Electronic Engineering

Electronic Engineering MEng

Expand your expertise with the technical depth and project work experience you need to progress further in an electronic engineering career on our MEng degree programme. The extra year’s study leads to a deeper understanding of the subject and its real-world application. You’ll get the chance to work on a wider range of projects, including group work that could involve our professional partners and collaborators - BAE Systems, NASA, the NHS and the Northwest Aerospace Alliance, among others. And just as importantly, you’ll develop a range of transferable skills, like teamwork, decision-making, delegation, identifying and solving problems, and communication - all skills employers prize. 

Key Information

  • Duration:

    Full-time: four years, five years sandwich; Part-time: Depends on level of entry and number of modules studied per year

  • Level:


  • Delivery:

    Campus, Full-time and Part-time

  • Award Type:


  • Institution Code:

    CLANC C30

  • UCAS Code:


  • Campus:

    Preston (Campus code: U)

  • Start Date:


  • You can tailor your study to include various specialist topics according to your interests and ambitions.
  • Access cutting-edge resources through our Advanced Digital Manufacturing Technology (ADMT) facility, and experience state-of-the-art manufacturing hardware and software, including CISCO industrial networks, manufacturing execution systems and industrial robots.
  • Benefit from significant investment in the latest high quality equipment and facilities available through our new £35 million Engineering Innovation Centre.

Course Overview

Year 1 and 2

Compulsory modules

  • Engineering Analysis
  • Engineering Applications
  • Electronics and Electronic Practice
  • Digital Electronics and Programmable Systems  

Compulsory modules

  • Signals and Systems
  • Electronic Systems Applications
  • Electronic Systems
  • Digital Systems
  • Software Development 2

Optional Modules

  • Robotic Systems
  • Data Communications

Year 3 and 4

Compulsory Modules

  • Digital System and Image Processing
  • Microcontroller Systems
  • System on Programmable Chip
  • Project
  • Engineering Professionalism

Optional Modules

  • Machine Intelligence
  • Computer Vision
  • Embedded Real time Systems
  • Computer Aided Instrumentation

Compulsory Modules

  • Power Electronics and Machine Control
  • The Engineer and Society
  • Individual Project
  • Group Project

Optional Modules

  • Digital Signal and Image Processing B
  • Internet of Things
  • Big Data Analytics and Visualisation

More information about programme specifications and module information is available in the course handbook.

Find out more about our virtual open days Find out more about our virtual open days

Fees 2020/21

Full-time: £9,250* per year (UK/EU). Sandwich year out £1,000 (UK/EU)
Part-time: £1,540* per 20 credits studied (UK/EU)

Sandwich year out fees: £1,000

Fees for international students

Entry Requirements

Our typical offer is 112 UCAS Points including Maths and Physics at B or STEM at B.  We operate a flexible admissions policy and treat everyone as an individual. This means that we will take into consideration your educational achievements and predicted grades (where applicable) together with your application as a whole, including work experience and personal statement. General Studies accepted

BTEC Extended Diploma: Distinction, Merit, Merit including Maths and Physics units.
Pass Access Course: 112 UCAS Points  
International Baccalaureate:Pass Diploma with 112 UCAS points from Higher Level Subjects including HL Maths 6 and HL Physics 6.
IELTS: 6.0 with no score lower than 5.5
GCSE: 5 at grade C/4 including Maths & English or equivalent 

International Students

View our entry requirements for your country

Scholarships and Bursaries

The University offers a range of scholarships and bursaries to support you through your studies.

Discover More

Not got the grades?

If you do not meet the formal entry requirements specified, Foundation Entry offers an alternative route to study for this degree

Foundation Entry Route

Check your points

Not sure how many points you have? Use our handy calculator and find out.

Points calculator

Further Information

During your studies at the UCLan Preston campus you’ll benefit from our new £35 million Engineering Innovation Centre (EIC).

Located within one of the most intense engineering and manufacturing areas in the UK, the EIC provides an integrated space for teaching and research with direct links to industry enabling you to work on live, real-world projects with commercial partners in state-of-the-art facilities.

