Undergraduate study - 2025 entry
Edinburgh: Extraordinary futures await.

MEng Electronics and Electrical Engineering

UCAS code: H601

Duration: 5 years

Delivery: Full-time

School: Engineering

College: Science and Engineering

Accreditation
Study abroad
Placements

Introducing MEng Electronics and Electrical Engineering

From the tiny processors in smartphones to the heavy-duty power electronics in wind turbines, electronic and electrical systems underpin many modern technologies.

Electronics is the study of circuits and devices that carry relatively small currents and voltages. It concerns the sensing, transduction and processing of data signals, in either digital or analogue forms.

Electrical engineering concerns much larger currents and voltages - usually for the purpose of generating and transmitting electrical power.

In an Electronics and Electrical Engineering (EEE) degree, you will study both areas with the opportunity to specialise in later years.

We deliver this content across several themes:

  • electrical power
  • digital electronics
  • analogue electronics
  • microelectronics
  • electromagnetics and photonics
  • bioelectronics
  • sensor networks and data analysis

Programme aims

Studying this field requires a clear understanding of physics and the broader system it operates in.

This programme balances practical experimentation with theoretical:

  • studies
  • computation
  • simulation

You will learn to work independently and collaboratively to find ingenious solutions to modern engineering problems.

The MEng Electronics and Electrical Engineering degree is relevant to those wishing to pursue a career as a professional engineer in industry.

It combines more advanced study than our BEng degree, with a greater emphasis on industrial skills.

You will also get the opportunity to work in an industrial company while you carry out your MEng project in Years 4 and 5.

Ties to industry

Our Industrial Liaison Board includes senior representatives from important electronics and electrical engineering companies.

This has influenced our curriculum and programme development.

In your final year, you will have the opportunity to undertake a six-month placement in industry or at an overseas research institution, university or company.

Why Edinburgh?

You’ll benefit from research-led teaching by internationally leading academics​.

We have strong links to industry (particularly in microelectronics) with excellent career prospects, industry relevant curriculum, internships and the opportunity of a project placement​.

You’ll benefit from a balanced curriculum covering theoretical and practical skills and individual and group work​.

You will have access to state of the art laboratory facilities including:​

  • industry standard software and hardware​
  • in-person and remote labs​

All our degree programmes are accredited by the Institution of Engineering and Technology.

Our community

We are proud of the supportive community that our students and academics create.

For example, the electronics and electrical engineering discipline supports an 'Electronics After Hours Club'. This allows you to develop your own extra-curricular projects in a supportive environment.

(Revised 9 May 2024 to reflect curriculum renewal changes)

Accreditation

Accredited by the Institution of Engineering Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.

Some employers recruit preferentially from accredited degrees.

An accredited degree is also likely to be recognised by other countries that are signatories to international accords.

Curriculum renewal

We are undertaking an ongoing curriculum renewal, which may result in changes to this degree programme.

The renewal is being carried out with:

  • our industrial partners
  • accreditation bodies
  • students

This renewal makes sure we equip you for an exciting career in the ever-changing world of engineering.

In the first years of the degree, we teach a solid foundation of electronics and electrical engineering. Our courses are designed to improve your team-working and problem-solving skills.

In later years, our degree gives you the flexibility to study specialist courses in areas you are most interested in.

Year 1

Engineers are creative problem-solvers. They are skilled at working in interdisciplinary teams to deal with society's ever more complex challenges.

Introductory courses

In Year 1, you will take introductory courses and develop skills that you will later rely on as a professional engineer, including:

  • confidence
  • advanced thinking
  • teamwork
  • problem-solving skills

Additional courses

You will also study mathematical topics that have particular relevance to engineers.

You will choose courses from across the University to complement your engineering studies, with options available in the sciences, arts and humanities.

