A Masters degree is an academic degree awarded to individuals who successfully denote a higher level of expertise. There are two main types of Masters - taught and research.
The field of electronics deals with circuits and their electrical components. Circuit design may be a main focus and areas might be specialized in such as telecommunication, network management, network engineering and microelectronic engineering.
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom and Britain, is a sovereign state located off the north-western coast of continental Europe.The two most famous (and oldest) universities are Oxford and Cambridge (often referred to as Oxbridge by many Britons) England also has several other world-class institutions, including several in London (notably Imperial College, the London School of Economics, University College London and King's College London, all are part of London University)
England is the largest of the four "home nations" that make up the United Kingdom. It is also the most populous of the four with almost 52 million inhabitants (roughly 84% of the total population of the UK).
Request Information Master's Degrees in Electronics in England in United Kingdom 2018
The Electrical and Electronic MRes is project-based, studied over one academic year. A project worth between 130-160 credits is undertaken throughout a full academic year. In addition, students gain essential knowledge and skills to their projects by studying relevant taught modules. [+]
You will be taught using the latest advances in teaching methods and electronic resources, as well as small-group and individual tuition.
Applicants require a 2.1 or international equivalent and/or a masters at merit level or above in a relevant subject, as well as an IELTS level 6.0 (5.5 in each element). Particular features of the programme include:one-to-one tuition with expert members of staff teaching informed by active leading-edge researchers in the field innovative and engaging teaching modules access to many online resources flexibility in course content
Our facilities are outstanding and include a Gigahertz transverse electromagnetic cell, an RF anechoic chamber, an optical materials evaluation system lab, an RF lab, a photoluminescence lab, optics and ultrasonic labs comprising multiple optical benches, semiconductor clean rooms, power electronic module packaging facility, 270 kVA variable frequency ac supply, dynamometer testing to 800 kW and 120,000 rpm, and environmental testing including temperature, altitude, humidity and vibration.... [-]
Electronic systems play a vital role in almost all aspects of our everyday life and are the power of the 'information revolution' that is increasingly impacting on all our lives [+]
This course is for you if you are looking for an accredited Electronic Engineering degree that develops your specialist knowledge in the field while working in multidisciplinary teams. Our joined-up, research-oriented approach to learning supports personal development and provides key skills that are aligned with best commercial practices – and much sought after by leading employers. This enables our graduates to contribute within a variety of sectors, such as microelectronics, design and production, energy, transport, the built environment, information and communications.
You’ll learn through lectures, tutorials, example classes, face-to-face contact with academics for resolving module queries, laboratories, coursework assignments and projects. Practical work in electronics starts from the first year with the third-year individual project and fourth-year multidisciplinary group project forming major parts of your degree. State-of-the-art laboratories are equipped with software and instruments to support the varied teaching activities in electronic engineering. The course significantly benefits from our close links with industry.... [-]
Electronic systems and their associated components are found in virtually all electronic products, from computers and mobile phones to cars and buildings. The intelligence that microelectronic, nanoelectronic and photonic systems provide forms with a large part of the global economy and its role will increase as future products and services become more digital and more connected. Power electronics endow these systems with competitive advantages by increasing their autonomy, reducing the final load and improving energy efficiency. [+]
Master in Electronic Systems Engineering (Bilingual)
Electronic systems and their associated components are found in virtually all electronic products, from computers and mobile phones to cars and buildings. The intelligence that microelectronic, nanoelectronic and photonic systems provide forms with a large part of the global economy and its role will increase as future products and services become more digital and more connected. Power electronics endow these systems with competitive advantages by increasing their autonomy, reducing the final load and improving energy efficiency.
The overall objective of the Master in Electronic Systems Engineering is that students acquire advanced scientific and technological knowledge on electronics and related technologies. To achieve this, they will be taught a set of theoretical principles, formal methods, and technological tools that will enable them to develop electronic systems in a professional environment and to embark on research and innovation in this area.... [-]