We are currently gathering expressions of interest for this accredited programme. If you wish to indicate your interest in enrolling, please click on ‘Express Your Interest’. Individuals who submit their interest will be contacted at least two weeks prior to the start of the course. Please note that payment of fees and formal registration will only take place once the programme is scheduled and confirmed to commence.
Course Description
Electric vehicles (EVs) are rapidly transforming the automotive industry, creating a growing demand for professionals with up-to-date knowledge of emerging transport technologies. A clear understanding of their types, principles, and impacts is essential for anyone entering this dynamic field. This unit introduces learners to the key technological, economic and social dimensions of electric and hybrid vehicles, providing a foundational understanding of this fast-evolving field.
The unit introduces learners to the key aspects of electric vehicles, tracing their development, exploring the different types of EVs currently available, focusing on their specific features, advantages, and market relevance.
Special emphasis is placed on the core components and operational principles of EV technology, including propulsion systems, energy storage, and key sub-systems. Learners will examine practical considerations such as ownership costs, charging networks, and battery life cycles. Broader implications - such as electricity demand, infrastructure needs, emissions reduction, environmental impact and end-of-life vehicle management - are thoroughly examined. In addition, students will investigate emerging technologies and anticipated future developments, including self-driving vehicles and infrastructure evolution, while reflecting on how electric mobility affects individuals, communities, and global sustainability goals.
This unit equips learners with essential knowledge and critical thinking skills to navigate the evolving field of electric mobility. By engaging with real-world case studies and industry developments, students will deepen their understanding and develop the practical, analytical skills needed to address current challenges and drive future innovation.
Overall Learning Outcomes
LO1 Identify and explain the various types of electric vehicles, including hybrids.
LO2 Recognise the underlying principles of EV operation, components, and systems.
LO3 Analyse and assess the costs, emissions, and ecological footprint associated with electric vehicles.
LO4 Examine the societal implications and future trends of electric vehicle technology.
LO5 Apply knowledge of electric vehicle technology to real-world scenarios
Method of Assessment – various
Course Description‚ This Award provides individuals with the knowledge and skills required to become a qualified VRT tester. The...
Course Description This course is intended for all those who would like to have a general idea on how light...
Course description This unit provides a comprehensive introduction to the fundamentals and practical aspects of electric vehicle (EV) battery technology...
Official application intake - 1st May 2026 till 31st July 2026 Commencement of Programme - October/November 2026 Interested applicants are...
Next course targeted for November 2026 Course Description The proposed program aims to address the increasing demand for skilled professionals...
Course Description The Electrical Vehicle Technology unit provides learners with a comprehensive introduction to the systems, components, and principles underpinning...
Course description This unit introduces students to the key concepts, technologies, and practical skills needed to service and manage electric...
Course Description:‚ This course is intended for well established motor vehicle technicians and mechanics who are not yet...