Year 2

In Year 2, you will specialise in core electronics and electrical engineering topics, which usually include:

  • analogue circuits
  • digital system design
  • microelectronics
  • power engineering
  • signal processing
  • communications

You will also usually study essentials in the engineer’s toolkit to develop your skills in:

  • programming
  • engineering mathematics
  • professional skills for engineers

These courses prepare you for further specialisation at honours level.

They cover technical concepts and, where possible, give you the opportunity to apply these in a practical situation.

You can also broaden your knowledge and skills by taking courses in other engineering disciplines, or in any subject you wish.

Second year entry

Our course structure is designed in such a way that we permit Year 2 direct entry for students. Direct entry students perform just as well as those progressing from Year 1.

The entry requirements for Year 2 entry are higher to ensure that students have the necessary knowledge to start at this level.

Year 3

The thematic areas developed in Year 2 continue into Year 3.

You will also be introduced to the new themes of:

  • electromagnetics and photonics
  • control and instrumentation engineering

You will complete practical or computing exercises in:

  • microelectronics and digital systems design
  • analogue mixed-signal labs
  • embedded software
  • electrical machines
  • control and instrumentation engineering

You will also complete a power system design group project. In this project, you will learn about the economic and technical aspects of power supply systems.

Progression routes

At the end of Year 3, you will have the option to complete one more year for a BEng degree, or a further two years for an MEng degree.

The latter is subject to you achieving an average of 55% or higher in Year 3.

Year 4

Year 4 allows you to specialise in your chosen thematic areas, including:

  • Analogue electronics
  • Bioelectronics
  • Digital electronics
  • Power engineering
  • RF engineering

You will participate in an interdisciplinary group design project. This allows you to deal with real-world problems within a multidisciplinary team.

You will also learn about the economic, social and environmental context of engineering.

Year 5

Your final year will involve practical and project work.

Semester 1

Project work

If you undertake an industry-sponsored project on placement, you will normally conduct this on company premises.

If you undertake an internal project, you will work within the University. Your project can be linked to the research activity of your supervisor. This will expose you to, and allow you to contribute to, the research output of the school.

This phase of the project represents half of your year’s work, meaning Year 5 involves the application of learned knowledge to practical situations.

Semester 2

You will select the topics you are interested in from a wide range of advanced courses. This allows you to specialise further or broaden your skills.

Many of these courses usually address industrial demand, equipping you with the latest hardware and software skills, such as:

  • advanced coding techniques
  • practical skills
  • modelling and simulation skills

(Revised 9 May 2024 to reflect curriculum renewal changes)

Programme structure

Find out more about the compulsory and optional courses in this degree programme.

To give you an idea of what you will study on this programme, we publish the latest available information. However, please note this may not be for your year of entry, but for a different academic year.

Programme structure (2024/25)

Our facilities

The majority of your learning will take place at the King’s Buildings campus, depending on the courses selected.

Here you will have access to a wide range of practical facilities including:

  • electronics teaching labs (Kivlin Suite)
  • power teaching lab

You may also study at various University campus locations in the vibrant city of Edinburgh, depending on the option courses selected. The King’s Buildings campus is around 15 minutes from central Edinburgh by bus or bike.

Access to facilities

You can access the University's:

  • libraries
  • study spaces (some study spaces are open 24 hours)
  • IT facilities
  • social spaces
  • leisure facilities
  • the brand-new shared learning, teaching and social hub, the Nucleus

Take a virtual tour of our school

You can take a closer look at the School of Engineering and explore our facilities and campus on the University's Virtual Visit site.

Virtual visit – School of Engineering

Placements

In your final year, you will have the opportunity to undertake a six-month placement in industry or at an overseas research institution or university.

During this placement, you will complete a major individual project.

Finding a placement

Many students find placements through:

  • our network of local industry partners
  • through a UK Electronics Skills Foundation (UKESF) scholarship

UK Electronics Skills Foundation (UKESF) scholarship

These opportunities are competitive; you will need to interview for a place.

All placements advertised by our school will be paid opportunities.

You also have the option to source your own placement in a relevant company. We will support you in securing a placement.

