Study information

Programme Specification for the 2025/6 academic year

BEng (Hons) Electrical and Electronic Engineering

1. Programme Details

Programme nameBEng (Hons) Electrical and Electronic Engineering Programme codeUFN3ENSENS01
Study mode(s) Academic year2025/6
Campus(es)Streatham (Exeter)
 NQF Level of the Final Award6 (Honours)

2. Description of the Programme

The Electrical and Electronic Engineering programmes at Exeter are part of a wider family of Engineering programmes that have been developed around a number of core principles that distinguish them as innovative, forward looking and student centred. Exeter’s approach to engineering education emphasis collaborative project based learning (PBL), contextualised teaching and an emphasis on skills development and practical application of knowledge. Starting with a core first year and building on commonalities with other engineering disciplines we deliver a unique teaching style based on the pillars of analysis, design and sustainability. Our engineering programmes also equip students with an awareness of entrepreneurship and the skills and confidence to apply their engineering knowledge in entrepreneurial endeavours. In a fast-changing world we introduce advanced methodologies in analogue and digital electronics, digital signal processing, electric machines, telecommunication systems, electrical and power systems, and microprocessor and microcontroller technologies. Professional practice–led and project- based learning, delivered through industry-focused modules and individual and team projects, spans the entire programme and ensures that our graduates are industry–ready with awareness of engineering ethics in their development as professional engineers.

3. Educational Aims of the Programme

The BEng degree programme is designed to deliver all of the required learning outcomes as set out in UK-SPEC for a bachelors degree. Higher level modules (including projects) are based on research-led teaching methods building upon the expertise of the electronic engineering academic staff.

The programme aims to enable you to become:

(a) flexible engineering graduates equipped to work effectively within engineering design and practice and contributing specialist skills , demonstrating an awareness of the context within which you work, and taking responsibility for your own personal and professional development;

(b) graduates who need only to complete an appropriate period of further study or matching section to be educationally qualified to become chartered engineers within the appropriate sector of industry;

(c) aware of the environmental, economic, social and sustainability issues that are an integral part of the professional engineer's role in society;

(d) able to work well in multi-disciplinary groups with experience of communication, organization, planning and logistics.

Through this programme, the Department will provide students with: learning opportunities to match their abilities and aspirations, personal academic and pastoral support throughout their university career, appropriate methods of teaching and assessment and a programme of study that they find demanding, interesting and intellectually stimulating, while allowing them to enjoy other aspects of university life. The Department will also seek to promote the role of industry and engineering institutions and the benefits that they can provide to undergraduates e.g. through links with the industrial club and student membership of the engineering institutions.

4. Programme Structure

5. Programme Modules

The following tables describe the programme and constituent modules. Constituent modules may be updated, deleted or replaced as a consequence of the annual programme review of this programme.

The BEng Electrical and Electronic Engineering programme is a (3) year programme of study at National Qualification Framework (NQF) level (6) (as confirmed against the FHEQ). 

Stage 1

120 credits of compulsory modules.

The first year of the Electrical and Electronic Engineering programme is shared with all engineering disciplines and strikes a balance between providing core engineering and mathematical knowledge and making the learning experience engaging and exciting. A year-long multi-disciplinary group project provides an over-arching vehicle for PBL and a means of putting core knowledge into practice in a collaborative group setting. Project briefs are developed in response to the core module content. To support the students’ project work they undertake workshops in sketching, report / technical writing and study / research skills. Students develop essential knowledge in Engineering Mathematics and Scientific Computing through a year-long module. By combining Mathematics and Programming, students develop both the mathematical knowledge that underpins engineering science and also the skills to put this knowledge to use by harnessing the power of programming. The first year also includes three 15-credit modules, Fundamentals of Mechanics, Fundamentals of Materials, and Fundamentals of Electronic E. All modules are delivered using a PBL framework that encourages students to become independent learners.

Compulsory Modules

CodeModule Credits Non-condonable?
ENG1002 Engineering Mathematics and Scientific Computing 30Yes
ENG1005 Multi-Disciplinary Group Challenge Project 30Yes
ENS1000 Fundamentals of Engineering 15No
ENG1007 Fundamentals of Mechanics 15Yes
ENG1008 Fundamentals of Materials 15Yes
ENG1009 Fundamentals of Electronics 15Yes

Stage 2

120 credits of compulsory modules.

The second year continues in the same vein as the first with a combination of project work and core modules. A group project again provides context and motivation for the theory taught in the second year. This design and build project is electrical and electronic engineering specific with project briefs that allow students to experience the engineering design process and develop solutions drawing on the skills and knowledge gained in their first two years and adopting a heuristic approach to problem solving. The practice of developing mathematical knowledge and programming skill in tandem continues in the second year with two modules; Modelling of Engineering Systems in term 1 and Industry 4.0 in term 2. These modules not only develop traditional core mathematical knowledge but also introduce students to exciting and topical areas of engineering mathematics such as Data Science and Artificial Intelligence. Core electrical and electronic engineering modules in Communication and Networking Technologies, Analogue and Digital Electronics Design, Control Engineering and Microcontroller Engineering introduce fundamental electronic engineering concepts with emphasis on developing hands-on practical skills and experience through prototyping and design laboratories. 