Find out more

dotted line

The MEng (Hons) Electronic Engineering course aim is to develop graduates with a broad understanding of current technology and practice in electronic engineering, covering the relevant aspects of analogue and digital electronic systems and additional specialist areas according to the option modules studied.

The discipline of electronic engineering encompasses a wide skills base and the emphasis of this course is placed on electronic system design rather than that of individual component devices. By concentrating on the principles fundamental to system level design, the course equips graduates with the knowledge, skills and confidence to thrive in the rapidly evolving field of electronic engineering and the transferrable skills to find employment in a diverse set of industrial and commercial sectors.

On the MEng(Hons) Electronic Engineering course, you will study various aspects of the subject, including analogue and digital electronic systems, microprocessor-based and microcontroller-based systems, signal processing, and software development. The course includes option modules enabling you to select specialist topics according to your interests and aspirations, tailoring your programme of study to your own requirements. Each student undertakes two individual projects and a final-year group project.

Course content is informed by our links with the Applied Digital Signal & Image Processing (ADSIP) Research Centre, research-active in areas including non-destructive evaluation, medical data analysis and computer vision.

dotted line

Sandwich Placement Year

This course offers an optional 48-week sandwich placement in industry – this comes between the second and third years. You are responsible for finding your own placement. We will support you in preparation for this with the Faculty Placement Team and UCLan Careers, who can help you plan and develop your CV and applications, and have practice interviews.

Placements are an invaluable opportunity to help consolidate your first two years learning, gain experience, and radically enhance your employability. The benefit of the experience gained during a placement is often evident in improved performance in the final year of the course, and when competing for graduate jobs.

There are opportunities for paid, real-world industrial experience working on ERDF funded commercial projects connected to local industry in the North West, and Summer Undergraduate Internships, working on actual research projects - we recently placed a student with NASA.

Successful completion of the industrial placement module is recognised by the endorsement “with industrial placement” in the award title.

UCLan has links with worldwide organisations, and can therefore arrange for work experience in the UK or abroad. Recent overseas placements include a 10 week NASA research experience for undergraduates programme. This is where a student from UCLan is paired with mentor at the University of Alabama specialising in theory, modelling, computer simulations, data analysis or instrument design to work on a summer research project in the US.

Engineering graduates are in greater demand than ever, which means the career options for you are varied. You could find yourself working in high value manufacturing - perhaps aerospace or the automotive industry - or in the Ministry of Defence, or in research and development. Careers in digital communications, consumer electronics, security and surveillance, as well as banking and commerce, are also open to graduates.

The majority of graduates embark on careers in high value manufacturing. A course module that will help you plan your career as an engineering professional is part of your degree programme. Opportunities for further study include a taught postgraduate MSc course in Renewable Energy Engineering. The School has significant research activity in this area and graduates can opt for an MSc, MPhil or PhD with the Applied Digital Signal and Image Processing (ADSIP) Research Centre, Advanced Digital Manufacturing Technology (ADMT) Research Centre or Centre for Power and Energy Management.

If you’re in any doubt about placements, do it! It gives you an idea of being in the industry you have chosen to be a part of. You can make sure it is right for you and gives you an idea of what area within that industry you enjoy, what you don’t like and where the most money is made. That way you can focus your time learning and honing the skills required for that chosen area while the facilities are still available while you are a student.


dotted line

"The part-time course was great, I came into Preston one day a week which made it easier for me and my industrial colleagues switch from work to study mode. The modules in software development and embedded real time systems were useful in my full-time avionic systems engineering role. Since graduating with a first class degree, I have moved into a new field using my transferrable skills in safety critical systems design, software development, automation and control. The culture in UCLan was very supportive with the academic staff willing to help over and above what is required to cover the course content and provide engineering career and professional registration guidance."

Ben Crook

dotted line

Benefits of an MEng (Hons)

  • An MEng (Hons) degree is at Masters Level

  • You will have the opportunity to work on a greater range of projects, including group work which could include involvement with our partners and industrial collaborators such as BAE Systems, CISCO, NASA, NHS, and the Northwest Aerospace Alliance

  • The MEng (Hons) provides a greater depth of study and development of transferable skills such as teamwork, decision making, delegation, identifying and solving problems, and communication
  • MEng (Hons) graduates are able to command higher starting salaries Course delivery allows for you to specialise in your chosen area depending on module choices, including digital design, signal processing, real-time systems, neural networks and communications. This ensures your studies are shaped to suit your career aspirations.

