![Coventry University Electrical and Electronic Engineering MSc](https://keystoneacademic-res.cloudinary.com/image/upload/f_auto/q_auto/g_auto/w_724/dpr_2.0/element/24/243976_243885_cover-photo_V1_Panorama_1800x550_FINAL_02.jpg)
Electrical and Electronic Engineering MSc
Coventry, United Kingdom
DURATION
1 up to 3 Years
LANGUAGES
English
PACE
Full time, Part time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2025
TUITION FEES
Request tuition fees
STUDY FORMAT
On-Campus
Introduction
If you like the idea of creating electrical systems which could help millions of people on a day-to-day basis, then studying an MSc in electrical and electronic engineering could be for you.
Course overview
Electrical and electronic engineers are crucial to the development of power systems and devices, electrical machines, alternative energy and smart grids, digital communication systems, computer networking, Internet of Things (IoT) and household electronic devices worldwide, to name a few. Engineers capable of designing and implementing electrical and electronic systems and devices for such applications are in high demand all over the world.
- This course provides you with the opportunity to develop practical skills and theoretical knowledge in a range of electronics fields, including digital systems, image and signal processing, robotics and sensors, together with electrical systems such as renewable energy, smart grids, advanced control engineering and instrumentation, electrical machines and power generation.
- Designed to follow the Engineering Council UK-SPEC standard, the course encompasses theoretical and practical subjects within the broad area of electrical and electronic engineering as used by industries as diverse as aerospace and automotive, chemical and construction.
- You’ll have access to modern facilities, as well as an annual programme of lectures (subject to availability) which aim to inspire you in the areas of contemporary engineering and computing topics which are presented by the Institution of Engineering and Technology (IET) and British Computer Society (BCS) at no extra cost.
Why you should study this course
- At Coventry University, we believe that studying engineering should be so much more than just learning theory and passing examinations. Instead, our activity-led learning approach can enable you to develop your skills and knowledge by working on real-life problems and projects, many commissioned by our industry collaborators.
- We aim to regularly update course content to reflect emerging trends and knowledge fields to enrich your technical and transferrable skills. For example, power electronics explores the modern-day systems used for electrical power generation, such as smart meters, smart appliances, renewable energy resources and energy efficiency resources.
- Robotics is another key area, so we will examine the sub-systems that a robot needs, such as sensors to perceive its environment, cognition to make informed decisions, image processing to ‘see’ and detect objects in the real world and the mechanics to enable movement through 3D space.
- You’ll study in our modern Engineering and Computing buildings, with access to extensive facilities4 and the latest technologies in the fields of electrical and electronic engineering, such as a new machines and microprocessors laboratory.
- We currently have extensive industry links with a broad range of commercial collaborators including IBM, Invensys and Jaguar Land Rover to name just a few, enabling you the potential opportunity to collaborate on industry-themed research projects.
- You’ll be taught by current experts in their field, many of whom are active researchers in areas that include but are not limited to control theory and applications, wireless sensors, pervasive computing, embedded micro-electronics and electrical energy. This should not only help to inform your teaching, keeping you abreast of new developments and issues, but may also provide opportunities to partner staff on research projects. (Please note staff may be subject to change)
Admissions
Curriculum
You will have the opportunity to explore areas such as electrical machines, signal processing, robotics and advanced control engineering and instrumentation. Additionally, there are modules exploring digital system design and communications systems, power systems, smart grid, and consultancy.
Modules
- FPGA - Based Digital System Design
- Digital Signal and Image Processing
- Robotics - Kinematics, Dynamics and Applications
- Electrical Machines and Drives
- Power Systems
- Alternative Energy and Smart Grid
- Digital Communications
- Advanced Control Engineering and Instrumentation
- Individual project
- Entrepreneurial Practice
We regularly review our course content, to make it relevant and current for the benefit of our students. For these reasons, course modules may be updated.
Program Tuition Fee
Career Opportunities
On successful completion, you will have knowledge of:
- Advanced principles of electrical and electronic engineering and their relationships to leading-edge, real-world applications.
- Advanced analysis and design tools and processes.
- The implementation and critical evaluation of design solutions relevant to the subject areas through simulation and practical applications.
On successful completion you will be able to:
- Critically appraise the main approaches to research design, sampling and analysis appropriate to Engineering and construct research questions or hypotheses.
- Conceptualise complex technical aspects of electrical and electronic engineering.
- Conduct detailed and systematic technical analyses of aspects of electrical and electronic engineering.
- Devise technical solutions to problems in the design and implementation of electrical and electronic engineering.
- Critically evaluate literature and solutions relating to problems arising in the design and implementation aspects of electrical and electronic engineering.
- Select, apply and critically appraise tools and techniques of advanced analysis and design.
- Implement appropriate software and hardware solutions and simulations and critically evaluate the outcomes.
- Plan, perform, critically evaluate and present the results of an independent project in a chosen specialist subject area.
Where our graduates work
Graduates can progress onto further study in the form of a PhD or could begin a career in the electrical and electronic industries, for example, smart grids, Internet of Things, energy supply infrastructure, electrical devices, mobile communication devices and infrastructure.