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Faculty of Science and Engineering

Electronic Engineering


Year of entry:
UCAS code: H610

What you'll study

Our staff use a variety of teaching methods, with practical sessions in newly refurbished teaching laboratories alongside learning in lectures, tutorials and seminars. We use a variety of methods to assess your progress, including exams, assessed essays, laboratory reports, projects and extended research.

Students have the flexibility to change pathways after the second year of study and switch to any of our Electronic Engineering courses.

All BEng and MEng Electrical and Electronic Engineering programmes are accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council. BEng programmes fully meet the academic requirements for registration as an Incorporated Engineer and partly meet the academic requirements for registration as a Chartered Engineer. MEng programmes fully meet the academic requirements for registration for registration as a Chartered Engineer.

First year

* Modules are subject to availability

Core modules

  • Mathematical Tools and Concepts

    This module delivers essential core mathematics: polynomial functions, trigonometric functions, series, vectors, matrices and complex numbers. You'll be introduced to Mathworks' Matlab to solve mathematically described engineering problems as well as to present and process results from experiments and simulations.

  • Fundamentals of Electrical and Electronic Engineering

  • Practical Skills for Electrical and Electronic Engineers

  • Mathematics, Programming and Digital Logic Design

    This module delivers essential core mathematics: differentiation, integration, differential equations.You'll be introduced to techniques and tools for the design and simulation of sequential logic circuits together with programming in C, both of which are needed to develop embedded computer system applications.

  • Electrical and Electronic Circuits and Devices

    Learn about the basic concepts of electronic and electrical circuit analysis techniques and apply these to a range of electronic devices and circuit configurations. You'll look at DC and AC circuits composed of passive and active components, culminating in the design, build and evaluation of a two transistor amplifier circuit.

  • Engineering Global Challenge 1

Second year

* Modules are subject to availability

Core modules

  • Mathematics and Control for Engineers

    Develop more advanced mathematical techniques needed to solve a range of engineering problems. You'll focus on mathematical techniques used to model and control dynamical systems. You'll also be introduced to Laplace and Fourier transform techniques and how they may be applied to linear control systems.

  • Electrical and Electronic Systems 1

    This module covers a number of key area in electrical and electronic engineering through lectures and laboratories. Topics include analogue circuit design, digital circuit and system design using a hardware description language (HDL) and electrical power networks and machines.

  • Devices, Optoelectronics and Analogue Communications

  • Vector Mathematics and Digital Communications

    Develop core skills in engineering mathematics, with a particular emphasis on vector mathematics and its application to engineering problems. Digital communications systems will be explored with an emphasis on digital modulation and spectrum usage and information theory will be introduced.

  • Electrical and Electronic Systems 2

    Develop your knowledge of key concepts in circuit theory, circuit simulation and analogue circuit design.You'll gain key skills in design, construction and simulation of analogue and digital circuits will be practised through a selection of laboratory exercises and a digital circuit design project.

  • Engineering Global Challenge 2

    Develop and enhance a range of professional skills as a basis for professional registration as an Incorporated or Chartered Engineer. You'll focus on areas such as team working, leadership, project planning, data collection, measurement, business skills, and self-reflection.

Final year

* Modules are subject to availability

Core modules

  • Individual Project (Electrical and Electronic Engineering)

    Apply and extend engineering knowledge and professional skills by working on a substantial individual project throughout the academic year, supported by an academic project supervisor. Activities include project management, research, engineering design and development, and reporting and presentation.

  • Embedded Systems

    Extend your understanding of the practical engineering issues raised by the design and programming of real-time, reactive, embedded and networked systems. You'll experience the challenge of designing, building and programming a large scale embedded system within a group-based laboratory exercise.

  • Control System Analysis and Advanced Electromagnetics

  • Digital Signal Processing and Transmission

    Extend and develop an appreciation of the underlying concepts and theories of radio signal transmission and propagation and computer based signal processing and control. You'll learn through laboratory experiments to enable aspects of signal transmission and propagation and computer based signal processing to be experienced and measured.

Optional modules

  • Advanced Electronic and Optoelectronics

  • Control Systems and Instrumentation

    Develop an understanding of control, instrumentation and power electronic systems used in a range of industries. Learn about the techniques to select, design and evaluate systems for particular engineering applications.

"I came to an open day at the university of Hull and the atmosphere was so friendly in the department I was able to talk to the head of school and talk to other students, see the final year projects and it was just so enlightened and just so enthusiast as an environment."

Natasha Pitts

More about this course

There are a number of course options available for studying Electronic Engineering at Hull. You can choose to study for either a BEng or MEng degree; both offer the chance to study at one of our partner institutions abroad or gain professional experience in a work placement. We also offer a foundation year; ideal for students who have little or no background in sciences or mathematics but would like to study engineering.