Compulsory Modules

CodeModule Credits Non-condonable?
ENG2003 Electronic Engineering Challenge Project 30Yes
ENG2006 Industry 4.0 15No
ENG2008 Microcontroller Engineering 15Yes
ENG2009 Modelling of Engineering Systems 15Yes
ENG2017 Communication and Networking Technologies 15Yes
ENG2118 Analogue and Digital Electronics Design 15Yes
ENS2005 Control Engineering 15Yes

Stage 3

90 credits of compulsory modules, 30 credits of optional modules.

Select 15 credits of options from List A.

b Select 15 credits of options from List B.

The focus in year 3 is on acquiring further core Electrical and Electronic engineering knowledge. Students will take modules in Mechatronics, Communications Engineering, Electric Machines and Power Electronics, and Engineering Electromagnetics. All students select two of a number of optional modules; Digital Signal Processing, Power Systems Analysis, Energy, Materials and Sustainability, Industrial Awareness and Problem Solving, Quality Control & Improvement  or Zero Emission Vehicles. Graduating BEng Students complete a 30 credit Individual Project guided by a specialist academic supervisor. This project emphasises the development and application of advanced engineering knowledge and commercial awareness    

Compulsory Modules

CodeModule Credits Non-condonable?
ECM3166 Communications Engineering 15Yes
ECM3175 Individual Project 30Yes
ENG3004 Engineering Electromagnetics 15Yes
ENG3012 Mechatronics 15Yes
ENS3013 Electric Machines and Power Electronics 15Yes

Optional Modules

ENG3018 Control Engineering is compulsory for any students who did not take ENS2005 during stage 2 and those students should take this module rather than an option in group B.

CodeModule Credits Non-condonable?
ECM3165 Digital Signal Processing [See note a above]15No
ENS3014 Power Systems Analysis [See note a above]15No
ENG3010 Industrial Awareness and Problem Solving [See note b above]15No
ENG3011 Management and Leadership [See note b above]15No
ENG3017 Quality Control and Improvement [See note b above]15No
ENG3023 Zero Emission Vehicles [See note b above]15No
PHY3222 Energy, Materials and Sustainability [See note b above]15No

6. Programme Outcomes Linked to Teaching, Learning and Assessment Methods

Intended Learning Outcomes
A: Specialised Subject Skills and Knowledge

Intended Learning Outcomes (ILOs)
On successfully completing this programme you will be able to:		Intended Learning Outcomes (ILOs) will be...
...accommodated and facilitated by the following learning and teaching activities (in/out of class):...and evidenced by the following assessment methods:

1. demonstrate understanding of mathematical methods and their use, together with computational methods, for modelling, analysis, design and communication in engineering
2. demonstrate understanding of a broad base of scientific principles underpinning electrical and electronic, material, mechanical and civil engineering
3. demonstrate understanding of the characteristics and uses of engineering materials and components
4. demonstrate understanding of a range of principles and design methods relating to the chosen engineering discipline in general, with in-depth knowledge and understanding in some specialist areas
5. demonstrate understanding of management and business practices, including finance, law, marketing, personnel and quality
6. demonstrate understanding of ethical and social issues related to engineering and professional responsibilities

Intended Learning Outcomes
B: Academic Discipline Core Skills and Knowledge

Intended Learning Outcomes (ILOs)
On successfully completing this programme you will be able to:		Intended Learning Outcomes (ILOs) will be...
...accommodated and facilitated by the following learning and teaching activities (in/out of class):...and evidenced by the following assessment methods:

7. demonstrate a systematic and creative approach to problem solving
8. apply appropriate mathematical methods, scientific principles and computer based methods to the modelling, analysis and solution of practical engineering problems
9. create a complete design, product or service to meet a customer need, starting from negotiation of specifications, showing creativity and justifying all decisions
10. take a holistic approach to design and problem solving
11. assess and manage risks (e.g.: commercial, safety, environmental etc.)
12. take personal responsibility for acting in a professional and ethical manner
13. select and use appropriate ICT based tools for analysis, design and communication of designs
14. select and use laboratory instrumentation appropriately and correctly
15. construct prototype products, systems, experimental apparatus etc.
16. work safely in laboratory, workshop environments etc., and promote safe practice

Intended Learning Outcomes
C: Personal/Transferable/Employment Skills and Knowledge

Intended Learning Outcomes (ILOs)
On successfully completing this programme you will be able to:		Intended Learning Outcomes (ILOs) will be...
...accommodated and facilitated by the following learning and teaching activities (in/out of class):...and evidenced by the following assessment methods:

