Department of Electrical Engineering

Degree

Bachelor/Master/Ph.D.


About us

The Department of Electrical Engineering was founded in 1963. The mission of the department is to provide EE students with a fundamental understanding of electrical engineering built on a foundation of physics, mathematics, and computing. Undergraduates are expected to acquire the experimental, design, and communication skills needed for continued study at the graduate level or for the practice of electrical engineerings. Our curriculum offers a number of specialization areas, including microelectronics, VLSI, control systems, power systems, computer networking and security, computer architecture and digital systems, electromagnetics, communications and signal processing, and electro-optical Engineering.
The graduate program offers degrees leading to either a M.S. or Ph.D. in EE, providing students with advanced coursework, in-depth training, and research opportunities in several fields. Both undergraduate and graduate programs are accredited by the Engineering Accreditation Criteria of IEET (Institute of Engineering Education Taiwan Accreditation Council).

Features

  • The department stresses hands-on experience in learning. Right from the first semester, undergraduates take at least one lab course each semester. Each lab is instructed by at least two devoted faculty members, not by teaching assistants.
  • The senior project is required for every undergraduate. Students are encouraged to team up and explore in this capstone course. To make sure every student receives a proper guidance, all faculty members are obligated to participate in the senior project.

Primary Research Areas

Microelectronics and VLSI:
analog, RF, digital and mixed-signal ICs, architecture, embedded systems.
Control Systems:
fuzzy systems and their applications, intelligent control, robotic systems, neural networks and their applications, hybrid models of neural network and fuzzy.
Electric Power and Energy Systems:
power systems and power electronics, renewable energy, smart grid, cogeneration, energy efficiency, power system analysis, power quality, power industry deregulation, and power converter applications.
Electro-optical Engineering:
nano-photonics technology in surface plasma sensors, fiber-optics bio-sensors, high speed vacuum microelectronics with carbon nanotube and grapheme emitter, and advance thin film transistor for display applications by rapid thermal annealing of polycrystalline silicon.
Antenna and Microwave:
antenna design, EMI measurement, RFID, bio-electromagnetic application and high-speed interconnect, etc.


Core Courses

Undergraduate:
Introduction to computer, programming, logic design, logic design experiments, electric circuits(I)(II), electronics(I)(II), electromagnetics(I)(II), electrical engineering laboratory, programming laboratory, electrical and electronic circuits laboratory, project laboratory, differential equation, linear algebra, Fourier analysis and its applications, probability and statistics, signals and systems, integrated circuit design, microprocessor applications, computer architecture, introduction to electrical machinery, control system design, integrated circuit design, digital signal processing.

Graduate:
Modern filter design, introduction to embedded system, digital electronic circuits, RFIC design, analog integrated circuits, introduction to VLSI, mixed-signal IC design. Fuzzy theory and applications, control system design, numerical methods, multivariable linear systems, robotic systems, adaptive control, system identification, optimal control. Electrical power distribution for industry, power system analysis, power electronics, power system operation and control, switching power supply, smart power grid. Electro-optical engineering, solid-state electronic device and physics, modern optics, laser optics, display technology, IC process technology, thin-film technology and nano-technology.

 

Contact


TEL:+886-2-21822928 ext. 6389
Web site: http://eettu.ttu.edu.tw
Email: fchen@gm.ttu.edu.tw