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Noge Yuichi Last modified date:2022.06.29

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Kyushu University, Green electronics lab. (Shoyama lab.) .
Academic Degree
Dr. Eng.
Country of degree conferring institution (Overseas)
Field of Specialization
Power electronics
Total Priod of education and research career in the foreign country
Research Interests
  • Application of multilevel inverter
    keyword : Wide bandgap power semiconductor, Multilevel, Digital control
  • Application of multilevel linear amplifier
    keyword : Multilevel, Negative feedback, Digital control
  • Switching power converter with resonant circuit
    keyword : Wide bandgap power semiconductor, Multilevel, Resonant circuit
  • Application of active gate driver
    keyword : Wide bandgap power semiconductor, Multilevel, Resonant circuit, Negative feedback, Digital control
Academic Activities
1. Yuichi Noge, Ming-cong Deng, Mitsuru Miyashita, Multilevel inverter for grid interconnection with square wave voltage sources and minimization of active filter capacity, International Journal of Advanced Mechatronic Systems, 9, 3, 146-153, 2021.09, [URL].
2. Koki Takasu, Mingcong Deng, Yuichi Noge, Chattering and bias-free design of operator-based nonlinear sliding mode control for a WPT system, International Journal of Advanced Mechatronic Systems, 10.1504/IJAMECHS.2020.112627, 8, 4, 127-135, 2021.01, A wireless power transfer (WPT) system via magnetic resonance coupling method is attracting attention to high convenience. A WPT system has problems such as power transmitting loss and output voltage fluctuation due to the change in the coupling coefficient and the load state. In previous method, sliding mode control system as a tracking controller considering nonlinearity and uncertainty has been proposed, but the output of this control system had bias and chattering. This paper proposes operator-based nonlinear sliding mode control system to reduce chattering and bias simultaneously for a WPT system using buck converter. First, the model of the WPT system using rectifier and buck converter is explained and dynamics formulas are derived. Next, the proposed operator-based nonlinear sliding mode control system design for the WPT system is described and tracking performance is confirmed. Finally, the result of simulation of constant voltage control and comparison with the previous method is shown..
3. Shuaitao Zhang;Qiang Lin;Yuichi Noge;Masahito Shoyama;Eiji Takegami;Gamal M. Dousoky, Developed Common Mode Noise Modeling Approach for DC-DC Flyback Converters, IEEE Letters on Electromagnetic Compatibility Practice and Applications, 10.1109/LEMCPA.2020.3021833, 2, 4, 147-151, 2020.12.
4. Kazuya Mitsugi,Yuichi Noge,Mingcong Deng, Simple Calorimetric Power Loss Measurement System Using Single Chamber and Peltier Device with Ambient Temperature Tracking Control, 2020 IEEE Applied Power Electronics Conference and Exposition (APEC), 10.1109/APEC39645.2020.9124537, 2020.03, This paper proposes a simple calorimetric power loss measurement system for highly efficient converters using a single chamber and a Peltier device with ambient temperature tracking control. In the proposed system, a mechanical heat pump and a heat exchanger which increase the cost of the calorimeter are not required. The power loss of a converter under test is measured by the heat absorption of a single Peltier device. Also, the ambient temperature tracking controller minimizes the heat leak which decreases the measurement accuracy without using a complex double chamber structure. In this paper, the principle of the proposed calorimetric measurement method and the proposed system are described. As the experiment result, a heat measurement accuracy of less than 2% can be obtained at 15 W condition. The measurement time of the proposed method is less than 1500 seconds, which is shorter than the conventional closed type double-cased method..
5. Yuichi Noge, Experimental verification of a linear AC LED driver with a light flicker compensating circuit and high power factor operation by modulating the current regulator, ELECTRICAL ENGINEERING IN JAPAN, 10.1002/eej.23252, 209, 3-4, 35-44, 2019.12.
6. Shuhei Kawamura,Mizuki Sudani,Ming-Cong Deng,Yuichi Noge,Shuichi Wakimoto, Modeling and System Integration for a Thin Pneumatic Rubber 3-DOF Actuator, ACTUATORS, 10.3390/act8020032, 8, 2, 2019.06.
7. Hiroki Matsumori,Ming-Cong Deng,Yuichi Noge, An Operator-based Nonlinear Vibration Control System Using a Flexible Arm with Shape Memory Alloy, International Journal of Automation and Computing,, 17, 139-150, 2018.10.
8. Jun-ichi Itoh,Yuichi Noge,Taketo Adachi, A Novel Five-Level Three-Phase PWM Rectifier With Reduced Switch Count, IEEE TRANSACTIONS ON POWER ELECTRONICS, 10.1109/TPEL.2010.2090900, 26, 8, 2221-2228, 2011.08.
Membership in Academic Society
  • The Institute of Electrical and Electronics Engineers
  • The Institute of Electrical Engineers of Japan
Professional and Outreach Activities
Member of IEEJ and IEEE.