MSc Business Management (Entrepreneurship)
The MSc Business Management program with a focus on Entrepreneurship at Edinburgh Napie...
BEng/BEng (Hons) Electronic & Electrical Engineering
Edinburgh
INTAKE: September
Program Overview
The BEng/BEng (Hons) Electronic & Electrical Engineering program at Edinburgh Napier University offers a comprehensive education in the principles, theories, and applications of electronic and electrical engineering. Through a combination of theoretical coursework, practical laboratory sessions, and hands-on projects, students develop a deep understanding of electronic systems, devices, and circuits, as well as the fundamentals of electrical power systems and renewable energy technologies. With a focus on innovation, problem-solving, and industry-relevant skills, students learn to design, analyze, and optimize electronic and electrical systems for a wide range of applications, from consumer electronics and telecommunications to energy generation and distribution. The program emphasizes the integration of theoretical knowledge with practical experience, preparing graduates for successful careers in the rapidly evolving fields of electronics, electrical engineering, and related industries.
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Fundamentals of Electronics: Students explore the fundamental principles of electronics, including semiconductor devices, analog and digital circuits, and signal processing techniques. They learn about the behavior and characteristics of electronic components such as diodes, transistors, and operational amplifiers, and study circuit analysis methods for analyzing and designing electronic circuits. Through hands-on laboratory experiments and design projects, students gain practical experience in constructing, testing, and troubleshooting electronic circuits, developing essential skills in circuit prototyping, soldering, and measurement techniques.
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Digital Systems Design: The program covers digital systems design, focusing on the design and implementation of digital logic circuits, processors, and embedded systems. Students learn about Boolean algebra, logic gates, flip-flops, and sequential logic circuits, and explore design methodologies for building complex digital systems. They study programming languages such as Verilog and VHDL for hardware description and simulation, and gain experience in designing and programming microcontroller-based systems for real-world applications. Students also explore topics such as computer architecture, memory systems, and input/output interfaces, understanding how digital systems interface with the physical world.
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Electrical Power Systems: Students delve into the principles and practices of electrical power systems, studying topics such as power generation, transmission, distribution, and utilization. They learn about different types of power generation technologies, including conventional fossil fuel-based generators and renewable energy sources such as solar, wind, and hydroelectric power. Students analyze the operation and performance of electrical power networks, considering factors such as load balancing, voltage regulation, and power factor correction. They also explore emerging trends in smart grid technology, energy storage systems, and microgrid architectures, understanding how advancements in power systems engineering are shaping the future of energy sustainability and resilience.
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Control Systems Engineering: The program introduces students to the principles of control systems engineering, focusing on the analysis and design of feedback control systems for regulating and optimizing the behavior of dynamic systems. Students study concepts such as feedback control theory, stability analysis, and controller design techniques, and learn how to model, simulate, and analyze the behavior of linear and nonlinear control systems. They explore applications of control systems in various engineering domains, including robotics, automotive systems, aerospace, and industrial automation, understanding how control theory is applied to improve system performance, efficiency, and reliability.
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Professional Skills and Industry Practices: The program emphasizes the development of professional skills and industry practices essential for success in the engineering profession. Students learn about engineering ethics, standards, and regulations, and gain an understanding of the social, economic, and environmental impacts of engineering decisions. They develop skills in project management, teamwork, and communication, collaborating with peers on group projects and engaging with industry partners on real-world engineering challenges. Students also have opportunities for internships, placements, and industry-sponsored projects, gaining valuable work experience and networking with professionals in the engineering industry.
Location
Edinburgh
Score
IELTS: 6
Tuition Fee
£ 17580
Entry requirements for Undergraduate Programs
Academic Qualifications: International students applying for undergraduate programs are required to have a minimum academic qualification of 65% or above in their high school or equivalent qualification.
English Language Proficiency:
- IELTS: A minimum overall score of 6.0, with no individual component score below 5.5.
- TOEFL: A minimum overall score of 80, with a minimum score of 17 in each component.
- PTE: A minimum overall score of 56, with no individual score below 51.
These scholarships provide opportunities for talented students to pursue their studies at Edinburgh Napier University.
Global Scholarships:Edinburgh Napier University offers Global Scholarships for international students enrolling in full-time undergraduate or postgraduate programs.The Global Undergraduate Scholarship provides a deduction of £3,000 from the tuition fees for the first year of study.The Global Postgraduate Scholarship provides a deduction of £3,000 from the tuition fees for the first year of study.These scholarships are competitive and awarded based on academic merit, so students with excellent academic achievements have a higher chance of being awarded the scholarship.
