Part time Master's Degree in Electrical Engineering in England in United Kingdom

Compare Part time Masters Programs in Electrical Engineering in England United Kingdom 2018

Electrical Engineering

Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject. Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.

A Master in Electrical Engineering is a degree with the purpose of providing students a thorough education in mathematics, physics and engineering techniques. Graduates will be able to provide solutions to current real-world problems that are related to 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)

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Master In Smart Grid Technologies

Carlos III University of Madrid
Campus Part time 1 year October 2018 United Kingdom London

The Master in Technology Smart Grid is an official Master program with academic and professional guidance offered by the Carlos III University of Madrid. The Master has a duration of one academic year and consists of 60 credits distributed among 10 subjects and work to master. [+]

Master in Smart Grid Technologies (Bilingual)

The Master in Technology Smart Grid is an official Master program with academic and professional guidance offered by the Carlos III University of Madrid. The Master has a duration of one academic year and consists of 60 credits distributed among 10 subjects and work to master. The program provides a strong technical background on issues related to smart grids commonly known in professional circles as Smart Grids. To do the advanced technologies in the field of Telecommunications and Electricity responsible for technological change will suffer the electricity networks in the coming years are presented.

The curriculum of 60 credits has been divided into various compulsory and optional subjects in the field of electrical networks and telematic networks and applications. Subjects related to the Electrical Network consists of 21 credits and cover the main aspects related to electrical distribution networks, with particular emphasis on aspects related to electricity smart grids: distributed energy resources management, and operation of microgrids central virtual power, energy optimization and network management and intelligent buildings and technical maintenance and supervision of assets in smart grids.... [-]


Master in Telecommunications Engineering

Carlos III University of Madrid
Campus Part time 18 months September 2018 United Kingdom London

The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February. [+]

Master in Telecommunications Engineering (Bilingual)

The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February.

The Spanish Association of Engineers requires professionals from companies in the telecommunications field (major manufacturers of telecommunications equipment or telecom operators) and from other types of companies, institutions or organizations that need qualified personnel to design and maintain their own telecommunications systems.

The overall aim of the Master in Telecommunications Engineering is to train professionals who are competent to practice as Telecommunications Engineers. This Master's Degree is geared towards advanced training and enhancing employability. Students who complete the Master in Telecommunications Engineering should be able to address any technological issue in the telecommunications field scrupulously, making use of all the necessary knowledge, skills and perspectives from this academic field. At the same time, they should respect the environment and fundamental rights, and show an awareness that putting their knowledge into practice may have consequences for society (ethical scope)... [-]


MEng (Hons) in Telecommunications Engineering

London South Bank University
Campus Part time 4 - 6 years September 2018 United Kingdom London

An MEng is the most direct route to CEng status. Study full-time or part-time with the option for a year in industry. [+]

MEng (Hons) Telecommunication Engineering offers an integrated route that combines undergraduate and postgraduate levels of study over four years. It teaches the theory of telecommunications coupled with the required software tools.

5 reasons to study here Industry relevant: An established academic team that maintains a strong research output and extensive research links with industry through consultancy works and Knowledge Transfer Partnerships (KTPs). Growth area: Opens a range of career opportunities in an expanding field including work within an equipment manufacturer, network infrastructure provider or service provider, research work or undertaking design and development projects. Career progression: Extends studies to Masters level and provides greater breadth and depth of study, which is the quickest and easiest way to become a Chartered Engineer (CEng). Laboratory access: Significant laboratory-based practical teaching to support lecture material. Work experience: Complete your third year in a paid professional work placement. This degree course covers ... [-]

MRes in Electrical and Electronic Engineering

London South Bank University
Campus Part time 1 - 2 years September 2018 United Kingdom London

A research-orientated masters qualification in electrical and electronic engineering. 80% research project and 20% taught modules. Funded by the European Union, Research Councils, Royal Society, Knowledge Transfer Programmes, and industrial companies [+]

This course builds on our world-class research work in electrical and electronic engineering, materials and devices, robotics, mechatronics, computer networks and telecommunications, big data, and informatics. It is funded by the European Union, Research Councils, Royal Society, Knowledge Transfer Programmes, and industrial companies.

