![]() ![]() He now manages the day-to-day running of the Newcastle research office while being involved in leading the various research projects. This Multiphysics expertise has translated well to Dyson motor design where motors may be smaller, but have the same challenges due to their extreme speeds and high power density. Dr Daniel Smithĭr Daniel Smith completed his Engineering Doctorate at Newcastle examining High Speed and High Power (HSHP) motors in the MW range for aerospace and offshore oil and gas applications, after completing a MEng in Engineering, Economics and Management from Oxford University.Īs a Principal Motor Drives Engineer his experience lies in managing the coupled mechanical stress, electromagnetic loss and thermal effects in high speed, power dense machines. He oversees a team of 60 engineers delivering all aspects of power system design for battery and mains connected products. ![]() He has since progressed through running the first iteration of the Newcastle research office to become Director of Electronic System Research at Dyson’s headquarters in Malmesbury. Dr Chris BatemanĪ graduate of Newcastle University, Chris completed an Engineering Doctorate sponsored by Dyson, at Newcastle in 2010. Dr Tuncay CelikĪs Director of Dyson’s Motors and Power Systems Research, Tuncay Celik leads a multi-disciplinary team focusing on novel high-performance, high-speed brushless motors and their control algorithms as well as the design and integration of power systems into complex products.Ī graduate of Istanbul Technical University and Newcastle University, he is the named inventor of more than 20 innovations, successfully delivering two generations of high-speed Dyson digital motors. Andy is a strong advocate of leading multidisciplinary teams to create true system designs with high levels of integration (not just bolting blocks together), simulation lead design techniques, and development of new manufacturing techniques. Successive new generations and expansion into new product areas has meant that Dyson motors have ultimately played a significant part in the 10x increase in Dyson revenue and profits. Having broadened his industrial experience working for International Rectifier customising power electronic modules, he moved to Dyson in 1999 to work on the first Dyson-designed high speed (100,000rpm) compressor motor. He is also a chartered member of the IET. We’re the lead partner in Driving the Electric Revolution Industrialisation Centres (DER-IC), a £28.5m government investment into developing the UK's clean and resilient supply chains in power electronics, machines and drives (PEMD).Īs a leading member of the Future Electrical Machines Manufacturing Hub’s (FEMM) group of universities researching future materials and manufacturing methods for electrical machines, the Electrical Power Research Group is well placed to complement Dyson’s aims in this field.Īndy Clothier is Dyson’s Senior Director of Technical Research and has been at the heart of the development of Dyson’s products.Īndy completed his degree in Electrical and Electronic Engineering at Newcastle University in 1992 and a PhD in novel electrical machines, power converter topologies, motor control and simulation techniques. This has contributed to strong recruitment links between the partners – with over 20 engineers of Dysons motors Research Design and Development (RDD) team having studied at Newcastle, including 3 directors.Ī founding member of the Faraday Institution, the UK’s flagship battery research programme, we also spearhead the Advanced Propulsion Centre’s (APC) network spoke for Electric Machines. ![]() Newcastle’s world-class teaching and course content linked to real-world applications also align with Dyson’s research needs and practices. Its expertise in power system design and control for high power density electric drives with high efficiencies and low cost, complements our partnership with Dyson. Our Electrical Power Research Group is world-leading and the largest academic research group of its kind in the UK. ![]() We are one of the UK’s leading research universities in the field of electrical power conversion. Why does Dyson have a lab at Newcastle University? ![]()
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