Designed to meet the Engineering Council UK-SPEC standard, the course covers the fundamental principles and programming skills required in electronic engineering, providing a solid foundation to start professional work in electronic design, control systems, communication systems and software engineering.
You’ll study in our state-of-the-art £50m Engineering and Computing building, with access to our well-equipped microelectronics laboratory, power laboratory and dedicated project laboratory.
We enjoy high level of student satisfaction on this course and students regularly praise the enthusiasm of our lecturers. You’ll be taught by staff with extensive research backgrounds in areas including: photovoltaics; semiconductor devices modelling, simulation, design and fabrication; electromagnetics; iron core saturation; control theory and applications; wireless sensors; and embedded microelectronics. This informs your teaching, keeping you abreast of new developments and issues, whilst providing opportunities to partner staff on research projects.
**Key Course Benefits**
* Meets the full academic requirements for Incorporated Engineer (IEng) registration.
* Regular expert guest lectures, which previously have covered topics such as the National Grid in areas of power distribution.
* Collaborative links with universities in 20 countries around the world providing study exchange opportunities (additional costs may apply).
* Our four specialist Faculty Research Centres have a strong portfolio of world-leading research in wireless sensors, pervasive computing, distributed computer systems, digital forensics, computer security, serious games, virtual reality, aerodynamics and electrical energy.
* Study in our state-of-the-art £50m Engineering and Computing building, with access to extensive cutting-edge facilities in our High Performance Engineering Centre, which houses a 20% scale model wind tunnel (designed and built by the Mercedes AMG Petronas F1 team), composites lab, metrology lab, four-pot shaker rig, flow lab, AVL engine test cell, automotive workshop, fatigue and tensile testing (Instron), a full size Harrier Jet, three further simulators, civil engineering specialist testing equipment, a range of CNC machinery and a laser workshop.
Course Details - Modules
Our main study themes are:
* **Analogue and digital electronics**: Aims to develop your capability to produce useful practical designs in the technology area of analogue and digital electronics. You will conceive and simulate your own practical computer circuit designs. Topics covered include semiconductor diodes and their application in power supplies, bipolar junction transistors in single-stage amplifiers, and field effect transistors. Digital topics include the realisation of logic gates, design of small and medium scale combinational functions and the use of flip-flops in sequential logic.
* **Digital Signal Processing**: Computer-based systems are increasingly required to detect, analyse and manipulate signals, or data, from a wide range of sources, such as sound, light, temperature or pressure. You’ll learn to analyse continuous and discrete-time signals and systems, developing higher level signal processing techniques and filters, together with knowledge of digital image processing and pattern recognition.
* **Control Systems**: Control and instrumentation provides an important link between modern integrated computer based monitoring and control applications and traditional engineering disciplines. It is used a wide range of areas, including process control, aerospace, automotive, robotics, environmental and energy efficient manufacturing industries. You will develop a broad understanding of the principles, techniques and applications associated with control engineering and instrumentation, gaining a good engineering insight into the implementation of modern computer based control system methodologies.
* **Communications Systems**: You will have the opportunity to study digital transmission techniques in the context of contemporary communications, including analogue and digital communications. We look at the associated methods of modulation and demodulation, as well as reviewing the factors that can impair signals.
* **Electrical engineering**: Explores the concepts, principles and techniques used including steady state DC circuit analysis, AC circuit analysis, single phase and three phase circuits, transformers, motors and generators.
* **Engineering mathematics**: Develops your competence in mathematical methods relevant to engineering. You will learn to analyse problems using appropriate mathematical techniques carrying out the manipulation themselves and also using modern mathematical software.
For more information about what you will study, please visit our website.
Course Details – Assessment Method
Assessment Methods are not listed for this Course.
Course Details – Professional Bodies
Engineering and Technology, Institution of
How to Apply
26 January This is the deadline for applications to be completed and sent for this course. If the university or college still has places available you can apply after this date, but your application is not guaranteed to be considered.
Application Codes
Course code:
H601
Institution code:
C85
Campus Name:
Main Site
Campus code:
Points of Entry
The following entry points are available for this course:
Year 1
Entry Requirements for Advanced Entry (Year 2 and Beyond)
Entry Requirements for Advanced Entry are not listed for this Course.
International applicants
Standard Qualification Requirements
to include Mathematics and one from Physics, Chemistry, Electronics, Engineering, Further Mathematics, Computer Science, Computing or Design Tech. Excludes General Studies.
The Access to HE Diploma to include 30 Level 3 credits in Mathematics or Physical Science units. Plus GCSE English Language and Mathematics at grade 4 / C or above.
to include Mathematics and one from Physics, Chemistry, Design Technology or IT at a higher level.
in an engineering subject to include Merits in the 'Calculus to Solve Engineering Problems' and 'Further Engineering Mathematics' units.
All applications are considered on an individual basis and the whole application is reviewed which includes previous and predicted qualifications, experience, reference and your motivation to study the course.
The University also accepts the BTEC Level 3 National Extended Certificate / BTEC Level 3 Subsidiary Diploma and BTEC Level 3 National Diploma / BTEC Level 3 Diploma for entry onto degree programmes, provided that they are studied in combination with other qualifications that are equivalent to three A2 Levels. This may include subject specific requirements where necessary.
If you are successful in receiving an offer, you will be invited to an Applicant Visit Day to discover more about the course and studying at Coventry University.
Please click the following link to find out more about qualification requirements for this course
Minimum Qualification Requirements
Minimum Further Information are not listed for this Course.
English language requirements
Test
Grade
AdditionalDetails
English Language Entry Requirement Information are not listed for this Course.
Unistats information
Student satisfaction :
0%
Employment after 15 months (Most common jobs):
0%
Go onto work and study:
0%
Fees and funding
England
9250.0
Year 1
Northern Ireland
9250.0
Year 1
Scotland
9250.0
Year 1
Wales
9250.0
Year 1
Additional Fee Information
Additional Fee Information are not listed for this Course.
Provider information
Priory Street
Address2 are not listed for this Course.
Address3 are not listed for this Course.
Coventry
CV1 5FB
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