The Electronic Engineering MEng will give you an understanding of the social, commercial, legal, ethical, economic and environmental factors associated with engineering, as well as comprehensive knowledge of the science and mathematics associated with the discipline.

You will also develop the key transferrable skills that modern employers require, such as problem solving, project planning, presentation and communication. Our competitions, such as the annual Engineering Show, which includes the international micro-mouse competition, gives you the opportunity to participate in a range of competitions centered on autonomous and non-autonomous robotic vehicles.

Our engineering courses focus on project-based activities, giving you lots of opportunity to work in teams on projects from design to implementation. This will give you practical experience of applying engineering science to real world problems, working in multidisciplinary teams to develop your interpersonal skills, and prepare you for a key aspect of modern engineering practice.

You’ll also have the option of a placement during your course, either through a summer internship or year-long sandwich placement, which will provide you with the real-life skills and experience you’ll need to stand out from the crowd upon graduation. This has helped former graduates progress into roles within companies such as UTC Aerospace and Vector GB.

Year 1: In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

• Engineering Principles 1 – 20 credits

The module aims to provide the underpinning knowledge and problem solving skills in engineering science to enable you to progress to the next module in the theme, Engineering Principles II, and then on to the second year of a range of engineering degrees.

As the practical aspects of engineering science are delivered in another theme of the common first year, the Engineering Principles modules concentrate on the theoretical aspects. The subject material will be delivered in two coherent streams one of which contains predominantly mechanical science and the other contains predominantly electrical science.

• Mathematic Modelling 1 – 20 credits

Mathematics plays a key role in establishing and grounding the skills of an engineer, and the ability to communicate the ideas of engineering that are expected of an engineering graduates.

The primary aim of this module is to provide the fundamental mathematical knowledge and techniques needed in order to enable you to use and apply such mathematical techniques for the evaluation, analysis, modelling and solution of realistic engineering problems. Application of these data sets has to include their interpretation both to and from the mathematical language. In addition, this module will introduce students to mathematical modelling software package. This will be used to plot, annotate basic signals and write simple programs to compute mathematical problems.

This module will develop your ability to both work on and communicate engineering realities to a wider audience, at a professional standard.

• Engineering Practice – 20 credits

The module aims to provide the practical and professional skills to enable you to progress to the next module in the practical theme, Practical Skills II, and then on to the second year of an engineering degree. As the theoretical aspects of physical science and maths are delivered in other themes of the first year, the Practical Skills modules concentrate on the practical aspects.

The subject material will be delivered in three coherent streams one of which contains predominantly mechanical and electrical laboratory exercises, a second PC-based stream will include use of software to support project planning, communication and analysis and the third, a project space where you have the opportunity to integrate learning from across all elements of the semester.

• Engineering Principles 2 – 20 credits

The module aims to provide the underpinning knowledge and problem solving skills in engineering science to enable you to progress to the second year of a wide range of engineering degrees. As the practical aspects of engineering science are delivered in another theme of the common first year, the Engineering Principles modules concentrate on the theoretical aspects.

The subject material will be delivered in two coherent streams one of which contains predominantly mechanical science and the other contains predominantly electrical science.

• Mathematical Modelling 2 – 20 credits

This module will focus on introducing and building on well-established techniques for mathematically modelling dynamic systems (systems of interest for engineering) for contextualised engineering applications. The module will include an introduction to sophisticated signal analysis technique, Fourier series which is used to transform time-domain signals into their frequency spectra. The module is structured to include a mixture of lectures, tutorials and PC-based laboratories. The lectures will formally introduce material, in tutorials students will work through questions with tutor. The PC laboratories will involve using mathematical modelling software packages to implement mathematical operations.

• Integrated Engineering Project – 20 credits

The module aims to provide the practical and professional skills to enable you to progress on to the second year of an engineering degree. As the theoretical aspects of physical science and maths are delivered in other themes of the first year, the Practical Skills modules concentrate on the practical aspects.

 

Year 2: In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

• Mathematics for Signals and Systems – 20 credits

Information is the basic thread of life and signals are the medium by which information is passed. This module will focus on classifying and mathematical modelling of signals and systems in the context of Electrical and Biomedical engineering.

During the module analytical techniques will be introduced used to transform signals from one domain to another and vice versa. While mathematical techniques will be used and contextualised for actual system hardware.

At the end of this module you will be able to determine a systems response and their applications in electronics and Biomedical engineering.