Country-Specific Scholarships:Edinburgh Napier University also offers scholarships specific to certain countries or regions.These scholarships are designed to attract students from specific countries or regions and may provide financial support towards tuition fees or living expenses.The eligibility criteria and application process may vary for each country-specific scholarship, so interested students should visit the university's official website for detailed information.
Alumni Scholarships:Edinburgh Napier University offers scholarships exclusively for its alumni who wish to pursue further studies at the university.These scholarships are aimed at recognizing and supporting the university's graduates and providing them with opportunities to advance their education.The specific eligibility criteria and benefits of the alumni scholarships may vary, so interested students are encouraged to contact the university's alumni office or visit the official website for more information.
External Scholarships:Edinburgh Napier University provides information and guidance on external scholarships that international students may be eligible to apply for.These scholarships are offered by external organizations, governments, or foundations and are open to students from various countries or specific fields of study.The university's website and scholarship databases provide comprehensive information on external scholarships, including eligibility criteria, application deadlines, and application procedures.
It is important to note that scholarship availability, eligibility criteria, and application deadlines may vary from year to year.
Graduating with a BEng/BEng (Hons) in Electronic & Electrical Engineering from Edinburgh Napier University opens up a world of exciting career opportunities in various industries. The BEng/BEng (Hons) Electronic & Electrical Engineering program at Edinburgh Napier University provides graduates with a solid foundation in engineering principles, practical skills, and industry-relevant knowledge that prepares them for successful careers in diverse and dynamic industries.
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Electronics Design Engineer: Graduates can pursue careers as electronics design engineers, designing and developing electronic circuits, systems, and devices for a wide range of applications. They work in industries such as consumer electronics, telecommunications, automotive, aerospace, and healthcare, designing products such as smartphones, medical devices, automotive control systems, and IoT devices. Electronics design engineers use their knowledge of analog and digital electronics, circuit design, and PCB layout to create innovative solutions that meet performance, cost, and reliability requirements.
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Electrical Power Engineer: Graduates can work as electrical power engineers, specializing in the design, operation, and maintenance of electrical power systems and infrastructure. They work in industries such as energy generation, transmission, distribution, and renewable energy, designing and optimizing power generation plants, substations, transmission lines, and distribution networks. Electrical power engineers may also work for utilities, government agencies, consulting firms, or renewable energy companies, contributing to the development of sustainable energy solutions and grid modernization initiatives.
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Control Systems Engineer: Graduates can pursue careers as control systems engineers, designing and implementing feedback control systems for regulating the behavior of dynamic systems. They work in industries such as robotics, automation, aerospace, automotive, and manufacturing, developing control algorithms and software for applications such as robotic manipulators, autonomous vehicles, industrial processes, and smart home systems. Control systems engineers use their knowledge of control theory, signal processing, and system dynamics to design controllers that improve system performance, stability, and efficiency.
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Renewable Energy Engineer: Graduates with an interest in sustainable energy can work as renewable energy engineers, designing and implementing renewable energy systems and technologies. They work in industries such as solar, wind, hydroelectric, and biomass energy, designing solar PV arrays, wind turbines, hydroelectric dams, and biofuel production facilities. Renewable energy engineers may work for energy companies, engineering firms, government agencies, or environmental organizations, contributing to the transition to clean and renewable energy sources and reducing carbon emissions.
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Telecommunications Engineer: Graduates can pursue careers as telecommunications engineers, designing and optimizing communication networks, systems, and services. They work in industries such as telecommunications, networking, and information technology, designing cellular networks, fiber optic systems, satellite communication systems, and Internet infrastructure. Telecommunications engineers may work for telecom operators, equipment manufacturers, research institutions, or government agencies, contributing to the development of next-generation communication technologies and services.
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Research and Development (R&D) Engineer: Graduates with a passion for innovation and technology can work as R&D engineers, conducting research and development activities to create new products, technologies, and solutions. They work in industries such as electronics, automotive, aerospace, and healthcare, conducting experiments, simulations, and prototyping to explore new ideas and concepts. R&D engineers may work for companies, universities, research institutes, or government laboratories, pushing the boundaries of technology and driving innovation in their respective fields.
