This programme is aimed at those with a desire to study electronics, hardware system design or electrical technology.
It provides the theoretical basis and design methods for communications, computers, programming, software engineering, control and other electronic and electrical energy systems. Practical and organisational skills are encouraged through project, design and laboratory work and through presentations and management studies.
Graduates have the knowledge and skills to enter a career in a wide range of industries, including, but not limited to, power generation and transmission, renewable energy technology, smart tech and smart cities, electric vehicles, robotics, building services, electronics and communications.
Why study Electrical and Electronic Engineering at Heriot-Watt University's Dubai Campus?
Learn how many of the electronic devices we take for granted work
Study a subject that lets you apply the principles of mathematics and physics to the real world
Learn the skills that will put you in a position to move into management roles as a professional engineer
Explore the exciting worlds of electronics, robotics, computing and power generation
Whatever your final career path, developing the ability to apply quantitative methods to solving problems — the basis of engineering — will be an invaluable asset.
First year
Develops the students’ knowledge of mathematics and physics. Introduces topics within electrical and electronic engineering and their underlying principles. The fundamentals of computers, circuit theory, programming and software engineering are introduced as tools for today’s engineers. In the practical laboratories, students are exposed to efficient ways of working, experimentation and reporting of work.
Second year
Analysis of electrical and electronic systems is taught in the second year and is backed up by laboratory exercises of a more investigative nature. Programming and software development are studied further. The design process is introduced through a set of analogue and digital project assignments. Students also study Business Awareness, Safety and Sustainability to prepare them for working in industry.
Direct entrants to second year are offered bridging courses to revise essential material from the first year.
Third year
The emphasis turns to design synthesis. Subjects such as Energy Systems, Power Electronics, Communications and Signal Processing are studied in a comparative manner from which emerge identities that help students to deepen their understanding of the subject. The process of innovation through team working is developed in small group projects that require an integrated combination of hardware and software to reach a design objective.
Fourth year
Subjects in the fourth year cover the whole spectrum of electrical and electronic engineering. The courses offered include topics such as:
Advanced Analogue Electronics
Linear Control
Microwave Techniques
Electrical Power Systems
Digital Signal Processing
Sustainable Energy and Power Systems
Industrial Power Systems
Systems Level Integration
Career
Electrical and Electronic Engineering graduates work in many sectors, including power production and transmission, transportation, building services, utilities, electronics, computing and communications. Most modern systems rely on electric power and electronic control, and this is reflected in the opportunities available to electrical and electronic engineers. Many engineers move into management positions where their numeracy and problem solving skills are valued.
Expected September 2024
Heriot-Watt University - Dubai Campus
Dubai Knowledge Park,
Dubai,
UAE
Where English was not the medium of instruction at secondary school, applicants must demonstrate English language proficiency equivalent to IELTS 6.0 Academic (with no element below 5.5).
TOEFL IBT 78 including reading 18, listening 17, speaking 20, and writing 20.
PTE Academic 50-57 with 51 in each component
Cambridge (New) 169-175
Cambridge (Old) FCE (grade B)