engaging enthusiastically with the research activities of the engineers of the future. Presenting the award, 氮化镓系统 (GaN Systems)’ president and co-founder, Girvan Patterson, underlined the importance of supporting the research initiatives between industry and academia to accelerate the adoption of disruptive technologies and inspire a new generation of engineers.