MSc in Sport Performance Practice
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B.Eng in Electronic Engineering
Letterkenny
INTAKE: September
Program Overview
The Bachelor of Engineering (B.Eng) in Electronic Engineering program at Atlantic Technological University (ATU), Ireland, is designed to provide students with a comprehensive understanding of electronic systems, devices, and circuits. This program covers a wide range of topics in electronics, including analog and digital electronics, microprocessors, control systems, communication systems, and signal processing. Students learn about electronic design, simulation, testing, and troubleshooting techniques, preparing them for careers in various industries such as telecommunications, aerospace, automotive, and semiconductor manufacturing. The program emphasizes practical skills development, laboratory work, and project-based learning to ensure that graduates are well-equipped to meet the demands of the rapidly evolving field of electronic engineering.
Curriculum: The curriculum of the B.Eng in Electronic Engineering program at ATU is carefully structured to cover fundamental principles and advanced topics in electronic engineering. Core courses include electrical circuit analysis, electronic devices and circuits, digital systems design, electromagnetic theory, and control systems engineering. Students also study specialized topics such as embedded systems, VLSI design, wireless communication systems, and power electronics. Laboratory sessions and design projects complement theoretical learning, allowing students to gain hands-on experience in electronic design, testing, and troubleshooting. Elective courses offer students the flexibility to explore specific areas of interest such as robotics, renewable energy systems, nanotechnology, or biomedical electronics. The program culminates in a final-year project where students apply their knowledge and skills to solve real-world engineering problems or develop innovative electronic systems.
Research Focus: ATU is committed to fostering research and innovation in electronic engineering. The B.Eng program encourages students to engage in research activities that explore emerging technologies, applications, and challenges in the field of electronic engineering. Research areas may include IoT (Internet of Things), wireless sensor networks, digital signal processing, RF (radio frequency) engineering, and semiconductor device technology. Through research-focused coursework, independent study projects, and collaboration with faculty members, students develop critical thinking skills, research methodology, and a deeper understanding of cutting-edge technologies and their practical applications in electronic engineering.
Industry Engagement: Industry engagement is an integral part of the B.Eng in Electronic Engineering program at ATU. The university collaborates closely with electronics companies, research institutes, and government agencies to ensure that the curriculum aligns with industry needs and standards. Guest lectures, seminars, and industry visits provide students with insights into the latest trends, technologies, and practices in electronic engineering. Internship and work placement opportunities allow students to gain practical experience and build professional networks within the electronics industry. Industry-sponsored projects and collaborations provide students with opportunities to work on real-world engineering challenges and projects, enhancing their employability and readiness for the workforce.
Global Perspective: ATU promotes a global perspective in its electronic engineering program, recognizing the global nature of the electronics industry and the importance of international collaboration and exchange. The B.Eng program includes coursework that explores global engineering standards, international regulations, and cross-cultural communication in engineering practice. Opportunities for study abroad programs, international internships, and collaborative research projects with international partners expose students to diverse cultural perspectives and engineering practices from around the world. This global outlook prepares graduates to work effectively in multinational corporations, research institutions, and global engineering projects, and to contribute to technological advancements and innovation on a global scale.
Location
Letterkenny
Score
IELTS 6
Tuition Fee
€ 10500
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 or 6.5 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 70 with a minimum of 17 in each section.
- PTE: Overall score of 51 with a minimum of 49 in each section.
- DET: Overall score of 95 with no section score below 90 is required.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
Atlantic Technological University is dedicated to supporting international students in their pursuit of higher education. To this end, the university offers a range of scholarships and financial aid opportunities to help make studying in Ireland more affordable.
Merit-Based Scholarships: Atlantic Technological University offers merit-based scholarships for outstanding international students. These scholarships are awarded to students who have demonstrated exceptional academic performance and achievements.
Need-Based Financial Aid: The university provides financial aid to international students based on their financial needs. This assistance is designed to help students who may face financial challenges in pursuing their education.
Country-Specific Scholarships: Some scholarships may be available to students from specific countries. These scholarships are often established through government partnerships or institutional collaborations.
Research Scholarships: For students interested in research programs, Atlantic Technological University offers research scholarships that support research projects and endeavors. These scholarships can cover tuition fees, living expenses, and research-related costs.
Sports Scholarships: If you are a student-athlete with exceptional sporting talents, you may be eligible for sports scholarships. These scholarships can help you balance your academic and athletic pursuits.
External Scholarships: Atlantic Technological University encourages students to explore external scholarship opportunities provided by governments, foundations, and organizations in their home countries.
Graduates of the Bachelor of Engineering (B.Eng) in Electronic Engineering program from Atlantic Technological University (ATU), Ireland, are well-equipped to pursue diverse and rewarding career opportunities in the field of electronic engineering.
Electronics Engineer: Design, develop, and test electronic circuits, systems, and devices for various applications. Electronics engineers work in industries such as telecommunications, consumer electronics, automotive, aerospace, and medical devices, designing products ranging from smartphones and computers to medical imaging equipment and satellite communication systems.
Embedded Systems Engineer: Design and develop embedded systems, which are specialized computing systems embedded within larger devices or systems. Embedded systems engineers work on projects such as microcontroller-based systems, IoT (Internet of Things) devices, automotive electronics, industrial automation, and consumer electronics, developing firmware, software, and hardware components.
Signal Processing Engineer: Develop algorithms and techniques for analyzing, processing, and manipulating signals in electronic systems. Signal processing engineers work in fields such as telecommunications, audio and video processing, radar systems, medical imaging, and speech recognition, designing and implementing signal processing algorithms for real-time applications.
Control Systems Engineer: Design and implement control systems for regulating and controlling the behavior of dynamic systems. Control systems engineers work in industries such as robotics, manufacturing, automotive, aerospace, and energy systems, designing feedback control systems, PID controllers, and adaptive control algorithms to achieve desired system performance.
RF (Radio Frequency) Engineer: Design and optimize RF circuits and systems for wireless communication applications. RF engineers work in industries such as telecommunications, satellite communications, radar systems, and wireless networking, designing RF amplifiers, filters, antennas, and transceiver systems for transmitting and receiving RF signals.
Power Electronics Engineer: Design and develop power electronics systems for converting and controlling electrical power. Power electronics engineers work in industries such as renewable energy, electric vehicles, power distribution, and industrial automation, designing power converters, inverters, motor drives, and energy storage systems.
Hardware Design Engineer: Design and develop hardware components and systems for electronic devices and systems. Hardware design engineers work on projects such as PCB (Printed Circuit Board) design, FPGA (Field-Programmable Gate Array) development, ASIC (Application-Specific Integrated Circuit) design, and system-on-chip (SoC) integration, ensuring the functionality, performance, and reliability of electronic hardware.
Test Engineer: Develop test procedures and methodologies for verifying and validating electronic systems and components. Test engineers work in industries such as semiconductor manufacturing, consumer electronics, and telecommunications, designing and executing test plans, analyzing test results, and troubleshooting issues to ensure product quality and reliability.
Research and Development (R&D) Engineer: Conduct research and innovation in electronic engineering, exploring new technologies, concepts, and applications. R&D engineers work in academia, government research labs, and private industry, collaborating on projects such as advanced materials research, sensor technology development, and emerging electronics technologies.
Engineering Manager: Lead and manage engineering teams and projects in various industries. Engineering managers oversee the design, development, and implementation of electronic systems and products, coordinate cross-functional teams, manage budgets and resources, and ensure that projects are completed on time and within budget.
