Electrical engineers design, develop and analyze key technological systems, like the ones that power electronics, communications and electromagnetics. In UW’s electrical engineering program, students ...

Introduction to fundamental concepts and applications of electrical engineering. Topics include: circuit analysis from dc resistive networks to networks of impedances operating in the sinusoidal ...

3 Technical electives are non-required courses numbered EECE.4xxx or EECE.5xxx. 4 Electrical Engineering students meet the Core Curriculum Essential Learning Outcome of Diversity and Cultural ...

Advanced Electives: Gain a deep understanding of computer engineering as it relates to electrical engineering. Senior Project: Work on an exciting design project that focuses on embedded systems. STEM ...

Our Master of Science in Engineering in Electrical Engineering (MSE) will deepen your knowledge in areas such as signal processing, communications, power systems and electronics. You can specialize ...

The Electrical Engineering and Computer Science (EECS) Department is committed to excellence in teaching, research, and service. Distinguished faculty conduct world-class research and their ...

This lab course introduces students to modern topics of engineering optics. Teams of students will carry out four different projects: holography, lasers, free-space optical communication, and ...

Designed in close consultation with industry, this specialist degree offers a strong foundation in electrical and electronic engineering to address the increasing demand for qualified engineers.

Advanced Courses: Choose from dynamic elective courses designed to provide a depth of understanding in robotics and robotic systems. Multidisciplinary Senior Project: Work on an exciting team-based ...

With cutting-edge curriculum, research and facilities, we combine learning with doing and theory with practice. Computer engineers integrate knowledge of hardware and software to design embedded ...