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Electrical Engineering Course

photoThe field of Electrical and Electronic Systems based on the electro magnetic phenomena is the most fundamental and key technology to support our society and its infrastructure. Nowadays, the field is rapidly advancing and diversifying its applications by merging with high technologies including superconductivity, information and control technologies based on a new paradigm and digital technologies aiming at advanced intelligent systems. The department is composed of four divisions of Measurement and Control Engineering, Applied Energy Engineering, Superconductive Systems Engineering and Energy and Environment. The department offers advanced education and research programs in each division, not only for Master and Doctoral students but also for professional engineering trainees entrusted by industries and foreign countries.

Measurement and Control Engineering

Education and research in Measurement and Control Engineering is based on creating future measurement and control systems aiming at integrating electrical and electronic systems, control technology and information technology. Education and research includes:

  • modeling method for electrical machine control systems, power electronics control technology
  • measurement technology, such as new functional sensor based on the Josephson quantum effect
  • motion and vibration control, control methodology for hybrid system, soft computing
  • modeling and identification of electronic systems composed of various electronic equipment as well as performance assessment based on numerical system modeling

Applied Energy Engineering

Electric power and energy systems are one of the key infrastructures that support our lives and various industries including information technology. Applied Energy Engineering provides education and research concerning systems of generation, transmission, storage, control and effective use of electric and electromagnetic energy. It deals with the development, application and protection of electric and electromagnetic energy systems for future generations including a new power generation system, a superconducting electric power system, an electromagnetic energy system, a high-voltage pulsed power system, a high-power laser system, high-density and high-temperature plasma system and applied discharge system. In addition, it targets to limit the power consumption of power electronic systems, while preserving their high performance at low EMI emissions using high technology of analog/digital mixed electronic circuits.

Superconductive Systems Engineering

Superconductivity leads to key technology for advanced electric power machines and devices, which provide new energy generation, energy transmission and energy storage systems with high efficiency and high energy density in future highly intelligent societies. In addition, it will play an important role in magnetic sensors with extremely highly sensitivity and in mobile communications with high performance. Superconductive Systems Engineering offers education and research on superconductivity focusing on basic material science, analysis and evaluation techniques of electromagnetic properties and application technology of superconducting films, wires and cables.

Energy and Environment

Rising public awareness for environmental protection and continuously increasing energy consumption have created an interest in renewable sources. Due to utilizing useful renewable sources as a substitute for fossil fuels, the study of renewable power generation systems are being executed. It is possible that integration of renewable power generation systems leads to ill conditions of electric power systems. In order to maintain the stability and quality of power systems, the purpose of our research is to clarify power system dynamics and establish power system control method by renewable sources.