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Course overview

Electronic engineers design, develop, test, and oversee the creation of anything from drones and electric cars to the technology in smartphones, sat navs and systems in hospitals.

All our electrical and electronic courses have the same content in year one and two so by year three, you can choose the topics that interest you. A lot of the things you learn will be done in labs working individually and in group projects.

Why choose this course?

  • Ranked 2nd in the UK for electrical and electronic engineering in The Guardian University Guide, 2021
  • Practical, lab-based sessions to help you develop skills for your future career
  • Customise your degree to suit your interests with a wide selection of optional modules

Entry requirements

All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2021 entry.

UK entry requirements
A level offer AAA-ABB including maths and one of electronics, physics, biology, chemistry, Design and Technology (D&T): Systems Control or Design Technology: Design Engineering excluding citizenship studies, critical thinking and general studies.
IB score IB 36-32 inc 5/6 in Higher Level maths or 6/7 in Standard Level maths and 5/6 at Higher Level in one of biology, chemistry or physics. We also accept the following IB Mathematics courses: Mathematics: Analysis and Approaches = 5/6 at Higher Level or 6/7 at Standard Level, and Mathematics: Applications and Interpretation = 5/6 at Higher Level only.

Maths and a science or electronics subject, plus a third subject (electronics, physics, chemistry or biology preferred) excluding citizenship studies, critical thinking and general studies. 

Foundation progression options

A foundation year is available for those with BBB grades but not in the required subjects.

Learning and assessment

How you will learn

Teaching methods

  • Group study
  • Independent study
  • Lab sessions
  • Lectures
  • Practical classes
  • Supervision
  • Tutorials
  • Workshops

How you will be assessed

Assessment methods

  • Coursework
  • Dissertation
  • Examinations
  • Group coursework
  • Practical exams
  • Presentation
  • Research project
  • Practical assessment

Contact time and study hours

On average, you will have around 20 contact hours a week in year one and two. Combined with coursework and self-study, you may spend over 40 hours a week on your studies.

Modules

This year is common to all courses in the Electrical and Electronic Engineering department. Giving you the flexibility to change course at the end of the year. You will gain an understanding of the principles and practices on which all specialisms within electrical and electronic engineering are founded.

Core

Introduction to Software Engineering and Programming

Develop the ability to analyse engineering problems; select appropriate softwareand/or techniques to enable the designing, planning, developing andimplementation of practical solutions; to be able to specify criteria fordetermining success.

This module provides first year undergraduate students in the Department of Electrical and Electronic Engineering with the technical skills required to analyse, design and implement solutions to practical engineering problems.

Students will be provided with the skills required to design and develop code solutions that can be implemented on multiple platforms; these skills will be further enhanced through their on-going use in the project component of the first year.

For students on an IET-accredited plan, this course and all assessment elements contributing to the overall mark are non-compensatable (with the pass mark being set at 40%). Reassessment will be taken as per the information provided below.

  • Assessment type: Coursework 1. Weight: 10.00. Original assessment: Design exercise- 10 hours of student work. Reassessment: Reassessment by coursework submitted by the start of the reassessment period.
  • Assessment type: Coursework 2. Weight: 30.00. Original assessment: Three design/programming assignments. Reassessment: Reassessment by coursework submitted by the start of the assessment period.
  • Assessment type: Coursework 3. Weight: 40.00. Original assessment: 1 hr Supervisedprogramming assessment work. Reassessment: Supervised programming examination.
  • Assessment type: In-class Exam 1 (Written). Weight: 20.00. Original assessment: Bi-weekly progress tests. Reassessment: 1 hr on-line multiple-choice test.
Applied Electrical and Electronic Engineering Construction Project

Accounting for one third of the year, this module involves the development of an autonomous vehicle, building on the knowledge acquired within other components of the course. The work will be laboratory based and undertaken in project weeks, providing a break from lectures in each semester.

Power and Energy

In this module you will be given an introduction to the fundamental concepts and challenges related to the generation and use of electrical energy, both from traditional and renewable resources, in a world that relies on secure electricity supplies.