Senior academic staff are Fellows of the Higher Education Academy (HEA) and Chartered Engineers (CEng) with real-world industrial experience. UCLan practices research informed teaching, and the course team includes reviewers and editors with IEEE, Elsevier, Springer, Taylor & Francis and other publishers. They contribute to industrial and professional advisory panels and help write international engineering standards. Subject matter expertise includes the following general domains: Advanced Manufacturing; Circuit Design; Data Communications; Embedded Real-time Systems; Intelligent Systems; Signal Processing; Measurement and Control; and Robotics.

dotted line

"Getting the opportunity to get involved with things outside of the classroom is the best thing about being a student in UCLan. I have been an ambassador for engineering going into schools to promote engineering, was an exhibitor at the Lancashire Science Festival, and had real engineering project experience working on new and exciting technology for a local entrepreneur. Also, I have been sponsored by UCLan to travel on an all-expenses-paid internship to the United States of America and contribute to space research with NASA. Apart from the excellent laboratory and testing environment, learning programming and software development, the analogue electronics module and engineering practice modules, were the most useful to me on my project in the US. The internship involved building and testing low frequency radio receivers with staged amplifier circuits. The international experience was good fun and has really broadened my horizons."

Robert McLaughlin

dotted line

Learning Environment and Assessment

A 3 year degree qualification typically comprises 360 credits and each 20 credit (a standard module) equates to 200 hours of study, which comprises of a mixture of lectures, seminars, tutorials, practical sessions and independent study. Independent study is an important aspect of your degree course. The exact combination of study time will be detailed within your module descriptors, and will depend on your option choices.

A variety of teaching and learning methods  used, including traditional lectures, laboratory-based sessions using specialist facilities, computer sessions and simulations, tutorials, design exercises and directed study. The practical facilities are located in a purpose-built building with impressive computer facilities and dedicated laboratories.

Assessment uses formal examinations and coursework. The balance of assessment varies from module to module; a typical breakdown over the full course is in the range 60%-70% examination, 30%-40% coursework, exclusive of major individual project work.

Industry Links

Our partners and industrial collaborators include: BAE Systems, CISCO, NASA, NHS, and the Northwest Aerospace Alliance.

You can benefit from industrial sponsorship. You would typically work full time in a junior engineering position at a local company while studying part time.

Professional Accreditation

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

IET logo

dotted line


You’ll enjoy access to world-class resources through the Advanced Digital Manufacturing Technology (ADMT) facility. An opportunity to experience state-of-the-art manufacturing hardware and software, including CISCO industrial networks, manufacturing execution systems and industrial robots.

Electronic & Control System Laboratory

Open Access Study Area

Course Enquiries

Telephone us: +44(0)1772 892400
Email us or Book a visit

Important Information

This course is based in the School of Engineering

Course Handbook

For detailed information about studying this course at UCLan, please see the course handbook for your year of entry: 2019 Entry | 2020 Entry
For information on possible changes to course information, see our Essential and Important Course Information.

Tuition Fees & Finance

*Tuition Fees are per year unless otherwise stated.
For 2019/20 fees please refer to our fees page.

Further Information for students

You can find regulations and policies relating to student life at The University of Central Lancashire on our Student Contract page.

Entry Requirements

For changes to 2017 UCAS tariff entry requirements please see our Essential and Important Course Information. UCLan requires all undergraduate applicants to have a minimum attainment of five GCSEs at grade C and above, or equivalent, (including Maths and English). In 2017 and beyond we will view the new Grade 4 as being equivalent to a C grade and will therefore require students to achieve GCSE Grade 4 or above. However, if the subject is relevant to our degree programme and requires a higher GCSE grade (e.g. GCSE B grade), and/or includes a Professional body that governs the entry requirements, Grade 5 or above may be required.