Electrical and Electronics Engineering Program, Kagoshima University

Electrical and Electronics Engineering ProgramKagoshima University

Overview

Outline of Electrical and Electronics Engineering Program

Our educational goal is to train students in the basic technologies of electrical and electronics engineering and their application and to nurture engineers/researchers so that they will maintain the high standards of engineering ethics required to be able to contribute to the advent of an advanced information society where creativity abounds. Our educational objective is to nurture the following human resources by further improving the educational program inherited from the Electrical and Electronics Program, Department of Advanced Engineering, Faculty of Engineering.

Electronic Device Engineering Course

Electron microscope, Thin film

Observation of thin films using high resolution scanning electron microscope.

Observation of thin films using high resolution scanning electron microscope.

Laser deposition, Thin film

Thin film preparation using high-power pulse laser.

Thin film preparation using high-power pulse laser.

Keywords : Solar cell, Battery, Optical functional devices, Thermoelectric material, Transparent conductive material, Semiconductor material

Electrical Power Engineering Course

linear motor, variable field flux, energy saving, rare earth free, linear drive system

Energy saving, rare earth free, and variable field flux linear motor.

Energy saving, rare earth free, and variable field flux linear motor.

rotating magnetic field, superconducting motor, superconducting rotating machine

Measuring system of electromagnetic properties of conductors and coils for superconducting rotating machine.

Measuring system of electromagnetic properties of conductors and coils for superconducting rotating machine.

Keywords : Power electronics energy electronics, DC-DC converter, Power converter, Switching power supply, Inverter, matrix converter, Instantaneous voltage sug compensation, Unified power flow, Controller, Wind power generation system, Direct torque control, Sensorless vector control, Permanent magnet synchronous motor, Induction motor, Self-excited induction generator, motor, Generator, magnetic material, Magnetic measurement, Electromagnetic field analysis, Core loss, Linear motor, High-temperature superconductivity, Energy saving, Electrical energy, store energy, Superconducting power application, Superconducting rotating machine, Fusion, Nonlinear system, System identification, System control

Communication System Engineering Course

AD converter, LSI

AD converter LSI

AD converter LSI

optical fiber, photonic crystal, hollow core, propagation mode, optical wave engineering

Design and analysis of optical fiber

Design and analysis of optical fiber

Keywords : Microwave/millimeter wave engineering, Wireless powering, LSI engineering, Optical communication system, Photonic crystal, Metamaterials, IoT (Internet of Things), Deep learning, Image recognition, AI (artificial intelligence )

Students will learn specified topics systematically through a multiple of subjects so that they will grow into human resources who will be able to respond to social seeds (new technology owned by companies) from the perspective of their chosen field. Master’s Course students will choose one or more fields offered by the Program and take the subjects designated by the respective field to learn the advanced educational content required by the field.

Spotlight on Research (Graduate School of Science and Engineering)

Researchers (Kagoshima University)
Spotlight on Research (Graduate School of Science and Engineering)

Education (Faculty of Engineering)
Admissions (Faculty of Engineering)

Education and Research (Graduate School of Science and Engineering)
Admissions (Graduate School of Science and Engineering)