Information Systems

This module is an introduction to electronic systems and information. It takes a “top down” approach which means you start with the big picture and work towards the more detailed view. You will begin by looking at signals, then analogue/digital systems and then move on to electronic devices and communications systems.

Engineering Mathematics 1

This module introduces you to the algebra of complex numbers providing a key mathematical tool for analysis of linear mathematical and engineering problems. You will have one 3-hour lecture and workshops each week where you will study the complexity of solving general systems of equations using matrix techniques and review the calculus of a single variable.

Contemporary Engineering Themes A

This module will provide you an introduction to a variety of electrical and electronic themes that are found in contemporary systems.

This module provides an introduction to a variety of themes that are at the forefront of contemporary electrical and electronic engineering systems. The presentations will cover criticaltechnological enablers and breakthroughs and their commercial and socio-economic impactwhich drive the engineering research and development process. This provides a broader contextfor the material covered in the co-requisite modules. The topics covered will vary each year andtypical subjects might include:

  • Smart Grids
  • Medical Electronics
  • Electric Transportation
  • Big Data

For students on an IET-accredited plan, this course and all assessment elements contributing to the overall mark are non-compensatable (with the pass mark being set at 40%).

The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules may change or be updated over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the module catalogue for the latest information on available modules.

Your design skills will be developed through a variety of laboratory-based subjects.

Group projects, presentations and seminars enable you to gain the skills and understanding essential for the workplace.

Core

Electronic Processing and Communications

In this module you will study intermediate level electronic analogue circuits and their use within more complex systems. You will also learn about digital design techniques and software tools and communications systems. The final topic that this module covers is the sources and impact of noise and interference – a key topic for any electrical and electronic engineer.

Electrical Energy Conditioning and Control

This module provides an introduction to the underpinning technologies for the conditioning, control and conversion of electrical energy. The topics covered in this module include power electronics, control, electrical machines and renewable energy.

Practical Engineering Design Solutions and Project Development

This module acts as a partner to the lecture modules in the second year. It gives you the chance to put your theoretical knowledge into practice through a selected range of activities drawn from the design and development cycle. You will undertake two group projects, one drawn from the power and energy theme the other from the electronics and communications theme.

Contemporary Engineering Themes

This module introduces a variety of themes that are at the forefront of contemporary electrical and electronic engineering systems. The presentations will cover critical technological enablers and breakthroughs and their commercial and socio-economic impact, which drive the engineering research and development process.

This provides a broader context for the material covered in the co-requisite modules. The topics covered will vary each year and typical subjects might include:

  • Smart Grids
  • Bio-sensing
  • Medical Electronics
  • Photonics
  • Electric Transportation
  • The Internet of Things
Modelling: Methods and Tools

Electrical and electronic engineers are often required to analyse and solve the problems they encounter. This module gives you the skills to start modelling these problems yourself and includes the required mathematical background as well as the application of suitable software tools.

Some topics covered in this module include analysis techniques for dynamic systems with application to communications and control theory, analysis techniques for digital systems and statistical analysis of signals and data.

The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules may change or be updated over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the module catalogue for the latest information on available modules.

Choose from a range of specialist topics, with flexibility to maintain a broad base or focus on specific technologies.

Core

Analogue Electronics (autumn)

This module covers the design and analysis of electronic systems used in telecommunications particularly wireless devices. Devices covered typically include amplifiers, oscillators, phase-locked loops and mixers.

Delivery

Activity Number of Weeks Number of sessions Duration of a session
Lecture 7 weeks 2 weeks 2 hours
Lecture 4 weeks 1 week 2 hours
Practicum 4 weeks 1 week 2 hours

Assessment method

Assessment Type Weight Requirements
Coursework 50.00 Investigation of design issues in single transistor amplifiers, plus submission of schematics plus final report that should be no larger than 10 pages in length.
Exam 50.00 Two hour exam

 

Integrated Circuits and Systems

The module introduces CMOS integrated circuit design and internal operating mechanisms of semiconductor electronics and opto-electronic devices. 