Study abroad

In Year 3, you will have opportunities to study abroad.

The University has a variety of agreements with international institutions that allow you to study there in Year 3.

Common destinations include:

  • USA (University of California, Caltech, Chicago, Pennsylvania, and others)
  • Canada
  • Australia
  • Europe
  • Asia

Subject specific agreements

This is enhanced by subject specific agreements arranged by the School of Engineering.

These subject specific agreements provide additional destinations in countries such as:

  • USA (for example, Texas at Austin)
  • France
  • Germany
  • Switzerland

MEng projects occasionally also take place overseas.

What are my choices for going abroad?

How will I learn?

The exciting nature of engineering means you will have a diverse learning experience throughout your degree.

Teaching can be through a mixture of:

  • lectures
  • tutorials
  • laboratory sessions
  • projects
  • group work

In your final years, you will dedicate more time to private study. So you will need to be well-motivated and organised.

You will also receive individual supervision with projects.

How will I be assessed?

You will be assessed through coursework and examinations.

For detailed information you should review the Programme Structure - Degree Programme Table to see compulsory and option courses. You can find this information under 'What you will study'.

Refer to individual course details to see the types of assessment included.

Electronics and electrical engineering are vibrant parts of the UK economy, where demand for graduates is high.

Graduates from the MEng degree have progressed into employment and postgraduate study.

Where do our graduates find employment?

Employment tends to be in engineering or sometimes in IT or financial services roles.

Typical roles in engineering include:

  • Analogue Design Engineer
  • Electronics Engineer
  • Energy/Business Consultant
  • Hardware Engineer
  • Project Officer
  • Research and Development Engineer
  • Systems Engineer

Recent graduates in other fields took roles such as an Engineer and a Technology Analyst.

Our graduates have entered challenging and rewarding careers with a wide range of companies.

(Revised 9 May 2024 to update employment opportunities)

Postgraduate study

Graduates who progress to postgraduate study may complete a taught master's degree or research degree, including a PhD, in subjects such as:

  • Bioengineering
  • Electronics
  • Engineering Management
  • Graphene Technology
  • Computer Science
  • Finance
  • Neuroinformatics

Further study destinations include UK universities (for example, Cambridge and Edinburgh) and universities in Europe.

Careers Service

We support you to recognise the wealth of possibilities ahead, during your time at the University and after graduation.

Our award-winning Careers Service plays an essential part in your wider student experience and provides:

  • tailored advice
  • individual guidance and personal assistance
  • internships and networking opportunities (with employers from local organisations to top multinationals)
  • access to the experience of our worldwide alumni network

We invest in your future beyond the end of your degree and studying at the University of Edinburgh will lay the foundations for your future success.

Careers Service

Internships

We encourage you to undertake relevant work experience during your degree.

We advertise internship opportunities and arrange company presentations with the Careers Service. These experiences can feature on your transcript after completing an Edinburgh Award.

Edinburgh Award

(Revised 9 May 2024 to update internships section)

Standard entry requirement

The standard entry requirement is:

  • SQA Highers: AAAA (achievement by end of S5 preferred). BBB must be achieved in one year of S4-S6.
  • A Levels: AAA - ABB in one set of exams.
  • IB: 37 points with 666 at HL - 32 points with 655 at HL.

Minimum entry requirement

The minimum entry requirement for widening access applicants is:

  • SQA Highers: AABB by end of S6. BBB must be achieved in one year of S4-S6.
  • A Levels: ABB.
  • IB: 32 points with 655 at HL.

More information for widening access applicants

Required subjects

The grades used to meet our entry requirements must include:

  • SQA: Highers: Mathematics at A and one of Physics (preferred), Biology, Chemistry, Computing Science or Engineering Science at B. Higher Applications of Mathematics is not accepted in place of Higher Mathematics. National 5s: Physics or Engineering Science at B and English at C.
  • A Levels: Mathematics and one of Physics (preferred), Biology, Chemistry, Computing Science/Computing, Design & Technology (excluding Food Technology) or Engineering at B. GCSEs: Physics or Science at B or 6 and English at C or 4.
  • IB: HL: Mathematics (Analysis and approaches only) and one of Physics (preferred), Biology, Chemistry, Computing Science or Design Technology at 5. SL: Physics at 5 (if not at HL) and English at 5.

