Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EE |
2022-01-28 14:45 |
Online |
Online |
Numerical investigations of fully integrated transformerless floating gate driver IC Yusuke Ogushi, Satoshi Matsumoto (KIT) EE2021-49 |
One of the key issues of the floating gate driver circuit are to reduce the volume. To eliminate the transformer is one ... [more] |
EE2021-49 pp.100-105 |
NLP, MICT, MBE, NC (Joint) [detail] |
2022-01-21 09:25 |
Online |
Online |
A Basic Study of Nonlinear Phenomena in DC-DC Converter Connected to TEM Daiki Hozumi, Arata Makino, Chihiro Kondo (Okayama Univ. of Science), Shota Uchino (NIT, Anan College), Takuji Kousaka (Chukyo Univ.), Satoshi Aoki, Hiroyuki Asahara (Okayama Univ. of Science) NLP2021-70 MICT2021-45 MBE2021-31 |
In this research, we investigate dynamic behavior the operation of a power conversion circuit with a thermoelectric modu... [more] |
NLP2021-70 MICT2021-45 MBE2021-31 pp.5-8 |
NLP |
2021-12-18 09:50 |
Oita |
J:COM Horuto Hall OITA |
Proposal and Analysis of 1D Model of DC-DC Converter with TEM Shota Uchino (NIT, Anan College), Takuji Kousaka (Chukyo Univ.), Satoshi Aoki, Hiroyuki Asahara (Okayama Univ. of Science) NLP2021-56 |
Current-controlled DC-DC converters have been analyzed by keeping the output voltage of the converter constant in order ... [more] |
NLP2021-56 pp.57-60 |
EE, OME, CPM |
2021-11-18 15:15 |
Online |
Online |
A Control System of PV Sources for DC Microgrid with Seamless Switching Operation between I-V Droop Control and MPPT Control Yasushi Eto, Yuichi Noge, Masahito Shoyama (Kyushu Univ.) EE2021-28 CPM2021-46 OME2021-22 |
As one of the control methods for the DC microgrid, DC bus signaling is considered which switch an operation mode of eac... [more] |
EE2021-28 CPM2021-46 OME2021-22 pp.57-62 |
EE, WPT (Joint) |
2021-10-06 09:30 |
Online |
Online |
Numerical predictions of 3D power-supply on chip taking into considerations of proximity effect Shinei Miyasaka, Satoshi Matumoto (Kyutech) EE2021-15 |
3D Power-SoC (Supply on Chip), which can ultimately miniaturize the power supply, is attracted attentions. It integrates... [more] |
EE2021-15 pp.18-22 |
EE, IEE-SPC (Joint) |
2021-03-01 15:30 |
Online |
Online |
Modeling Method for Large Amplitude Fluctuation Characteristics of LLC Current Resonant Converter Using Linear Parameter-Varying (LPV) Plants Hideaki Funaki, Yuichi Noge, Masahito Shoyama (Kyushu Univ.), Yu Yonezawa, Yoshiyasu Nakashima (FUJITSU Advanced Technologies) EE2020-41 |
(To be available after the conference date) [more] |
EE2020-41 pp.7-12 |
EE, IEE-SPC (Joint) |
2021-03-01 15:50 |
Online |
Online |
A Multiport Bi-Directional On-Board Charger Combined with Isolated Current-Resonant Converter and Buck Converters Ryo Oishi, Kimihiro Nishijima, Sakai Eiji (Sojo Univ.), Keisuke Tani, Nobuhisa Yamaguchi, Masaya Takahashi, Yusei Nakayashiki (DENSO) EE2020-42 |
A multi-output bi-directional isolated DC-DC converter for charging main battery and sub-batteries of electric vehicle i... [more] |
EE2020-42 pp.13-18 |
EE, IEE-SPC (Joint) |
2021-03-01 16:50 |
Online |
Online |
Design of Load-Independent Class-E^2 DC-DC Converter Tatsuki Osato (Chiba Univ.), Xiuqin Wei (CIT), Nguyen Kien, Hiroo Sekiya (Chiba Univ.) EE2020-45 |