Delivery

Activity Number of Weeks Number of sessions Duration of a session
Lecture 12 weeks 2 weeks 2 hours
Practicum  11 weeks 1 week 2 hours

Assessment method

Assessment Type Weight
Coursework 50.00
Exam 50.00
Third Year Project

Engineers working in industry usually find that they become involved in extended practical or theoretical projects. This module provides an opportunity for you to work in a similar situation.

You’ll indicate your project preferences then work under the supervision of an expert member of staff to write a dissertation on your work and present it publicly. You’ll have weekly individual tutorial with your project supervisor, but otherwise you’ll be expected to work alone.

Professional Studies

This module introduces a diverse set of topics that a graduate engineer is likely to encounter upon entering employment. This will equip them with the knowledge to be able to write and assess rudimentary business plans and make informed decisions about product and business development. It includes various models, tools and concepts that are common within the business community including: Belbin’s model of team formation, the appropriate use of PEST and SWOT analysis, the basics of marketing, the product life cycle, technology audits, sources of finance, intellectual property, ethics and product design. The generation of an idea for a new product and its development into a Business Plan serves as both the primary means of assessment and a way of discussing topics in a meaningful setting.

Optional

Electrical Machines, Drive Systems and Applications

This module provides you with an understanding of the operational characteristics of common electrical machines (dc, ac induction, ac synchronous and stepping). Both theoretical and practical characteristics are covered including: electromagnetic theory applied to electrical machines, principles and structure of dc machines - commutation effects, principles and structure of induction machines, principles and structure of synchronous machines, parameterisation for performance prediction and machine testing and evaluation. You’ll have two one-hour lectures per week, supplemented with practical demonstrations for study of this module. 

Power Electronic Applications and Control

Providing an understanding of the operational principles of power electronic converters and their associated systems, this module covers: 3-phase naturally commutated ac-dc/dc-ac converters, capacitive and inductive smoothing - device ratings, dc-ac PWM inverters and modulation strategies, resonant converters, high power factor utility interface circuits and power converter topologies for high power (multilevel). You’ll have two one-hour lectures per week.

Scalable Cross-Platform Software Design

Development and deployment of software for a variety of platforms ranging from the web and mobile devices through to large scale parallel computers.

IT Infrastructure and Cyber Security

Providing you with the skills required to commission a complete IT system, this module provides information on network design and implementation, services, security and management of systems. You’ll be introduced to new uses of IT infrastructure (such as VoIP) and will have one one-hour lecture per week. 

Power Networks

This module provides you with an understanding of power system apparatus and their behaviour under normal and fault conditions. Through a two hour lecture each week, you’ll cover topics such as: concept and analysis of load flow, voltage/current symmetrical components, computation of fault currents, economic optimisation, power-system control and stability, power system protection and power quality.

Digital Communications

This module is an introduction to the operation of modern digital communication systems. During two one-hour lectures each week, you’ll cover topics such as: communication systems, information content and channel capacity, digital modulation techniques, data compression techniques, error-correcting and line coding techniques, digital signal regeneration techniques and system examples.

Embedded Computing

This module aims to introduce principal generic and distinctive features of embedded computing, and develop practical skills in designing firmware for PIC16 microcontrollers using assembly language. You'll have a two-hour lecture each week for study of this module.

Renewable Generation Technologies

This module covers the analysis and design of renewable and sustainable energy systems. It covers the various types of renewable energy and the resources available. It uses an understanding of the physical principles of various types of energy resources in order to develop analytical models which can be applied to the design of renewable energy systems, including energy conversion and storage, especially for electrical power generation.

Robotics, Dynamics and Control

This module gives and Introduction to electromechanical fundamentals in robotics, and introduces students to: Direct Kinematics, Inverse Kinematics, Workspace analysis and trajectory planning, Manipulator Dynamics (Lagrange, Lagrange-Euler, and Newton-Euler) and Robot Control.

Optical Networks

To introduce students to the concepts and operating principles of optical communication systems and networks and the devices that underpin them. Topics typically include characteristics of optical fibres and a range of active and passive optical devices such as for example transmitters, detectors, amplifiers, multiplexers, filters and couplers.

