MEng Electronic Engineering
|Typical offer||AAA-ABB; IB: 36-32|
Electronic Engineering has advanced the convenience and sensory experience of our lives; providing services and entertainment at our fingertips wherever we go. Progress insists products must become thinner, lighter and faster with sharper images, better sound quality and more memory which is why electronic engineers are researching and developing new machines to replace the ones we now fill our homes and pockets with.
These engineers are also helping us to live longer, safer lives with exciting progress in medical equipment and gadgets that sense invisible dangers like carbon monoxide.
Career choices for electronic engineers are plentiful and varied. Opportunities exist in a wide-range of industries, such as telecommunications, bioengineering, manufacturing, military services, aerospace and service industries.
Exeter's Electronics programme kick-starts your engineering journey by immersing you in all the disciplines as well as giving you strong foundations in electronics and transferable skills. Engineers rarely work alone in their chosen field so we believe multi-disciplinary experience and teamwork equips you better for the interaction necessary to succeed in the workplace.
A career in electronics opens many doors, demands varied knowledge and requires excellent communication skills. Here at Exeter we aim to provide you with all these aspects; moulding you into an innovative and adaptable engineer.
Why choose Electronic Engineering at Exeter?
- This degree is professionally accredited under licence from the Engineering Council. Visit the Careers tab for further information.
- Our multidisciplinary first year encourages you to explore other engineering disciplines, such as civil and mechanical engineering; broadening your skill-base.
- You will gain hands-on practical experience in designing and constructing electronic systems using computer simulation and practical laboratory work.
- Our staff capitalise on their strong links with industry to help you gain paid work placements that credit your degree and to involve companies directly with your projects.
- This cutting-edge programme is constantly adapting to encompass new electronics technology, such as phase change materials and electronic paper.
- Our academic staff are conducting world-leading research in memory technology and biomedical electronics, so you will keep your finger on the pulse of the latest advances.
The modules we outline here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand.
By the end of this year's course you will have experienced your first encounter with "Solidworks" as well as gained more experience with AutoCAD, have been introduced to every phase involved in engineering a new artefact and will be more confident in writing and presenting your findings. Speakers from engineering institutions also visit to offer an introduction to the benefits of joining their professional bodies.
From the second year onwards the core and optional modules start to take a more specialised pathway with a focus on your chosen degree
By year three, you will have narrowed down your specialisms to two of the following areas: communications engineering, electromagnetics, CAD, and consumer electronics engineering. You will carry out an individual project under the supervision of a member of academic staff with expertise in your chosen area.
The final year of study for MEng students offers a wide range of advanced specialist modules such as those offering advanced practical project work this year and courses such as Industrial Case Studies which gives you the opportunity to visit companies, learning hands-on skills from top-class manufacturing experts.
Entry requirements 2017
AAA-ABB; IB: 36-32
GCE AL Maths grade B and another science subject at grade B; IB Maths HL5 and another science subject HL5
Candidates may offer GCE AL Maths, Pure Maths or Further Maths.
Applicants achieving IB Maths SL7 plus IB HL5 in Physics will also be considered.
GCE AL/AS science includes: Biology/Human Biology*; Chemistry; Computing; Design and Technology; Economics; Electronics; Environmental Studies; Geography; Geology; Maths/Pure Maths/Further Maths*; Physical Education; Physics; Science (applied); Statistics.
*If more than one of these is taken they would only count as one 'science' but could count as two A levels towards our general requirements.
Applicants studying one of the following BTEC Extended Diplomas will be considered without GCE AL requirement(s): Applied Science, Building Services Engineering, Construction and the Built Environment, Electrical/Electronic Engineering, Engineering, Manufacturing Engineering, Operations and Maintenance Engineering, Mechanical Engineering, Environmental Sustainability. In place of science requirement only, A level Maths still required.
Please read the important information about our Typical offer.
For full and up-to-date information on applying to Exeter and entry requirements, including requirements for other types of qualification, please see the Applying section.
Learning and teaching
Engineering at Exeter combines a breadth of academic expertise with a caring and supportive learning environment. Our student-centred approach to teaching is validated by our excellent results in the National Student Survey.
Our programmes make use of a variety of teaching styles with contact hours ranging from 25-32 hours each week depending on the year of study. These include:
- Lectures for the presentation of new topics and class exercises;
- Workshops where you have hands-on use of equipment, discussion and solution of sample problems, with experts available to answer questions and provide support;
- Tutorials involving small group work on problems relating to topics covered in lectures;
- Projects of longer term practical work undertaken either individually or in teams, with sessions for consultation with staff;
- Engineering Design Activities which provide direct experience of putting engineering design into practice while learning the underpinning principles and mathematical skills in other modules.
There are plenty of opportunities to discuss material in more detail with members of staff. Our academics are happy to meet with students individually during their advertised office hours or receive questions by email.
A research and practice led culture
We believe every student benefits from being taught by experts active in research and practice. You will discuss the very latest ideas, research discoveries and new technologies in seminars and in the field and you will become actively involved in a research project yourself. All our academic staff are active in internationally-recognised scientific research across a wide range of topics. You will also be taught by leading industry practitioners.
There are always numerous engineering research projects in progress, funded by industry, charities, government departments and research councils. Our undergraduate students benefit through access to up-to-date equipment, industrially linked projects and staff expertise.
