About Us

About Us

The undergraduate Program in the Electrical & Electronics Engineering Department welcomed its first students in September 2009.

Electrical and Electronics Engineering provides the building blocks for a wide variety of industries, from digital systems to financial technologies, from power and energy systems to communications engineering. Our department's top-notch faculty, dedicated to excellence in undergraduate education and research, guide our students as they explore topics such as circuit design, digital systems, signal processing, optics, microwave, renewable energy, and communications.

Our students are trained in an engineering culture that enables them to construct, implement and test systems that will meet the needs of the sector with the theoretical knowledge and practical skills they have gained by using research and teaching laboratories designed to support student-faculty collaboration, and is prone to teasemwork and interdisciplinary work.re

Designed to provide a solid foundation in mathematics, physics, coding, and compulsory electrical and electronics engineering courses, our curriculum provides students with the flexibility to deepen their specialization in today's high technology areas and explore advanced systems and applications through elective courses.

Özyeğin University Electrical and Electronics graduates can develop energy-efficient solutions for electronic products and devices that improve the health, safety, and quality of life of people around the world, and make their lives easier. In addition, in line with Özyeğin University's entrepreneurial university philosophy, our students gain a good command of business subjects and industry knowledge that enables establishing new technology-based companies.

Özyeğin University Electrical and Electronics Engineering Department includes Bologna standards in its structures. The undergraduate program has had the educational accreditation since 2015 by the Association for Evaluation and Accreditation of Engineering Programs (MÜDEK).

Program objectives

Our graduates will be able to:

- work as electrical & electronics engineers, researchers, or managers in national or international companies,

- pursue master's or doctoral degrees in electrical & electronics engineering, or a related field in graduate schools worldwide, and eventually hold faculty positions in academia, and

- develop new products based on advances in electrical electronics engineering and/or start new high-tech companies.

Learning Outcomes and Competences

Upon successful completion of the program, the students are expected to gain:

1. Ability to communicate effectively and write and present a report in Turkish and English.
2. Ability to work individually, and in intra-disciplinary and multi-disciplinary teams.
3. Recognition of the need for life-long learning and the ability to access information, follow developments in science and technology, and continually reinvent oneself.
4. Knowledge of project management, risk management, innovation and change management, entrepreneurship, and sustainable development.
5. Awareness of sectors and ability to prepare a business plan.
6. Understanding of professional and ethical responsibility and demonstrating ethical behavior.
7. Knowledge of engineering problems of the era, global and societal impact of engineering solutions on health, environment, and safety, and their legal consequences.
8. Knowledge of current engineering applications and standards used in engineering applications.
9. Ability to identify, formulate, and solve complex engineering problems and ability to select and apply proper analysis and modeling methods for this purpose.
10. Ability to design a complex system, process, device, or product to meet desired needs within realistic constraints and conditions by employing modern design tools.
11. Ability to develop, select and employ modern techniques and tools and use information and communication technologies needed for engineering practice.
12. Ability to design and conduct experiments, gather data, and analyze and interpret results for investigating engineering problems and research topics.
13. Adequate knowledge in mathematics, natural sciences, and subjects pertaining to electrical and electronics engineering and the ability to use this knowledge to solve complex engineering problems.
14. Knowledge of advanced mathematics including differential equations, integral calculus, linear algebra, complex variables, and discrete mathematics.
15. Knowledge of mathematics, natural sciences, computer science, and engineering sciences necessary to analyze and design complex electrical and electronic devices, software, and systems containing hardware and software components.
16. Knowledge of probability and statistics including electrical and electronics engineering applications.
17. The breadth of knowledge in electrical and electronics engineering encompassing circuit design, digital systems, electronics, electromagnetics, signal processing, and communications.
18. Depth of knowledge in one of the electrical and electronics engineering areas of signal processing and communications, analog electronics and optics, power and energy systems, or digital systems and software.