Mobile Technologies

This module provides the knowledge of the fundamentals of mobile communications and its application to real systems.

Sensing Systems and Signal Processing

The module provides students with the necessary background knowledge so that they can understand sensors and their applications.  The module covers a selection of topics where information is acquired from sensors and subsequently electronically processed. Applications will typically include, optical, acoustic, non-destructive evaluation, medical and bio-photonics.

Advanced Engineering Mathematics (spring)

This module covers advanced analytic mathematical techniques used to provide exact or approximate solutions to common classes of ordinary differential equations (ODES) typical in Engineering. Techniques covered include: method of variation of parameters, Laplace transform methods, Taylor series method, Frobenius method, asymptotic regular perturbations and strained coordinates and multiple scales. Each week there will normally be one 1-hour lecture and a two-hour workshop to introduce key mathematical knowledge on module topics.

Delivery

Activity Number of Weeks Number of sessions Duration of a session
Laboratory 5 weeks 1 week 2 hours
Lecture 11 weeks 1 week 2 hours

Assessment method

Assessment Type Weight Requirements
Coursework 25.00  
Exam 75.00  
The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules may change or be updated over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the module catalogue for the latest information on available modules.

Fees and funding

UK students

£9,250
Per year

International students

To be confirmed in 2020*
Keep checking back for more information
*For full details including fees for part-time students and reduced fees during your time studying abroad or on placement (where applicable), see our fees page.

If you are a student from the EU, EEA or Switzerland starting your course in the 2021/22 academic year, you will pay international tuition fees.

This does not apply to Irish students, who will be charged tuition fees at the same rate as UK students. UK nationals living in the EU, EEA and Switzerland will also continue to be eligible for ‘home’ fee status at UK universities until 31 December 2027.

For further guidance, check our Brexit information for future students.

Scholarships and bursaries

The University offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help:

Home students*

Over one third of our UK students receive our means-tested core bursary, worth up to £1,000 a year. Full details can be found on our financial support pages.

* A 'home' student is one who meets certain UK residence criteria. These are the same criteria as apply to eligibility for home funding from Student Finance.

International/EU students

We offer a range of Undergraduate Excellence Awards for high-achieving international and EU scholars from countries around the world, who can put their Nottingham degree to great use in their careers. This includes our European Union Undergraduate Excellence Award for EU students and our UK International Undergraduate Excellence Award for international students based in the UK.

These scholarships cover a contribution towards tuition fees in the first year of your course. Candidates must apply for an undergraduate degree course and receive an offer before applying for scholarships. Check the links above for full scholarship details, application deadlines and how to apply.

Careers

With the broad range of skills acquired from this degree, you will have excellent career prospects in areas such as; software development, fibre optic and mobile communications, aerospace technology, automotive systems and renewable energy technologies.

Studying for a degree at the University of Nottingham will provide you with the type of skills and experiences that will prove invaluable in any career, whichever direction you decide to take.

Throughout your time with us, our Careers and Employability Service can work with you to improve your employability skills even further; assisting with job or course applications, searching for appropriate work experience placements and hosting events to bring you closer to a wide range of prospective employers.

Have a look at our careers page for an overview of all the employability support and opportunities that we provide to current students.

The University of Nottingham is consistently named as one of the most targeted universities by Britain’s leading graduate employers (Ranked in the top ten in The Graduate Market in 2013-2020, High Fliers Research).

Institute of Engineering and Technology

This course is accredited by the Institute of Engineering and Technology.

This degree has been accredited by the Institution of Engineering and Technology under licence from the UK regulator, the Engineering Council. Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC).

An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng).

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Related courses

The University has been awarded Gold for outstanding teaching and learning

Teaching Excellence Framework (TEF) 2017-18

Disclaimer

This online prospectus has been drafted in advance of the academic year to which it applies. Every effort has been made to ensure that the information is accurate at the time of publishing, but changes (for example to course content) are likely to occur given the interval between publishing and commencement of the course. It is therefore very important to check this website for any updates before you apply for the course where there has been an interval between you reading this website and applying.