During this year, you can study at either our China or Malaysia campus.
Your year will be spent studying core modules, and depending on the subject specialisms you have selected, appropriate optional modules.
University Park Campus, Nottingham, UK
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
MEng Hons | AAA | September 2025 | H605 | 4 years full-time | TBC |
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
MEng Hons | AAA | September 2025 | H605 | 4 years full-time | TBC |
This course is accredited by the Institution of Engineering and Technology.
This degree is accredited by the Institution of Engineering and Technology on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.
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).
This course is accredited by the Institution of Engineering and Technology.
This degree is accredited by the Institution of Engineering and Technology on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.
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).
One of HL6 Mathematics: Analysis and Approaches, HL6 Mathematics: Applications and Interpretation OR SL7 Mathematics: Analysis and Approaches AND 6 at HL in one of Biology, Chemistry, Physics or Computer Science
6.0 (no less than 5.5 in any element)
As well as IELTS (listed above), we also accept other English language qualifications. This includes TOEFL iBT, Pearson PTE, GCSE, IB and O level English. Check our English language policies and equivalencies for further details.
For presessional English or one-year foundation courses, you must take IELTS for UKVI to meet visa regulations.
If you need support to meet the required level, you may be able to attend a Presessional English for Academic Purposes (PEAP) course. Our Centre for English Language Education is accredited by the British Council for the teaching of English in the UK.
If you successfully complete your presessional course to the required level, you can then progress to your degree course. This means that you won't need to retake IELTS or equivalent.
Check our country-specific information for guidance on qualifications from your country
Maths and one of electronics, computer science, physics, chemistry, biology, further mathematics, design and technology: systems control or design technology: design engineering H404.
GCSE English grade 4 (C).
Excluding General Studies, Critical Thinking, Citizenship Studies, Global Perspectives and Research, and Thinking Skills.
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2025 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently, we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis and we gladly accept students with a whole range of less conventional qualifications including:
The entry requirements for alternative qualifications can be quite specific; for example, you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please also see the alternative qualifications page for more information.
RQF BTEC Nationals
As part of the application process BTEC applicants without A level Maths will receive an invitation to attend a meeting with an academic member of staff.
The meeting will assess applicants' mathematical capability alongside their ability to build on their potential if they start straight into a course where their current maths preparation is not as rigorous as those holding other specific Mathematics qualifications.
For many BTEC applicants, the best route into an engineering degree is via a foundation course. The meeting, along with the UCAS application, will be used to help us decide whether we feel it is in the best interest of the applicant for us to make an offer for the applied-for course or be recommended to the foundation year. Our primary objective is to ensure that our students are fully prepared for year one to maximise the likelihood of achieving their study goals with us.
For those with lower predicted grades, applications will be considered for entry onto the foundation year.
For those considered for year one entry, our typical offer is as follows:
RQF Level 3 BTEC National Extended Diploma in Engineering – D*DD including Distinction in units:
RQF Level 3 BTEC National Diploma in Engineering or Science and A Levels – D*D + A in A Level Maths
RQF Level 3 BTEC National Extended Certificate in Engineering and A Levels – D + AA to include A Level Maths
RQF Level 3 BTEC National Extended Certificate in any subject and A Levels – D + A in A Level Mathematics and a A in on of A Level Physics, Chemistry, Biology, Design & Technology, Geography, Geology, Computing, Further Mathematics, Psychology, 3D Design or Design Engineering.
Access to HE Diploma
Access to HE Diploma 36 Level 3 credits at Distinction (to include a minimum of 15 Level 3 credits at Distinction in Mathematics) and 9 Level 3 credits at Merit.
If you have already achieved your EPQ at grade A you will automatically be offered one grade lower in a non-mandatory A level subject. If you are still studying for your EPQ you will receive the standard course offer, with a condition of one grade lower in a non-mandatory A level subject if you achieve an A grade in your EPQ. Please note that if you qualify for an enhanced contextual offer, your EPQ will not be taken into consideration as we are unable to make any further adjustments to your offer.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
International students must have valid UK immigration permissions for any courses or study period where teaching takes place in the UK. Student route visas can be issued for eligible students studying full-time courses. The University of Nottingham does not sponsor a student visa for students studying part-time courses. The Standard Visitor visa route is not appropriate in all cases. Please contact the university’s Visa and Immigration team if you need advice about your visa options.