Our Electronic Engineering degree gives you a strong foundation in the theory and practice of electronics. It equips you with the specialist engineering knowledge, practical know-how and range of professional skills to open up opportunities to highly rewarding careers. You will experience this technology in lectures, laboratory time and project work supported by industry-standard software used by engineers worldwide. You will also become familiar with engineering calculation software used by engineers and scientists.

Teaching and Learning

First year



Second year



Final year




First year




Second year




Final year




Our teaching staff

Where you'll study

Hull Campus

Click to view directions on Google Maps


Designed in collaboration with industry, our degrees aim to meet a strong and growing demand for talented engineers.

Studying in the Humber region - Britain's 'energy estuary' - creates a wealth of career and placement opportunities.

Our electronic engineering courses were the first in the UK to gain Institution of Engineering and Technology accreditation. This year we're undergoing re-accreditation.

Our graduates enjoy excellent prospects, with many receiving job offers even before they graduate.

Entry requirements

2019 Tariff points: 112 points. Points can be from any qualification on the UCAS tariff, but must include at least 80 points from 

  • A levels
  • BTEC Subsidiary Diploma, Diploma or Extended Diploma
  • OCR Cambridge Technical Introductory Diploma, Diploma or Extended Diploma
  • CACHE Diploma or Extended Diploma
  • Irish Leaving Certificate
  • Scottish Highers
  • Welsh Baccalaureate Advanced Diploma
  • or a combination of appropriate Level 3 qualifications
  • Applicants should have an A level in Maths at Grade C or above, or alternative Level 3 qualification.

UCAS has changed the way that qualifications earn points under the Tariff system. Please click here to work out your estimated points and to find out more about how the University of Hull considers qualifications.

Alternative qualifications

  • IB Diploma: 28 including 5 in HL Maths
  • Access to HE Diploma: Pass Science or Engineering based HE Diploma with minimum of 45 credits at merit or higher, including 18 credits at merit in Maths.
  • BTEC L3 Extended Diploma: Engineering including merit in core and optional maths units.

We welcome applicants with a range of qualifications from the UK and worldwide which may not exactly match the combinations shown above. Please contact the University’s Admissions Service for individual guidance.

At a glance

For this course, you'll need...

112 UCAS points

Points can be made up of a variety of qualifications. Calculate your points here.

We welcome a range of qualifications from the UK and worldwide which may not be listed.

Many of our courses offer a Foundation Year for applicants without the qualifications for direct entry on to the degree.

If you have any questions about our entry requirements or the tariff, please contact admissions or call 01482 466100.

International students

If you require a Tier 4 student visa to study or if your first language is not English you will be required to provide acceptable evidence of your English language proficiency level.

This course requires academic IELTS 6.0 overall, with no less than 5.5 in each skill. For other English language proficiency qualifications acceptable by this University, please click here.

If your English currently does not reach the University's required standard for this programme, you may be interested in one of our English language courses.

Visit your country page to find out more about our entry requirements.

Fees and funding

  • Home/EU: £9,250 per year*
  • International: £16,600 per year

*The amount you pay may increase each year, in line with inflation.

UK and EU students can take out a tuition fee loan to cover the cost of their course, and UK students can take out a maintenance loan of up to £8,700 to cover living costs.

Substantial discounts are available for International students.  

More information on fees can be found in the Money section of the website.


Future Prospects

Career prospects for engineering graduates continue to be excellent; many receive several firm offers of employment even before graduating. A report from industry body EngineeringUK highlighted a current annual shortfall of 55,000 skilled workers within the engineering sector in Britain.

Engineering enterprises in the Humber region have an overall turnover of £61 billion and offer a range of challenging and rewarding positions for talented engineering graduates.

The region is rapidly emerging as Europe’s renewable energy capital – 'the energy estuary’ – with engineering giant Siemens and its partner Associated British Ports investing £310 million in a wind turbine production facility at Green Port Hull and Vivergo Fuels’ nearby plant set to become the country’s largest producer of bioethanol.

The expertise you gain as an engineering student – your mathematical abilities, problem-solving skills, ability to understand innovative concepts and experience of working in teams – is much in demand in all areas of engineering, and this is reflected positively by starting salaries and average earnings.

You will also find that your engineering degree makes you highly sought-after by leading companies in the global marketplace: your engineering degree from Hull can therefore lead to a career anywhere in the world. Our graduates have gone on to work with companies such as Alstom, BAE Systems, Corus, GlaxoSmithKline, the armed forces and the Health and Safety Executive.

Alternatively, many students decide to stay in Hull to study for higher degrees at Masters and PhD level.