• Analogue and Digital Electronics – 20 credits

This module introduces you to the fundamentals of analogue and digital electronics using a circuit approach. It has been designed to give you a usable level of electronics theory to demonstrate key concepts.

• Engineering Electronic Systems – 20 credits

The BEng Electronic Engineering programme is designed to produce graduates with highly developed skills both in theory and practice. This module will focus on contextualising the theory gained in Analogue and Digital electronics as well introducing embedded systems for both electronic engineering and biomedical applications.

• Leading Engineering Endeavour – 20 credits

An interdisciplinary module, you will work with students from all fields of engineering to develop skills in engineering leadership and experience creating a purposeful vision and delivering on that vision. This will set the professional skills for business in context by combining your technical course-specific knowledge with professional skills.

• Microcontroller System Design and Programming – 20 credits

The development of knowledge in analogue and digital electronics, real-time embedded systems and programming, and robotics and control is specified in the aims of the programme. Microcontroller System Design and Programming is an introduction to programming in the C language, and to hardware and software tools and techniques for embedded systems design with microcontrollers.

• Electronics Project – 20 credits

The MEng Electronic Engineering programme is designed to produce graduates with highly developed skills in electronic systems design, who will have the technical and management capability required by employers in a rapidly changing technological landscape.

The aim of this module is to integrate skills and knowledge gained from your course into one practical project. The endpoint of this project will be wheeled robot capable of competing in a robotic competition, with the intention of entering a national or international competition.

 

Year 3: In order to complete this programme a student must successfully complete all the following CORE modules (totalling 120 credits):

• Digital Filters and Spectral Analysis – 20 credits

Digital filters have numerous advantages compared to analogue filters. These filters are implemented using hardware and firmware compared to analogue filters which are implemented solely on hardware.

Successful completion of this module will allow you to be able to analyse the magnitude and phase responses of filters. Whilst this module is rich in analytical techniques and concepts, it will be contextualised at all times for practical hardware examples.

• Embedded Systems and Control – 20 credits

The MEng Electronic Engineering Programme aims to develop an understanding of the broad nature of electronic engineering through a themed approach encompassing analogue electronics, digital electronics, communications, embedded systems and business.

The aim of this module is to develop an appropriate knowledge of embedded systems such that on completion of the module you are able to specify, design, implement and test microprocessor-based hardware and software for real-time applications.

Embedded Systems and Control gives in-depth practical experience of designing and building real time embedded systems, from both hardware and software perspectives. It has been designed to provide a high level of practical embedded systems knowledge which, when combined with the digital and analogue electronics knowledge gained from underpinning and parallel modules, will produce graduate electronic engineers capable of having an immediate impact in the industry.

• Communications System and Networks – 20 credits

The module provides you with an understanding and knowledge in the principles and applications of telecommunications and information networks. The module will focus on case studies of particular applications in wired and wireless communications systems and in high speed networking. Telecommunication and networking technologies are key components of modern revolutionary technologies. This module provides you with the knowledge to understand modern communication systems and the functions of the Internet. In addition, you will gain related analytical skills that can be applied in designing modern communication systems and information networks.

• Analogue Electronics Circuits – 20 credits

This module provides an introduction to the principles of high frequency electronics and to familiarise you with the theory and application of analogue building blocks for high-frequency applications.

It will enable you to gain an in-depth understanding of power electronic devices and analysing power electronic circuits.

• Individual Honours Project – 40 credits

The purpose of the module is to enable you to undertake a sustained, in-depth and research-informed project exploring an area that is of personal interest to you. In agreement with your supervisor, you will decide upon your topic which will take the form of a practical outcome (artefact) with accompanying contextual material. The main consideration when choosing your topic is that it must be aligned to the programme you are studying, and you should consider the relevance of this topic to your future academic or professional development .

At this level, you will be expected to work independently but you will receive additional one-to-one support from your supervisor, who will be familiar with your chosen topic area. As you progress on the module, extra support will be available and this may take the form of group seminars, workshops and online materials that will help to develop your project.

Undergraduate

• We are happy to consider students with a General Secondary Education Certificate Grade C/70% PLUS Higher College of Technology Diploma with minimum grade C+ / 2.3 / 70%
• Higher qualifications may be considered for Stage 2 or Stage 3 undergraduate entry. Please contact the admissions@bcu.ac.ae team for further information.

Course Fee: AED 36,750 per year (Including tax)

Scholarships Available