NA
NA
Maths and one of electronics, computer science, physics, chemistry, biology, further mathematics, design and technology: systems control or design technology: design engineering H404.
GCSE English grade 4 (C).
Excluding General Studies, Critical Thinking, Citizenship Studies, Global Perspectives and Research, and Thinking Skills.
One of HL6 Mathematics: Analysis and Approaches, HL6 Mathematics: Applications and Interpretation OR SL7 Mathematics: Analysis and Approaches AND 6 at HL in one of Biology, Chemistry, Physics or Computer Science
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2025 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently, we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis and we gladly accept students with a whole range of less conventional qualifications including:
The entry requirements for alternative qualifications can be quite specific; for example, you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please also see the alternative qualifications page for more information.
RQF BTEC Nationals
As part of the application process BTEC applicants without A level Maths will receive an invitation to attend a meeting with an academic member of staff.
The meeting will assess applicants' mathematical capability alongside their ability to build on their potential if they start straight into a course where their current maths preparation is not as rigorous as those holding other specific Mathematics qualifications.
For many BTEC applicants, the best route into an engineering degree is via a foundation course. The meeting, along with the UCAS application, will be used to help us decide whether we feel it is in the best interest of the applicant for us to make an offer for the applied-for course or be recommended to the foundation year. Our primary objective is to ensure that our students are fully prepared for year one to maximise the likelihood of achieving their study goals with us.
For those with lower predicted grades, applications will be considered for entry onto the foundation year.
For those considered for year one entry, our typical offer is as follows:
RQF Level 3 BTEC National Extended Diploma in Engineering – D*DD including Distinction in units:
RQF Level 3 BTEC National Diploma in Engineering or Science and A Levels – D*D + A in A Level Maths
RQF Level 3 BTEC National Extended Certificate in Engineering and A Levels – D + AA to include A Level Maths
RQF Level 3 BTEC National Extended Certificate in any subject and A Levels - D + B in A Level Mathematics and a B in on of A Level Physics, Chemistry, Biology, Electronics, Design & Technology, Computing, Further Mathematics, or Design Engineering
Access to HE Diploma
Access to HE Diploma 36 Level 3 credits at Distinction (to include a minimum of 15 Level 3 credits at Distinction in Mathematics) and 9 Level 3 credits at Merit.
If you have already achieved your EPQ at grade A you will automatically be offered one grade lower in a non-mandatory A level subject. If you are still studying for your EPQ you will receive the standard course offer, with a condition of one grade lower in a non-mandatory A level subject if you achieve an A grade in your EPQ. Please note that if you qualify for an enhanced contextual offer, your EPQ will not be taken into consideration as we are unable to make any further adjustments to your offer.
We make contextual offers to students who may have experienced barriers that have restricted progress at school or college. Our standard contextual offer is usually one grade lower than the advertised entry requirements, and our enhanced contextual offer is usually two grades lower than the advertised entry requirements. To qualify for a contextual offer, you must have Home/UK fee status and meet specific criteria – check if you’re eligible.
An Engineering and Physical Sciences foundation year is available for those who are not taking the required subjects.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
NA
NA
On this course, subject to you meeting the relevant requirements, your third academic year will be spent studying at University of Nottingham China or University of Nottingham Malaysia. The curriculum is exactly the same as that of the UK and all teaching is in English. Your year will be spent studying core modules, and depending on the subject specialisms you have selected, appropriate optional modules. Alternatively, you could apply to spend the year at one of our partner universities, however places are extremely limited and there is no guarantee that you would be able to study at a partner institution.