Student projects are often linked to our research activities and may involve working with industrial partners. Recent projects have involved the design and construction of an autonomous hovering platform, modelling of airflow around a car and 3D CAD representation of the Met Office headquarters in Exeter, which has close research links with the College.
Modules are assessed by a combination of continuous assessment through small practical exercises, project work, essay writing, presentations and examination.
All of our programmes are assessed in a similar way. During the first two years you will have an even mix of examinations and coursework, each accounting for about 50%. In the third year 25% of the year is taken up by the individual project and for those going on to the fourth year the group project takes up 50% of the year.
You must pass your first year assessment in order to progress to the second year, but the results do not count towards your degree classification. Written examinations are held in January and June of the first and second years and in the third term of the third and fourth years. For most modules, coursework also contributes to the assessment of the module.
We strongly encourage our Engineering undergraduates to consider a period of studying abroad as part of their degree. This is most commonly realised under the Erasmus programme and is available to all students taking the MEng Engineering Engineering with International Study.
It is possible to transfer on to the 'with International Study' variant during the first two years of your degree and all students are invited to explanatory presentations during their second year to encourage them to take-up this exciting option in the third year.
The benefits of taking part in the Erasmus programme include:
- The opportunity to work on interesting and challenging projects, often with an industrial component involving world-class companies such as Daimler-Chrysler and Ferrari
- The chance to spend four months in some of the most attractive places in Europe, learning the language and immersing yourself in the culture
- An enhanced CV
More information on Erasmus funding can be found on the Erasmus website.
Study abroad modules
The MEng Electronic Engineering with International Study is specifically structured to retain full professional accreditation. This is achieved by studying two modules whilst abroad during the second and third terms of the third year and by taking a credit-rated language module appropriate to your chosen study destination in the first term preceding this.
Individual Project Abroad
The purpose of this module is to apply the knowledge and skills obtained from taught modules to a real engineering situation at a professional level. It encourages the use of initiative, imagination and creativity and allows study in a greater depth than is appropriate in a taught module.
Engineering in an International Society B
In this module you will study at a university in a European, American or Southern Hemisphere country with the goal of understanding the challenges involved in working in a foreign culture. You will observe the transnational issues facing engineers in all countries. This experience will help you gain the confidence to function in a professional manner wherever you choose to work, even when you are faced with conflicting and diverse sources of information.
Career opportunities for engineers are almost limitless, as engineers can be found working in the public sector, in health, communications, education, construction, defence, finance and manufacturing. Engineers have a reputation as being articulate, numerate, problem solvers, who typically claim great job satisfaction, a good salary and a huge range of career possibilities. Typically, salaries are significantly higher for engineering graduates than the average for all other graduates.
Exeter has an excellent reputation with graduate recruiters and a strong employment record. Our graduates excel in specialist engineering fields and across a broad range of other sectors, as shown on our Graduate destinations web page.
We offer a very wide range of opportunities for you to develop the skills employers are looking for, including industrial placements and study abroad. Visit our Employability web page to find out more.
Our undergraduate engineering programmes are enriched by a network of industry links which have been established through collaborative research and consultation. Project work is a core element of each programme, providing invaluable experience of problem-solving, engineering design and working in multidisciplinary teams. Projects are typically industrially driven, are commercially relevant and often directly involve a company.
Recently an Electronic Engineering student undertook a project to design and build a low budget magnetometer in conjunction with Brixham Heritage Museum Archaeology Unit. The magnetometer used a novel design of magneto-resistive ferrite cores to improve the focus of the magnetic fields and the disturbances in those caused by buried objects such as ditches, kilns and pottery. The magnetometer was very cheap to make and as good as or better than commercial instruments.
Throughout your degree you will have the opportunity to meet with graduate employers. Professional engineers visit the College to hold mock interviews and to discuss your career opportunities at an early enough stage to inform your choice of modules and placement decisions.
Find out more about the industrial experience opportunities available to our engineering undergraduates.
This degree has been accredited by the Institution of Engineering and Technology (IET) under licence from the UK regulator, the Engineering Council.
An accredited MEng degree fully satisfies the educational base for a Chartered Engineer (CEng).
An accredited BEng (Hons) degree 1. fully satisfies the educational base for an Incorporated Engineer (IEng) and 2. partially satisfies the educational base for a Chartered Engineer (CEng). A programme of accredited further learning will be required to complete the educational base for CEng.
An MEng Electronic Engineering with Industrial Experience programme is also available. On this programme you will undertake an industrial placement in the vacation prior to the start of your third year (6 - 10 weeks, subject to suitable arrangements). This is then followed by an extended individual project during your third year, specifically designed around your industrial placement. The combined placement and project allows you to undertake paid vacation work while gaining highly relevant industrial experience. We have excellent links with employers and can provide assistance in finding suitable employment.
All our undergraduate students can choose to take an optional Commercial and Industrial Experience module during the vacation before the third year. This opportunity allows you to gain paid work experience in a commercial setting while earning credits towards your degree programme. Industrial experience not only develops your CV but helps you to determine your career aspirations.
Students can also request permission to temporarily interrupt their studies and spend a year working in industry, as long as they work in a suitably demanding Engineering role.