Electrical and Electronics Engineering is a multidisciplinary field that combines principles of electrical engineering and electronics to design, develop, and maintain electrical systems and devices. This course provides a comprehensive understanding of electrical circuits, electronics, power systems, control systems, and communication systems. Students will learn to apply mathematical and scientific principles to analyze, design, and troubleshoot electrical and electronic systems.

Our Electrical and Electronics Engineering qualifications have been designed in collaboration with colleges, higher education institutions, and sector skills councils. They offer a pathway for individuals to progress to university degrees and cover Diploma Level- 3 to 7.

These qualifications provide the flexibility for learners to choose from a variety of optional units at each level. This allows them to specialize in specific areas while also gaining the essential core knowledge necessary for all managers.

• Develop a solid foundation in electrical and electronics engineering principles, theories, and fundamental concepts.
• Acquire a comprehensive understanding of electrical circuits, electronic devices, power systems, control systems, and communication systems.
• Develop proficiency in using mathematical and scientific principles to analyze, design, and troubleshoot electrical and electronic systems.
• Gain hands-on experience in designing and implementing electrical and electronic circuits and systems through laboratory experiments and projects.
• Understand the principles and techniques of power generation, transmission, and distribution, including renewable energy systems.
• Develop skills in control systems design, including feedback control theory, system modeling, and industrial automation.
• Explore the principles of analog and digital communication systems, modulation techniques, wireless communication, and network protocols.
• Foster critical thinking, problem-solving, and analytical skills to solve complex engineering problems in electrical and electronics engineering.
• Enhance teamwork, communication, and project management skills through collaborative projects and assignments.
• Develop research skills and the ability to apply knowledge to conduct independent research in specialized areas of electrical and electronics engineering.

After finishing the Sustainability and Environmental Science program, individuals have the opportunity to explore diverse career avenues across multiple sectors. Potential professional pathways encompass roles such as sustainability specialist, environmental scientist, ecological researcher, climate analyst, renewable energy consultant, conservation manager, environmental policy analyst, and green technology innovator. Graduates might secure positions within environmental organizations, private enterprises, research consultancies, sustainable development firms, or governmental bodies. Moreover, they might opt to advance their education through postgraduate studies in related fields.