MSc Accounting and Banking
The MSc Accounting and Banking program at Bangor University is designed to equip studen...
BSc (Hons) Electronic Engineering
Bangor
INTAKE: September
Program Overview
Situated in the picturesque town of Bangor in North Wales, UK, Bangor University offers a distinguished BSc (Hons) Electronic Engineering program. This undergraduate degree is designed to equip students with the knowledge and practical skills needed to excel in the field of electronic engineering. The program covers a wide range of topics, from fundamental principles to advanced technologies, preparing students for careers in various industries, including telecommunications, renewable energy, and robotics.
Curriculum: The curriculum of the BSc (Hons) Electronic Engineering program at Bangor University is carefully crafted to provide students with a comprehensive understanding of electronic systems and devices. Core modules cover subjects such as circuit theory, digital electronics, signal processing, and microprocessor systems. Students also have the opportunity to specialize in areas such as communications engineering, power electronics, or embedded systems through elective modules. Practical laboratory work, projects, and design exercises complement theoretical learning, allowing students to apply their knowledge and develop hands-on skills essential for professional practice.
Research Focus: Bangor University is committed to research excellence in electronic engineering and related fields. Faculty members and researchers are engaged in cutting-edge research projects spanning areas such as wireless communications, renewable energy systems, sensor technologies, and microelectronics. Students enrolled in the BSc (Hons) Electronic Engineering program have the opportunity to engage with research through seminars, workshops, and collaborative projects with faculty members. This research-focused environment exposes students to the latest advancements in the field and fosters critical thinking, problem-solving skills, and innovation.
Industry Engagement: The BSc (Hons) Electronic Engineering program at Bangor University emphasizes industry engagement as a vital component of students' learning experiences. The university has established partnerships with leading companies, technology firms, and engineering organizations to provide students with opportunities for internships, work placements, and industry projects. Through these collaborations, students gain practical experience, industry insights, and professional networking opportunities that enhance their employability and readiness for the workforce. Additionally, guest lectures, industry seminars, and site visits provide students with exposure to real-world engineering practices and challenges, preparing them for successful careers in the industry.
Global Perspective: Bangor University's BSc (Hons) Electronic Engineering program offers students a global perspective on electronic engineering by exploring international trends, standards, and applications in the field. Modules cover topics such as global telecommunications networks, international standards for electronics design, and cross-cultural considerations in engineering projects. The university's international collaborations, exchange programs, and multicultural student body contribute to a diverse learning environment, preparing students to work effectively in multicultural and multinational settings and contribute to global engineering initiatives.
Location
Bangor
Score
IELTS 6
Tuition Fee
£ 17500
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 65% or equivalent in their respective country's grading system.
English Language Proficiency:
- IELTS: A minimum overall score of 6.0 with no individual component below 5.5.
- Some programs may have specific subject prerequisites or additional requirements.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It is important to note that entry requirements may vary across different programs and courses. Additionally, meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as the number of available places and competition for certain courses.
Bangor University offers a range of scholarships and financial support options to both domestic and international students. These scholarships aim to recognize and reward academic excellence, as well as support students from diverse backgrounds.
Vice-Chancellor Scholarships: These scholarships are awarded to exceptional students who have demonstrated outstanding academic achievements. They are available for undergraduate and postgraduate students across various disciplines.
Country-specific Scholarships: Bangor University offers scholarships specifically for students from certain countries or regions. These scholarships may have different eligibility criteria and application processes. Examples include the India Scholarships, Nigeria Scholarships, and Vietnam Scholarships.
Bangor International Scholarships: These scholarships are available for international students pursuing undergraduate or postgraduate studies. They are based on academic merit and can significantly contribute towards tuition fees.
Sport Scholarships: Bangor University offers scholarships for talented athletes who excel in sports. These scholarships provide financial support, training opportunities, and access to sports facilities.
Alumni Scholarships: Bangor University offers scholarships exclusively for its alumni who wish to pursue further studies at the university. These scholarships aim to encourage ongoing education and support the university's graduates.
Graduates of Bangor University's BSc (Hons) Electronic Engineering program possess a diverse skill set and are well-equipped to pursue rewarding careers in various sectors of the engineering industry.
Electronics Engineer: Graduates can work as electronics engineers, designing, testing, and maintaining electronic systems and components for various applications. Electronics engineers work in industries such as telecommunications, consumer electronics, automotive, aerospace, and healthcare, developing innovative solutions and improving existing technologies.
Telecommunications Engineer: Those interested in telecommunications can pursue careers as telecommunications engineers, designing and optimizing communication networks, including wired and wireless systems, mobile networks, and internet infrastructure. Telecommunications engineers work for telecommunications companies, network providers, government agencies, and technology firms, ensuring reliable and efficient communication services.
Embedded Systems Engineer: Graduates can work as embedded systems engineers, designing and programming embedded systems for a wide range of applications, including industrial automation, automotive electronics, medical devices, and consumer electronics. Embedded systems engineers develop firmware, design hardware interfaces, and optimize system performance for specific applications.
Power Electronics Engineer: Those with an interest in power electronics can work as power electronics engineers, designing and developing power conversion systems, motor drives, renewable energy systems, and electric vehicle components. Power electronics engineers work in industries such as energy, transportation, renewable energy, and power generation, contributing to the development of sustainable energy solutions.
Control Systems Engineer: Graduates can pursue careers as control systems engineers, designing and implementing control systems for automated processes, robotics, manufacturing systems, and industrial machinery. Control systems engineers develop algorithms, design control loops, and implement feedback systems to regulate and optimize system performance.
RF Engineer: Those interested in radio frequency (RF) and microwave engineering can work as RF engineers, designing and testing RF circuits, antennas, and wireless communication systems for applications such as satellite communication, radar systems, and wireless networks. RF engineers work for telecommunications companies, defense contractors, aerospace companies, and research institutions.
Hardware Design Engineer: Graduates can work as hardware design engineers, designing electronic circuits, printed circuit boards (PCBs), and integrated circuits (ICs) for electronic devices and systems. Hardware design engineers use computer-aided design (CAD) tools to develop schematics, layout designs, and prototypes, ensuring compliance with performance specifications and industry standards.
Test Engineer: Those with strong problem-solving skills can work as test engineers, designing and conducting tests to validate the performance, reliability, and safety of electronic products and systems. Test engineers develop test plans, design test fixtures, and analyze test results to identify and resolve issues during product development and manufacturing processes.
Research and Development (R&D) Engineer: Graduates can work as R&D engineers, conducting research, designing prototypes, and developing innovative technologies in areas such as robotics, sensor systems, medical devices, and renewable energy. R&D engineers work for technology companies, research institutions, government agencies, and startups, driving innovation and technological advancement.
Project Manager: Those with strong leadership and communication skills can pursue careers as project managers, overseeing engineering projects from conception to completion, including planning, budgeting, scheduling, and coordination of resources. Project managers work in various industries, managing engineering projects such as product development, system integration, and infrastructure upgrades.