Please note:
In order to undertake a compulsory year abroad, you will need to achieve the relevant academic requirements as set by the University and meet the selection criteria of both the University and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria. If you do not secure a year abroad opportunity, you will be transferred to the version of the course without the compulsory year abroad element, and you will complete all years of study at University of Nottingham, UK.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
On this course, subject to you meeting the relevant requirements, your third academic year will be spent studying at University of Nottingham China or University of Nottingham Malaysia. The curriculum is exactly the same as that of the UK and all teaching is in English. Your year will be spent studying core modules, and depending on the subject specialisms you have selected, appropriate optional modules. Alternatively, you could apply to spend the year at one of our partner universities, however places are extremely limited and there is no guarantee that you would be able to study at a partner institution.
Please note:
In order to undertake a compulsory year abroad, you will need to achieve the relevant academic requirements as set by the University and meet the selection criteria of both the University and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria. If you do not secure a year abroad opportunity, you will be transferred to the version of the course without the compulsory year abroad element, and you will complete all years of study at University of Nottingham, UK.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
The University offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help:
*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, you may be asked to complete a fee status questionnaire and your answers will be assessed using guidance issued by the UK Council for International Student Affairs (UKCISA) .
We offer a range of international undergraduate scholarships for high-achieving international scholars who can put their Nottingham degree to great use in their careers.
The UK Government is intending to increase the tuition fee cap for UK undergraduate and Initial Teacher Training students studying in England to £9,535 for the 2025/26 academic year. This is an increase of £285 per year. Course pages will be updated to reflect the latest tuition fees as more information becomes available. For more information, visit the Government’s website and take a look at our FAQs.
The University offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help:
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.
Electrical and electronic engineers design, develop, test and oversee new technologies. This can be to generate and process power as well as to create anything from drones and electric cars to the technology in smartphones, sat navs and systems in hospitals.
Our course will give you the specialist knowledge and skills that will help you be part of a more sustainable future. Through lab-based projects, working individually and in small teams, you'll bring together your numerical, analytical and technical knowledge to problem solve different situations.
Electrical and electronic engineers design, develop, test and oversee new technologies. This can be to generate and process power as well as to create anything from drones and electric cars to the technology in smartphones, sat navs and systems in hospitals.
Our course will give you the required engineering expertise for a career in engineering or in a variety of other professions. Through lab-based projects, working individually and in small teams, you'll bring together your numerical, analytical and technical knowledge to problem solve different situations.
During your second year, you can apply to study at either our China or Malaysia campus where you will have the opportunity to experience differing cultures. The curriculum is exactly the same as that of the UK and all teaching is in English. Your year will be spent studying core modules, and depending on the subject specialisms you have selected, appropriate optional modules.
All undergraduate students in the Department of Electrical and Electronic Engineering initially follow a common programme of study, allowing them to change to a different plan up until the end of their third semester in year two. It is also possible to add or remove a year abroad and year in industry after joining the course. By year three, you can choose to specialise in the topics that interest you and suit your career aspirations.
If you are made an offer at MEng level, this will include a contextual offer for the BEng version of this course. This means that, if you do not achieve the required results to meet your MEng offer, but would have met the requirements to join the BEng version of your chosen course, you will automatically be offered a place on the BEng version of your chosen course.
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.