17. communicate effectively and persuasively using the full range of currently available methods
18. manage resources and time
19. work in a team, which may be multi-disciplinary
20. learn independently, identifying own personal development needs and goals, reflecting on own performance and managing own personal development
21. obtain and process information from a wide range of sources, which may be conflicting, analyse it critically and apply this information in engineering applications
22. sort, manipulate and present data in a way that facilitates effective analysis and decision making

7. Programme Regulations

Progression from 2nd to 3rd year

Students who gain an average of 60% or more in the first 2 years will be eligible to progress to Stage 3 of the BEng Electrical and Electronic Engineering programme (weighting is 40% 1st year, 60% 2nd year).

Condonement

This programme is accredited by a PSRB under license from the Engineering Council. Therefore, the latest Engineering Council regulations on condonement apply to this. Please find further details in te TQA Manual here:  https://www.exeter.ac.uk/about/governance/tqa/spec/

Classification

Full details of assessment regulations for all taught programmes can be found in the TQA Manual, specifically in the Credit and Qualifications Framework, and the Assessment, Progression and Awarding: Taught Programmes Handbook. Additional information, including Generic Marking Criteria, can be found in the Learning and Teaching Support Handbook.

8. College Support for Students and Students' Learning

In accordance with University policy a system of personal tutors is in place for all students on this programme. A University-wide statement on such provision is included in the University’s TQA Manual. As a student enrolled on this programme you will receive the personal and academic support of the Programme Coordinator and will have regular scheduled meetings with your Personal Tutor; you may request additional meetings as and when required. The role of personal tutors is to provide you with advice and support for the duration of the programme and extends to providing you with details of how to obtain support and guidance on personal difficulties such as accommodation, financial difficulties and sickness. You can also make an appointment to see individual teaching staff.

Information Technology (IT) Services provide a wide range of services throughout the Exeter campuses including open access computer rooms, some of which are available 24 hours, 7 days a week. Help may be obtained through the Helpdesk, and most study bedrooms in halls and flats are linked to the University’s campus network.

Additionally, the College has its own dedicated IT support staff, helpdesk and computer facilities which are linked to the wider network, but which also provide access to some specialised software packages. Email is an important channel of communication between staff and students in the College and an extensive range of web-based information (see https://intranet.exeter.ac.uk/emps/) is maintained for the use of students, including a comprehensive and annually revised student handbook.

The Harrison Learning Resource Centre is generally open during building open hours. The Centre is available for quiet study, with four separate rooms that can be booked for meetings and group work. Amongst its facilities, the Learning Resource Centre has a number of desks, four meeting rooms with large LCD screens, and free use of a photocopier. Also available are core set texts from your module reading lists, and undergraduate and MSc projects from the past two years.

Online Module study resources provide materials for modules that you are registered for, in addition to some useful subject and IT resources. Generic study support resources, library and research skills, past exam papers, and the"Academic Honesty and Plagiarism” module are also available through the student portal (http://ele.exeter.ac.uk)

Student/Staff Liaison Committee enables students & staff to jointly participate in the management and review of the teaching and learning provision.

9. University Support for Students and Students' Learning

Please refer to the University Academic Policy and Standards guidelines regarding support for students and students' learning.

10. Admissions Criteria

Undergraduate applicants must satisfy the Undergraduate Admissions Policy of the University of Exeter.

Postgraduate applicants must satisfy the Postgraduate Admissions Policy of the University of Exeter.

Specific requirements required to enrol on this programme are available at the respective Undergraduate or Postgraduate Study Site webpages.

11. Regulation of Assessment and Academic Standards

Each academic programme in the University is subject to an agreed College assessment and marking strategy, underpinned by institution-wide assessment procedures.

The security of assessment and academic standards is further supported through the appointment of External Examiners for each programme. External Examiners have access to draft papers, course work and examination scripts. They are required to attend the Board of Examiners and to provide an annual report. Annual External Examiner reports are monitored at both College and University level. Their responsibilities are described in the University's code of practice. See the University's TQA Manual for details.

(Quality Review Framework.

14. Awarding Institution

University of Exeter

15. Lead College / Teaching Institution

Faculty of Environment, Science and Economy (ESE)

16. Partner College / Institution

Partner College(s)

Not applicable to this programme

Partner Institution

Not applicable to this programme.

17. Programme Accredited / Validated by

Not applicable to this programme.

18. Final Award

BEng (Hons) Electrical and Electronic Engineering

19. UCAS Code

H128

20. NQF Level of Final Award

6 (Honours)

21. Credit

CATS credits

360

 ECTS credits

180

22. QAA Subject Benchmarking Group

Level 1

23. Dates

Origin Date

03/10/2024

 Date of last revision

03/10/2024