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BEng Electrical and Electronic Engineering with a Year in Industry
Cardiff
INTAKE: September
Program Overview
The BEng Electrical and Electronic Engineering with a Year in Industry program at Cardiff University provides students with a comprehensive education in electrical and electronic engineering, combined with the invaluable experience of a year-long industry placement. This integrated program allows students to apply their academic learning in real-world settings, enhancing their employability and providing practical skills that are highly valued by employers. The program covers fundamental engineering principles in areas such as circuit design, telecommunications, power systems, and control systems, while also offering an opportunity to gain hands-on experience in the industry. Upon completing the program, graduates are equipped with the knowledge and practical expertise needed to pursue a wide range of careers in electrical and electronic engineering.
Curriculum: The curriculum of the BEng Electrical and Electronic Engineering with a Year in Industry program at Cardiff University is designed to provide students with a solid foundation in the core principles of engineering. The first two years focus on building technical knowledge in areas such as circuit theory, electronics, mathematics for engineers, and digital systems. As students progress, they move into more specialized areas like control systems, renewable energy technologies, and advanced electronics. In the third year, students participate in a year-long industry placement, gaining valuable real-world experience by working with industry leaders in areas such as power systems, telecommunications, and embedded systems. The final year of the program allows students to complete a major individual project, applying their theoretical knowledge to solve practical engineering problems.
Research Focus: Cardiff University’s BEng Electrical and Electronic Engineering with a Year in Industry program is rooted in cutting-edge research, with a focus on areas such as smart grids, renewable energy, telecommunications, and microelectronics. The program integrates the latest research developments into the curriculum, ensuring that students are exposed to the most current advancements in electrical and electronic engineering. The university's strong emphasis on research allows students to engage with topics such as sustainable energy solutions, energy-efficient technologies, and emerging trends in electronics and communications. The research-oriented approach not only enhances students' learning experience but also prepares them to contribute to innovation and technological progress in the engineering field.
Industry Engagement: One of the standout features of the BEng Electrical and Electronic Engineering with a Year in Industry program at Cardiff University is the opportunity for students to gain direct industry experience. The program includes a year-long industry placement, where students work with leading engineering companies on real-world projects. This placement provides invaluable exposure to the day-to-day operations of the engineering industry, enabling students to develop practical skills in areas such as project management, teamwork, and technical problem-solving. Cardiff University has established strong links with a wide range of industry partners, ensuring that students have access to high-quality placement opportunities in sectors like electrical power, telecommunications, and electronics. The hands-on experience gained during the industry year significantly enhances students' employability upon graduation.
Global Perspective: The BEng Electrical and Electronic Engineering with a Year in Industry program at Cardiff University takes a global approach to engineering education. The curriculum incorporates international perspectives on engineering challenges and solutions, particularly in areas such as sustainable energy, telecommunications, and smart technologies. Students are encouraged to consider the global impact of their work, with a focus on addressing global challenges such as climate change, resource management, and urbanization. Cardiff University also offers opportunities for students to participate in international exchange programs, where they can gain exposure to different engineering practices and cultures. This global outlook ensures that graduates are prepared to work in diverse international settings and contribute to solving global engineering problems.
Location
Cardiff
Score
IELTS 6.5
Tuition Fee
£ 28200
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 80% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 5.5.
- TOEFL: A minimum overall score of 90.
- PTE Academic: A minimum overall score of 69.
- Some programs may have specific subject prerequisites or additional requirements.
Cardiff University offers a range of scholarships to support international students pursuing undergraduate studies. These scholarships are designed to attract high-achieving students from around the world, easing the financial burden and recognizing academic excellence.
Vice-Chancellor’s International Scholarship: Cardiff University’s Vice-Chancellor’s International Scholarship is a merit-based award that provides partial funding for exceptional international undergraduate and postgraduate students. This scholarship rewards high academic achievement and study, making it ideal for students with strong academic backgrounds.
Chevening Scholarship: Offered in collaboration with the UK government, the prestigious Chevening Scholarship is available to international students who demonstrate leadership potential and academic excellence. The award covers tuition fees, living expenses, travel costs, and other allowances, supporting future leaders and influencers in various fields.