Mandatory
Year 1
Applied Electrical and Electronic Engineering Construction Project
Mandatory
Year 1
Contemporary Engineering Themes A
Mandatory
Year 1
Engineering Mathematics
Mandatory
Year 1
Information and Systems
Mandatory
Year 1
Introduction to Software Engineering and Programming
Mandatory
Year 1
Power and Energy
Mandatory
Year 2
Contemporary Engineering Themes B
Mandatory
Year 2
Design and Implementation of Engineering Software
Mandatory
Year 2
Electrical Energy Conditioning and Control
Mandatory
Year 2
Electronic Processing and Communications
Mandatory
Year 2
Electronic Systems Group Design Project
Mandatory
Year 2
Energy Conditioning Group Design Project
Mandatory
Year 2
Modelling: Methods and Tools
Mandatory
Year 3
Advanced Engineering Mathematics
Mandatory
Year 3
Analogue Electronics
Mandatory
Year 3
Group Project
Mandatory
Year 3
Professional Studies
Optional
Year 3
Applications of AI in Electrical and Electronic Engineering
Optional
Year 3
Cybersecurity
Optional
Year 3
Digital Communications
Optional
Year 3
Electrical Machines, Drive Systems and Applications
Optional
Year 3
Embedded Computing
Optional
Year 3
Integrated Circuits and Systems
Optional
Year 3
IT Infrastructure
Optional
Year 3
Mobile Technologies
Optional
Year 3
Optical Networks
Optional
Year 3
Power Electronic Applications and Control
Optional
Year 3
Power Networks
Optional
Year 3
Renewable Generation Technologies
Optional
Year 3
Robotics, Dynamics and Control
Optional
Year 3
Scalable Cross-Platform Software Design
Optional
Year 3
Sensing Systems and Signal Processing
Mandatory
Year 4
Industrial/Research Orientated Project
Optional
Year 4
Advanced AC Drives
Optional
Year 4
Advanced Computational Engineering
Optional
Year 4
Advanced Control
Optional
Year 4
Advanced Electrical Machines
Optional
Year 4
Advanced Power Electronics
Optional
Year 4
Artificial Intelligence and Intelligent Systems
Optional
Year 4
Digital Signal Processing
Optional
Year 4
Distributed Generation and Alternative Energy
Optional
Year 4
HDL for Programmable Devices
Optional
Year 4
Instrumentation and Measurement
Optional
Year 4
Optical and Photonics Technology
Optional
Year 4
Power Systems for Aerospace, Marine and Automotive
Optional
Year 4
RF Devices and Systems
The above is a sample of the typical modules we offer, but is not intended to be construed or relied on as a definitive list of what might be available in any given year. This content was last updated on Wednesday 9 October 2024. Due to timetabling availability, there may be restrictions on some module combinations.
During this year, you can study at either our China or Malaysia campus.
Your year will be spent studying core modules, and depending on the subject specialisms you have selected, appropriate optional modules.
You may be able to choose to study a language as part of this degree.
Learning another language can open career opportunities around the globe and enriches your CV. It could also help you in your studies by being able to access learning materials in other languages.
If you are planning to travel or work abroad it will help you to broaden your cultural understanding.
Our Language Centre offers many languages, and you may start as a beginner or at a more advanced level.
Find out more about learning a language as part of your degree
In this module, you will be involved in the development of an autonomous vehicle building on knowledge learned in other parts of the course.
The work will be lab-based and undertaken in project weeks giving you a break from lectures in each semester.
You will work on this module for a third of the year.
This module introduces you to various themes that are at the forefront of today's electrical and electronic engineering systems. The topics covered will vary each year and typical subjects you might learn about include:
Topics cover critical technological enablers and breakthroughs and their commercial and socio-economic impact. These drive the engineering research and development process. This will give you a wider understanding of the content covered in the co-requisite modules.
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%).
This module introduces you to the algebra of complex numbers. It provides a key mathematical tool for analysis of linear mathematical and engineering problems.
You will study the complexity of solving general systems of equations using matrix techniques and review the calculus of a single variable.
You will have a three hour lecture and workshops each week.
This module provides an introduction to electronic and information systems and covers a wide range of topics including digital electronics, amplifiers, filters, semiconductor devices, diodes, transistors, communications and noise in electronic systems. Taught material is reinforced through coursework exercises which make use of circuit simulation tools.
This module explores 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 implemented on multiple platforms. These skills will be further enhanced through their ongoing use in the project component of the first year.
Our world relies on reliable and secure electricity supplies, this module will introduce you to the concepts and challenges faced in generating traditional and renewable electrical energy.
Following on from year one, this module continues to introduce to a variety of themes that are at the forefront of contemporary electrical and electronic engineering systems.
