Experiment for measuring AC power and the power
factor
Learn the basics of automated control by making
a robot using a programmable kit.
Perform tests for understanding the basic characteristics
of a synchronous generator
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Undergraduate
School
Electricity is indispensable in every part of peopleÕs daily lives.
Electronics are essential for the development of vehicles, communications
equipment, medical devices and many other items that make our lives
comfortable. Electrical and electronic technologies now form an important
foundation for the growth of industries, yet people involved with
these technologies are also asked to accommodate themselves to the
increasing complexity of an industrial structure under rapidly changing
social circumstances. This department aims to produce engineers and
researchers who not only satisfy these requirements but also have
excellent creativity for the electrical and electronic industries.
It covers an extensive range of study fields, both hardware and software,
from electronic component materials, such as semiconductors and magnetic
substances, to communications, electric power, control and information
processing. Many graduates go to electrical and electronics companies
each year. Because this field of industry requires more basic knowledge
than other fields, students study fundamental subjects such as math
and physics intensively in their first year. All 10 major subjects
for freshmen offer practical opportunities. Beginning in the second
semester of their second year, students can choose one of the four
courses in this department in accord with their career goal.
Graduate School
Electrical Engineering(Master's Courses)
The mission of electrical engineering is to generate and use electric
power from energy resources, while taking careful consideration
of the global environment. Information science and control engineeringÑareas
that have grown with electronicsÑare applied technology fields building
on the basics of electrical engineering. This major aims to foster
engineers with an integrated understanding of these hardware and
software aspects who also have the flexibility to accommodate knowledge
from other fields. Four major courses are offered: Electrical Characteristics,
Electrical Energy Conversion Engineering, Electrical Instrumentation
and Control Engineering, and Electrical Applied Engineering. Students
are encouraged to acquire an extensive range of academic knowledge
and flexible ways of thinking through these courses.
Electronic Engineering(Master's Courses)
Electronics are essential in a broad range of industrial fields,
with new technologies being rapidly developed, including semiconductor
integrated circuits, optic communications, space electronics and
new-generation computers. Currently, the manufacturing technology
and the principle and function of such new technologies can have
a considerable impact on conventional ideas. In response, this major
aims to produce engineers with both deep learning and creative capacity
for the 21st century. Courses of study include Fundamental Engineering
of Information Processing, Electronic Device Engineering, Communications
Instrumentation Engineering and Electronic Applied Engineering.
Electrical and Electronic
Engineering(Doctoral Course)
This doctoral course is designed to educate students to acquire
a broader spectrum of knowledge and flexible way of thinking, by
erasing the boundary between electrical and electronic engineering.
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