The deployment of power electronic converters and electrical machines continues to grow at a rapid rate in sectors such as hybrid and all-electric vehicles, aerospace, renewables and advanced industrial automation. In many of these applications, high performance components are combined into sophisticated motion control and energy management systems. This course will give you a rigorous and in-depth knowledge of the key component technologies and their integration into advanced systems.
Our graduates are in demand
Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.
This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.
We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.
How we teach
You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.
All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.
Semiconductor Materials and Devices
LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.
Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.
Our investment in semiconductor research equipment in the last 12 months totals £6million.
Electrical Machines and Drives
Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.
Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.
Power Electronic Converters; AC Machines; Permanent Magnet Machines and Actuators; Motion Control and Servo Drives; Advanced Control of Electric Drives; Energy Storage and Management; MSc Individual Project; Major Research Project.
Examples of optional modules
Power Semiconductor Devices; Advanced Signal Processing; Packaging and Reliability of Microsystems; Electronic Communication Technologies; Systems Design.
Teaching and assessment
You’ll learn through research-led teaching, lectures, laboratories, seminars, tutorials and coursework exercises. Assessment is by examinations, coursework and a project dissertation with poster presentation.
A 2:1 honours degree in Electrical Engineering, Electronic Engineering, Computer Science or similar field from a good UK university or equivalent international degree qualification. English language requirements: overall IELTS grade of 6.5 with a minimum of 6.0 in each component, or equivalent.
Recipient: University of Sheffield
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