Find out more about entry requirements

International applicants

We welcome applications from students studying a wide range of international qualifications.

Entry requirements by country

Mature applicants

We welcome applications from mature students and accept a range of qualifications.

Mature applicant qualifications

For direct entry to second year the standard requirements must be exceeded, including the following:

  • SQA Advanced Highers: AA to include Mathematics and one other subject, plus Highers at AB in two further subjects including Physics, Engineering Science, or Technological Studies.
  • A Levels: A*AA in one set of exams to include Mathematics and either Physics, Engineering, or Design & Technology (excluding Food Technology), or AAA in one set of exams to include Mathematics, Further Mathematics and either Physics, Engineering, or Design & Technology (excluding Food Technology).
  • IB: 38 points with 766 at HL to include Mathematics (Analysis and approaches only) and Physics or Design Technology at 6.
Other entry pathways

Entry to many degrees in Science & Engineering is possible via other qualifications (eg HNC/D, Access, SWAP).

Regardless of your nationality or country of residence, you must demonstrate a level of English language competency at a level that will enable you to succeed in your studies.

SQA, GCSE and IB

For SQA, GCSE and IB students, unless a higher level is specified in the stated entry requirements, a pass is required in English at the following grades or higher:

  • SQA National 5 at C
  • GCSE at C or 4
  • Level 2 Certificate at C
  • IB Standard Level at 5 (English ab initio is not accepted for entry)

English language tests

We accept the following English language qualifications at the grades specified:

  • IELTS Academic: total 6.5 with at least 5.5 in each component. We do not accept IELTS One Skill Retake to meet our English language requirements.
  • TOEFL-iBT (including Home Edition): total 92 with at least 20 in each component. We do not accept TOEFL MyBest Score to meet our English language requirements.
  • C1 Advanced (CAE) / C2 Proficiency (CPE): total 176 with at least 162 in each component.
  • Trinity ISE: ISE II with distinctions in all four components.
  • PTE Academic: total 65 with at least 54 in each component. We do not accept PTE Academic Online.*

We also accept a wider range of international qualifications and tests.

Unless you are a national of a majority English speaking country, your English language qualification must be no more than three and a half years old from the start of the month in which the degree you are applying to study begins. If you are using an IELTS, PTE Academic, TOEFL or Trinity ISE test, it must be no more than two years old on the first of the month in which the degree begins, regardless of your nationality.

English language requirements

(*Revised 24 May 2024 to change PTE Academic requirement from total 62 with at least 54 in each component, and to clarify that we do not accept PTE Academic online.)

Selection

We normally make offers to the highest qualified applicants. If competition for places is high this may mean that offers will only be made to applicants who are predicted, or who have achieved, above the single set of grades or the upper grade level in a range. Any conditional offer made may require you to achieve grades above the upper grade level. Therefore, achieving the top of our standard entry requirements does not guarantee a place on the relevant degree.

This information is part of a government initiative to enhance the material that higher education institutions provide about their degree programmes.

It is one of many sources of information which will enable you to make an informed decision on what and where to study.

Please note that some programmes do not have Discover Uni data available.

Tuition Fees

Tuition fees for MEng Electronics and Electrical Engineering

Additional costs

Laptop

Many students do bring their own laptop or computer to access online materials, but there are University computing facilities and laptop loan schemes available if students do not have one of their own.

Textbooks

Some key academic textbooks are purchased by students, but all essential reading materials will be freely available through the University Library.

Funding

For more information on how much it will cost to study with us and the financial support available see our fees and funding information.

Fees and funding

More information

How to apply

School: Engineering

College: Science and Engineering