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:
Quality Software Engineering demands consideration of good design practice to produce robust, reliable, portable, maintainable and cost-effective codes. This module covers a range of good practice topics and also introduces Object Oriented Programming (OOP) as an elegant and reliable means of constructing inherently good quality software. Encapsulation, polymorphism and inheritance will be considered in detail.
This module introduces you to the underpinning technologies for the conditioning, control and conversion of electrical energy.
The topics covered in this module include:
In this module you will study:
This module introduces a range of activities from the design and development cycle undertaken to provide practical solutions to electronic engineering problems. The activity focuses on a hands-on laboratory-based project and develops teamworking skills. Students undertake the development of an electronics and communications system from concept to functional prototype.
This module introduces a range of activities from the design and development cycle undertaken to provide practical solutions to electronic engineering problems. The activity focuses on a hands-on laboratory-based project and develops teamworking skills. Students undertake the development of a power electronic converter system from concept to functional prototype.
Electrical and electronic engineers are often required to analyse and solve the problems they encounter.
This module will teach you the required mathematical skills and suitable software tools needed for you to start modelling these problems yourself.
Some topics covered include:
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.
Each week there will normally be one, one-hour lecture and a two-hour workshop to introduce key mathematical knowledge on module topics.
Techniques covered include:
This module covers the design and analysis of electronic systems used in telecommunications particularly wireless devices. Devices covered typically include passive components such as transmission lines, directional couplers, periodic structures, and active devices such as amplifiers and oscillators.
The project involves students working in groups of between four and six on a real-world engineering problem. All groups work on the same project and the task is set by a Stakeholder who is typically external to the Department. The students work on the project for the whole academic year and look to come up with an engineering solution to the problem. This will encompass a broad range of engineering skills, involving the design, analysis and evaluation of systems or engineering problems. Assessment of the societal impact of the outcome will form part of the requirement of the project as will the ability to scale-up the solution and turn it into a commercial product. Each group will be under the supervision of a member of academic staff who will act as a facilitator, or an experienced team member. By the end of the project the students are expected to have built and tested a prototype device demonstrating how they will solve the challenge set by the Stakeholder.
This module assesses your ability to develop a business plan based on an idea for a new product. This will give you the knowledge and skills needed for a graduate entering employment.
You will do this by learning various models, tools and concepts that are commonly used in business including:
By the end of this module, you will be confident in:
Applications of Artificial Intelligence in Electrical and Electronic Engineering
This module focuses on Cybersecurity.
This module is an introduction to the operation of modern digital communication systems. Topics covered include:
This module introduces students to the concepts and operating principles of fixed and variable speed electric machine and drive systems.
The module will use a number of system examples to demonstrate how machines and drive systems are specified, designed, controlled and operated.
This module covers
This module introduces the main principles of integrated circuits (IC) design for digital electronic systems. This is based around CMOS technology that is used to fabricate the majority of ICs today. It also explores internal operating mechanisms of semiconductor electronics and opto- electronic devices.
To provide students with the skills required to commission a complete IT system; to provide information on network design & implementation. To introduce students to uses/techniques of IT infrastructure services (e.g., VoIP, Hybrid working, Virtualisation, Directory services) together with approaches to implementing services, security and the overall management and administration of such systems. To provide students with the skills required to commission a complete IT system; to provide information on network design & implementation, services, security and management of systems. To introduce students to new uses of IT infrastructure (eg VoIP).
This module provides knowledge of the fundamentals of mobile communications and its application to real systems.
Typical subjects might be 3rd and 4th generation systems, OFDM and MIMO and how 5th generation systems are likely to develop.
You will be introduced to the concepts and operating principles of optical communication systems and networks and the devices that underpin them.
Topics typically include:
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.
This module provides students with an understanding of power system apparatus and their behaviour under normal and fault conditions. This module covers:
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.
This module gives and Introduction to fundamentals of robotics, and introduces students to: Direct Kinematics, Inverse Kinematics, Workspace analysis and specifying appropriate robotic manipulators for industrial processes.
Development and deployment of software for a variety of platforms ranging from the web and mobile devices through to large scale parallel computers.