British Council GREAT Scholarships: Cardiff University partners with the British Council to offer the GREAT Scholarships for students from specific countries, including China, India, Malaysia, and Thailand. These scholarships provide financial assistance for tuition fees and are intended to encourage bright students to pursue postgraduate studies in the UK.
Subject-Specific Scholarships: Certain academic departments at Cardiff University offer additional scholarships tailored to specific fields of study, such as engineering, business, and life sciences. These scholarships provide partial funding and are aimed at attracting talented students to specific programs.
International Foundation Programme Scholarships: For international students who need to complete a foundation year before beginning an undergraduate degree, Cardiff University offers scholarships to cover part of the foundation year tuition fees. This scholarship supports students in their transition to full-time degree programs at the university.
Financial Aid and External Scholarships: In addition to Cardiff University scholarships, students can explore external funding options such as loans, grants, and scholarships provided by their home countries or private organizations. The university’s financial aid office offers guidance to help students find external financial support.
Graduates of the BEng Electrical and Electronic Engineering with a Year in Industry program at Cardiff University are well-equipped for a wide range of careers in the engineering and technology sectors. The inclusion of a year-long industry placement provides students with practical experience that enhances their employability and positions them as highly competitive candidates in the job market.
Electrical Engineer: As an electrical engineer, graduates work on designing, testing, and maintaining electrical systems and equipment. They may focus on power generation, electrical distribution, or designing the electrical components of machines and systems used across industries like energy, transport, and manufacturing.
Electronics Engineer: Electronics engineers specialize in the design and development of electronic systems and devices such as microprocessors, integrated circuits, and communication systems. They can work in diverse industries, including consumer electronics, telecommunications, and aerospace.
Control Systems Engineer: Graduates may pursue careers as control systems engineers, where they develop and implement systems to manage and automate industrial processes. This role can involve working with automation systems in sectors such as manufacturing, robotics, and automotive industries.
Telecommunications Engineer: With a focus on communication systems, telecommunications engineers design, implement, and maintain systems for transmitting information. This can involve mobile networks, satellite communications, and internet infrastructure, offering opportunities to work with major tech companies and telecom service providers.
Power Systems Engineer: Graduates may specialize in power systems engineering, focusing on the generation, transmission, and distribution of electrical power. They design and optimize electrical grids and renewable energy systems, playing an essential role in sustainable energy projects and infrastructure development.
Renewable Energy Engineer: With increasing global demand for clean energy, renewable energy engineers focus on designing and implementing systems for solar, wind, hydro, and other renewable energy sources. They work on integrating these technologies into the grid, advancing sustainable solutions to meet global energy needs.
Embedded Systems Engineer: This role involves designing and developing embedded systems—computer systems within other devices, such as home appliances, medical devices, and automotive systems. Embedded systems engineers are needed across industries such as healthcare, automotive, and consumer electronics.
Project Engineer/Manager: Graduates can work as project engineers or managers, leading teams to deliver engineering projects from concept to completion. This role involves managing timelines, budgets, and resources, ensuring successful project delivery in industries such as construction, energy, and manufacturing.
Product Development Engineer: Graduates pursuing careers in product development will be involved in creating new products, from initial design to testing and production. This role involves innovation, prototyping, and market research, working with companies that manufacture electronics, energy products, and more.
Research and Development Engineer: For those with a passion for innovation, a career in R&D offers the opportunity to work on developing new technologies and improving existing ones. Graduates may engage in cutting-edge research in areas such as renewable energy, telecommunications, and robotics, contributing to technological advancements.
Automation Engineer: Automation engineers specialize in designing systems that automate industrial processes. This can involve programming and maintaining systems that increase efficiency, improve safety, and reduce costs across sectors like manufacturing, automotive, and logistics.
Systems Engineer: Systems engineers work on the design and integration of complex systems, ensuring that all components work together efficiently. They are critical in industries such as telecommunications, aerospace, and defense, where system reliability and coordination are essential.
Engineering Consultant: Some graduates may choose to become engineering consultants, offering expert advice on electrical and electronic systems to businesses, government organizations, or industries. Consultants work on optimizing existing systems or advising on the implementation of new technologies.
Academic/Teaching Roles: Graduates who are passionate about academia can pursue teaching careers in electrical engineering or related fields. They may also engage in research, contribute to the academic community, and mentor the next generation of engineers at universities or technical institutions.
