Electronics Engineering

The Bachelor of Science in Electronics Engineering at Simon Fraser University is a comprehensive program designed to prepare students for a dynamic and evolving field that plays a vital role in modern technology. This undergraduate degree combines theoretical foundations with practical applications to equip graduates with the skills necessary to design, develop, and analyze electronic systems used in diverse industries such as telecommunications, robotics, consumer electronics, aerospace, and more. The curriculum covers core areas including circuit analysis, digital systems, signal processing, microelectronics, control systems, embedded systems, and communications. Students gain hands-on experience through laboratory work, projects, and cooperative education opportunities that foster real-world problem-solving abilities and industry readiness. The program emphasizes a multidisciplinary approach, integrating principles of physics, mathematics, and computer science to address complex engineering challenges. Faculty members are engaged in cutting-edge research, providing students with exposure to the latest technological advancements. The program also encourages innovation and entrepreneurship, preparing graduates for careers in engineering design, research and development, manufacturing, and technical management. With state-of-the-art laboratories, modern facilities, and strong industry ties, the Electronics Engineering program at Simon Fraser University aims to produce well-rounded, highly skilled engineers capable of contributing to technological progress and societal development. Graduates will be well-positioned to pursue advanced studies or immediate employment in various sectors, making a meaningful impact in the rapidly advancing world of electronics engineering.

The Bachelor of Applied Science (BASc) in Electronics Engineering at Simon Fraser University offers students a comprehensive and cutting-edge curriculum designed to prepare them for diverse careers in the rapidly evolving field of electronic systems and devices. This program combines foundational principles of electrical engineering with specialized knowledge in electronics, embedded systems, communication technologies, and signal processing. Students gain a solid understanding of circuits, microprocessors, digital systems, and power electronics, coupled with hands-on laboratory experience and project-based learning to develop practical skills.

Throughout the program, students explore advanced topics such as integrated circuit design, wireless communication, control systems, and robotics. The curriculum emphasizes both theoretical understanding and real-world application, ensuring graduates are well-equipped to innovate and adapt in industries like telecommunications, consumer electronics, aerospace, and industrial automation. The program also highlights sustainability and ethical considerations in engineering, preparing students to develop responsible technological solutions.

Additionally, the Electronics Engineering program provides opportunities for co-op work placements, enabling students to gain valuable industry experience and professional networks before graduation. Research projects and collaborations with industry partners allow students to engage in cutting-edge technological developments, fostering critical thinking and problem-solving abilities. Focused laboratory courses and design projects cultivate skills in teamwork, project management, and effective communication.

The faculty at Simon Fraser University includes leading researchers and practitioners in electronics engineering, providing students mentorship and exposure to the latest innovations and trends. State-of-the-art laboratories and facilities support experiential learning and experimentation. Graduates of this program are prepared for dynamic careers in engineering design, research and development, system integration, and technological entrepreneurship. They are also well-positioned to pursue graduate studies or professional certifications in electrical and electronics engineering fields. The program reflects Simon Fraser University’s commitment to excellence, innovation, and preparing students for impactful careers in the global electronics industry.

Program Requirements for Bachelor of Science in Electronics Engineering at Simon Fraser University

The Bachelor of Science in Electronics Engineering is designed to provide students with a comprehensive understanding of electronic circuit design, digital systems, signal processing, and communications technology. To graduate, students must complete a total of approximately 120 units, including core courses, electives, and a capstone project. The program emphasizes both theoretical knowledge and practical skills, preparing graduates for careers in industry, research, or advanced study.

Students are required to successfully complete foundational courses in mathematics and sciences in their first year, including Calculus I and II, Differential Equations, Physics for Engineers, and basic Chemistry. Following this, in the second year, students delve into core electronics courses such as Circuit Analysis, Digital Logic Design, Electromagnetics, and Signals and Systems. These courses lay the groundwork for understanding complex electronic systems and are often complemented by laboratory components to ensure practical competence.

In the third year, students expand their expertise with advanced courses in Microprocessors, Embedded Systems, Analog Electronics, and Power Electronics. They are also encouraged to enroll in elective courses within the Department of Engineering Science or related fields, such as Communications Systems, Signal Processing, and Control Systems. To fulfill graduation requirements, students must also participate in a capstone design project during their final year, which involves applying their accumulated knowledge to real-world engineering problems, often in teams.

Experimental and hands-on experience is integral to the program; therefore, students must complete laboratory courses associated with their theoretical classes. Additionally, cooperative education (co-op) opportunities are available, allowing students to gain paid industry experience, which is highly recommended to enhance employability post-graduation.

Throughout the program, students are expected to develop skills in technical communication, teamwork, and ethical engineering practices. Graduates will have met the academic requirements for Professional Engineer (P.Eng.) certification by fulfilling the necessary coursework and gaining relevant work experience, in accordance with Engineers Canada standards.

In summary, the Electronics Engineering program at Simon Fraser University demands successful completion of rigorous coursework, practical laboratory work, participation in team-based projects, and optional industry internship placements, ensuring graduates are well-equipped for professional engineering roles or graduate studies.

Funding options for the Bachelor of Science in Electronics Engineering at Simon Fraser University include a variety of financial aid programs designed to support students throughout their studies. Scholarships are available based on academic achievement, leadership, and other criteria, with some awards specifically targeting students in engineering disciplines. Entrance scholarships are awarded automatically to high-achieving applicants, while ongoing scholarships may require separate applications. Additionally, students can access government financial aid programs such as Canada Student Grants and Loans, which provide needs-based support to eligible students. SFU also offers work-study opportunities, allowing students to gain practical work experience while earning income to offset educational expenses. Graduate students pursuing advanced degrees in electronics or related fields may also be eligible for teaching assistantships, research assistantships, and fellowships, which provide both funding and professional development opportunities. Private sector sponsorships and industry partnerships occasionally offer bursaries and internships for students demonstrating academic excellence and interest in electronics engineering. International students should explore scholarship options specific to international applicants, which may cover partial or full tuition fees. Students are encouraged to consult SFU's Financial Aid and Awards Office for comprehensive guidance on available funding sources, application procedures, and deadlines. It is essential for students to prepare a strong application to maximize their chances of receiving financial support. Overall, the university's broad range of financial aid programs aims to make electronics engineering education accessible and affordable, enabling students to focus on their academic and professional development without undue financial burden.

The Bachelor of Applied Science in Electronics Engineering at Simon Fraser University offers students a comprehensive education in the design, development, and application of electronic systems. This program is typically structured to provide a strong foundation in engineering principles, including circuit analysis, digital systems, electromagnetics, and signal processing. Students engage in both theoretical coursework and practical laboratory experiences, enabling them to translate engineering concepts into real-world solutions. The curriculum often emphasizes hands-on training through projects, internships, and co-op opportunities, fostering industry readiness.

Electronics Engineering at SFU aims to prepare graduates for careers in a variety of sectors such as telecommunications, consumer electronics, aerospace, and automation. The program may include courses in microprocessors, embedded systems, power electronics, control systems, and communication systems, ensuring students gain broad and specialized knowledge in the field. Collaboration with industry partners and research institutions enhances the learning experience, providing students with exposure to current technological advancements and industry standards.

Students are encouraged to participate in research projects or pursue internships to gain practical experience and build professional networks. The program typically equips graduates with skills in problem-solving, design, testing, and implementation of electronic devices and systems. Upon completing the program, students are well-positioned to pursue careers as electronics engineers, systems designers, or to continue their education through graduate studies. The program maintains a strong emphasis on innovation, sustainability, and ethical considerations in engineering practices, aligning with the evolving needs of industry and society.