Electronic Engineering
Bachelor's degree
In Leeds
Description
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Type
Bachelor's degree
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Location
Leeds
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Start date
Different dates available
This degree course allows you to study advanced electronic design, including system-on-chip design, embedded systems engineering and integrated circuit design and layout.
Core modules will develop your knowledge and skills across a range of key topics in electronic engineering, as well as giving you a foundation in the key mathematical and physical principles that underpin the subject. You’ll also have the chance to choose optional modules in specialist topics such as medical electronics, communications systems and physical micro- and nano-electronics, in line with your career plans and personal interests.
You’ll be taught by expert researchers in world-class facilities, and project work in every year of the course will equip you with valuable professional skills. This degree offers you a launchpad to a wide range of careers across the electronics sector.
You can choose to take either the four-year Integrated Masters (MEng, BEng) or the three-year Bachelor’s (BEng) degree on this course.
Find out more about the MEng, BEng and BEng
Specialist facilities
You’ll have access to world-class facilities, including the ARM Embedded Systems Laboratory and the Keysight Technologies Wireless Communications Laboratory, which features professional-standard equipment including arbitrary function generators and 100MHz 4-channel oscilloscopes.
For your final-year project, you could also have access to facilities such as our bionanoelectronics research laboratory, terahertz imaging laboratory, or ABB robotic arm laboratory.
Accreditation
This course is accredited by the Institution of Engineering and Technology (IET) under licence from the UK regulator, the Engineering Council.
Accreditation is the assurance that a university course meets the quality standards established by the profession for which it prepares its students. An accredited electronic engineering course must meet the quality standards set by the IET.
Facilities
Location
Start date
Start date
About this course
Entry requirements
A-level: AAA including Mathematics.
Where an A-Level Science subject is taken, we require a pass in the practical science element, alongside the achievement of the A-Level at the stated grade.
Excludes A-Level General Studies or Critical Thinking.
Extended Project Qualification - We recognise the value, effort and enthusiasm applicants make in the Extended Project, and where an applicant offers an A in the EPQ we may make an offer of AAB at A-Level (any required subjects such as Mathematics must still be at grade A). background.
Access to Leeds is an alternative...
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Subjects
- Ethics
- Access
- Quality
- Electronic Engineering
- Design
- Mathematics
- Engineering Mathematics
- Project
- Communications
- Systems
- Engineering
- Medical
- Accredited
- Medical training
- Quality Training
- GCSE Mathematics
Course programme
All of our core electronic and electrical degree courses have a common first two years. This lays the foundations of your studies and gives you a thorough understanding of key topics, but it also means you can easily change between these courses until the end of Year 2.
You’ll learn about the physical principles that affect the function of electronic components and electrical systems, as well as circuit theory, analysis and design. You’ll also study communications systems and networks, power electronics and modules designed to improve your mathematical skills for engineering.
Year 3 allows you to build on this knowledge with modules in advanced topics such as embedded systems, digital communications and microwave engineering. You’ll also take a module exploring the professional context in which engineers work today.
If you continue to Year 4 for the MEng qualification, you’ll undertake a dissertation on an aspect of the industry to give you a broader understanding of electronic engineering in the wider world. You’ll also select optional modules on a range of specialist topics, from medical electronics to network security, and apply what you’ve learned to a substantial research project.
ProjectsEvery year of the course gives you hands-on experience of project work. This gives you the opportunity to explore your subject further as well as developing valuable skills in problem solving, communication and teamwork.
Find out more about our Projects
Engineering ethicsYou’ll study engineering ethics as part of your course, with lectures and/or seminars in each year of your study. Visit our engineering ethics webpage to find out more.
Course structureThese are typical modules/components studied and may change from time to time. Read more in our Terms and conditions.
Modules Year 1Compulsory modules
- Circuit Analysis and Design 20 credits
- Circuit Theory 10 credits
- Communications Networks and Signals 10 credits
- Communications Systems 10 credits
- Digital Electronics and Microcontrollers 20 credits
- Further Engineering Mathematics 10 credits
- Physical Electronics 1 10 credits
- Physical Electronics 2 10 credits
- Introduction to Engineering Mathematics 20 credits
- Engineering Mathematics 10 credits
- Algorithms and Numerical Mathematics 10 credits
Compulsory modules
- Electronic Circuit Design 10 credits
- High Frequency Electronics 10 credits
- Transistors and Optoelectronic Devices 20 credits
- Communications Theory 20 credits
- Power Electronics 10 credits
- Control Systems 10 credits
- Embedded Systems Project 20 credits
- Microprocessors and Programmable Logic 20 credits
Compulsory modules
- Professional Studies 10 credits
- Integrated Circuit Design 10 credits
- RF and Microwave Engineering 10 credits
- Digital Communications 10 credits
Electronic Engineering