The course provides knowledge, experience, and skills that are essential for research and development work. It is research-oriented, with 80% of the time spent on a research project and the other 20% on taught modules. It is designed to develop key research skills, build up in-depth technical knowledge and understanding as well as project management skills, communications skills, and presentation skills.... [-]


MEng (Hons) in Electrical Engineering and Power Electronics

London South Bank University
Campus Part time 4 - 6 years September 2018 United Kingdom London

This integrated MEng degree offers the most direct route to chartered engineer status. Study full-time, part-time or take a sandwich year in industry. [+]

MEng (Hons) Electrical Engineering and Power Electronics encourages you to acquire a deeper understanding of the essential facts, concepts, theories and principles of electrical engineering and its underpinning science and mathematics.

6 reasons to study here No. 1: London modern uni overall for Electrical and Electronic Engineering, Guardian League Table 2018. Professional accreditation: Accredited by the Institution of Engineering and Technology (formerly the IEE) under license from the Engineering Council, and offer fast track progression to Chartered Engineer status. Career progression: Extends studies to Masters level and provides greater breadth and depth of study which is the quickest and easiest way to become a Chartered Engineer (CEng). Dedicated facilities: We have an electronic projects room and specialist labs. European study: You can choose to spend your third year studying with our partner institution, Hochschule Bremen, in Germany. Work experience: Option to complete your third year in a paid professional work placement. This degree course covers: You'll explore the design, development, and maintenance of electrical systems in buildings, transport, and energy supply. The course also develops your understanding of compliance with standard regulations. This course covers: mathematics design digital electronics circuits and signals electrical services for buildings energy converters and drives lighting You can apply for undergraduate student funding for this course, so you can gain a postgraduate level qualification without the financial pressures normally associated with the further study. This course is subject to validation and content may change. Key course information - ordered by mode Mode Duration Start... [-]

MEng (Hons) in Electrical and Electronic Engineering

London South Bank University
Campus Part time 48 - 66 months September 2018 United Kingdom London

This integrated MEng Electrical and Electronic Engineering degree offers the most direct route to chartered engineer status. [+]

Electrical and Electronics Engineering is all about designing, developing and maintaining electrical control systems. This MEng Electrical and Electronics Engineering offers an integrated route that combines undergraduate and postgraduate levels of study over 4 years.

7 reasons to study here No. 1: London modern uni overall for Electrical and Electronic Engineering, Guardian League Table 2018. Professional accreditation: Accredited by the Institution of Engineering and Technology (formerly the IEE) under license from the Engineering Council, and offer fast track progression to Chartered Engineer status. Industry relevant: We have a panel of advisers from the industry, to help ensure our course coverage is up-to-date and relevant to employment needs. Career progression: Extends studies to Masters level and provides greater breadth and depth of study which is the quickest and easiest way to become a Chartered Engineer (CEng). Wide-reaching: Many career options, few parts of our life that don't owe at least something to the work of electrical and electronics engineers. European study: You can choose to spend your third year studying with one of our partner institutions. Work experience: Option to complete your third year in a paid professional work placement. This degree course covers: We encourage you to acquire a deeper understanding of the essential facts, concepts, theories, and principles of electrical engineering and its underpinning science and mathematics. This course covers: electrical systems microcontrollers control systems telecommunications analysis software engineering science You can apply for undergraduate student funding for this course, so you can gain a postgraduate level qualification... [-]

MEng Electronic Engineering

The University of Warwick, School of Engineering
Campus 4 - 5 years October 2018 United Kingdom Coventry

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 [+]

What will I learn?

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.... [-]


MRes Electrical and Electronic Engineering

The University of Nottingham - Faculty of Engineering
Campus 1 year September 2018 United Kingdom Nottingham

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

Facilities

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.... [-]