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.
Students indicate their project preferences from a wide range of industrially-relevant topics covering all facets of the degree program, then work under the supervision of an expert member of staff. Students will undertake project management activities and plan their project for the year ahead, engage in independent work consisting of regular effort over the academic year to deliver the project Aims and Objectives. Students will write a Project Plan to deliver their agreed project, conduct the project, and produce a final thesis on their work and present it publicly.
This module covers the control of AC drives, covering drives for a variety of machine types and control strategies, for example, vector control.
This module:
This module covers the development of advanced engineering software projects, spanning a range of application areas.
Generic Topics to be discussed include:
This module covers a range of advanced control techniques used in a wide range of engineering applications.
Typical topics include:
This module introduces advanced electrical machine concepts and applications in the area of more electric transport, renewable generation and industrial automation.
The module will help you to:
This module covers a range of advanced power electronic techniques and implementations for a variety of applications, including the design of power electronic converters for real applications. Both component-level design and the impact of non-idealities on modelling and operation are considered.
Selected topics from the field of artificial intelligence with particular focus on the interface with electronic systems.
This module introduces the principles, major algorithms and implementation possibilities of digital signal processing at an advanced level.
This module covers the operation of modern power systems including:
The module introduces both the syntax and application of HDL for the design of modern electronics. This includes:
You also be introduced to the VHDL syntax and its latest development. The module will use the software tools from both Xilinx and Mentor Graphics to present FPGA based digital system design flow with VHDL.
This module is an introduction to the principles and practice of instrumentation and measurement systems in an engineering context.
The module will cover the generally applicable basic principles and then look at specific classes of instrument and associated electronics and signal processing methods.
Topics covered include:
Optics and photonics technology is used widely in modern life, this module starts with the basics of light and how we can manipulate it with optical components, building up to a practical understanding of optical systems. It covers the design of optical systems and the types of sources and detectors that can be used. Applications cover material processing, bio-photonics and optical imaging.
This module aims to develop an understanding of the design and operation of power systems in aerospace, marine and automotive applications.
With the introduction of more electrical technologies in these application areas, the understanding and expected performance of the power system has become a critical platform design issue.
This module introduces typical analytical, computational and experimental tools used in the study of Radio Frequency (RF) and high frequency devices and systems. This module will detail the fundamentals of electromagnetic wave propagation and typical RF devices such as antennas, antenna arrays, amplifiers, mixers and metal wave guides.
Teaching methods
Assessment methods
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.
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.
Average starting salary and career progression
90.3% of undergraduates from the Department of Electrical and Electronic Engineering secured graduate level employment or further study within 15 months of graduation. The average annual starting salary for these graduates was £29,384.*
*HESA Graduate Outcomes (2017-2021 cohorts). The Graduate Outcomes % is calculated using The Guardian University Guide methodology. The average annual salary is based on graduates working full-time within the UK.
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 2013-2023, High Fliers Research).
University Park Campus covers 300 acres, with green spaces, wildlife, period buildings and modern facilities. It is one of the UK's most beautiful and sustainable campuses, winning a national Green Flag award every year since 2003.
University Park Campus covers 300 acres, with green spaces, wildlife, period buildings and modern facilities. It is one of the UK's most beautiful and sustainable campuses, winning a national Green Flag award every year since 2003.
Faculty of Engineering
4 years full-time
Qualification
BEng Hons
Entry requirements
ABB
UCAS code
H62A
Faculty of Engineering
3 years full-time
Qualification
BEng Hons
Entry requirements
ABB
UCAS code
H622
Faculty of Engineering
4 years full-time
Qualification
BEng Hons
Entry requirements
ABB
UCAS code
H61G
Faculty of Engineering
3 years full-time
Qualification
BEng Hons
Entry requirements
ABB
UCAS code
H62W
If you’re looking for more information, please head to our help and support hub, where you can find frequently asked questions or details of how to make an enquiry.
If you’re looking for more information, please head to our help and support hub, where you can find frequently asked questions or details of how to make an enquiry.