This paper presents a design of load-independent class-E^2 DC-DC converter consist of load-independent class-E inverter ... [more] |
EE2020-45 pp.28-33 |
EE |
2021-01-25 10:55 |
Online |
Online (Zoom) |
Aged Deterioration Detection of DC-DC Converter Yasuyuki Koga (NiAS), Yudai Furukawa (Fukuoka University), Kazuhiro Kajiwara, Nobumasa Matsui, Fujio Kurokawa (NiAS), Yoshiyasu Nakashima, Yu Yonezawa (FUJITSU Advanced Technology) EE2020-27 |
In recent years, information and communication services have continued to develop, and the power supply is one of their ... [more] |
EE2020-27 pp.22-26 |
EE |
2021-01-25 11:45 |
Online |
Online (Zoom) |
Research on 10MHz digitally controlled DC-DC converter using DDS Kenji Kajihara, Seiya Abe, Akihiro Imakiire, Satoshi Matsumoto (Kyutech) EE2020-29 |
Power SoC (Power Supply on Chip), which integrates passive components, power devices, drive / control circuits, etc. on ... [more] |
EE2020-29 pp.33-37 |
EE |
2021-01-25 14:20 |
Online |
Online (Zoom) |
A Reducing Capacitance Technique for DC-DC Converter in Automotive Application Daisuke Nakashima, Kenta Terada, Yoichi Ishizuka (Nagasaki Univ.) EE2020-33 |
In this paper, a reducing output capacitance control technique achieves to reduce the value of output capacitance with s... [more] |
EE2020-33 pp.53-58 |
EE |
2021-01-25 15:45 |
Online |
Online (Zoom) |
High-Order Harmonics-involved Frequency Domain Analysis on a Current-fed Snubber-less ZCS Step-Up DC-DC Converter Ryusei Miyazaki, Tomokazu Mishima (Kobe Univ.) EE2020-36 |
Recently, the installation of smart grids has been actively promoted from the viewpoint of stabilizing power supply and ... [more] |
EE2020-36 pp.69-74 |
NC, NLP (Joint) |
2021-01-22 12:05 |
Online |
Online |
Low Frequency Oscillation in a Current Controlled DC-DC Converter with Photovoltaic Model Shota Uchino (Okayama Univ. of Sci.), Takuji Kousaka (Chukyo Univ.), Satoshi Aoki, Hiroyuki Asahara (Okayama Univ. of Sci.) NLP2020-51 |
In this study, we analyze stability of the DC-DC converter with photovoltaic module. First, we explain the stability ana... [more] |
NLP2020-51 pp.58-63 |
EE, OME, CPM |
2020-12-11 14:50 |
Online |
Online |
Analysis of Disturbance Characteristics of a Coupled Inductor Boost-type DC-DC Converter with Reduced Order Modeling Method Taichi Kawakami (OPUCT), Shigeo Morimoto (OPU) EE2020-22 CPM2020-54 OME2020-7 |
In this study, a boost-type DC-DC converter with a coupled inductor is analyzed using a reduced order modeling method. T... [more] |
EE2020-22 CPM2020-54 OME2020-7 pp.37-42 |
EE, IEE-SPC (Joint) |
2020-03-05 14:06 |
Nagasaki |
(Cancelled but technical report was issued) |
A Consideration of Loss Analysis Method for Magnetic Transformer in LLC DC-DC Converter Fumiya Shiraishi, Fumiya Iwasaki, Yuichi Yokoi (Nagasaki Univ.), Takahiro Koga (ANSYS), Yoichi Ishizuka (Nagasaki Univ.) EE2019-77 |
LLC DC-DC converters can achieve high power density and high power efficiency, and are used in many applications. The po... [more] |
EE2019-77 pp.13-18 |
EE |
2020-01-15 10:25 |
Kagoshima |
HOUZAN HALL |
Improvement of transient response with estimated current for reference modified DC-DC converter control Daiki Hoshino, Hidenori Maruta (Nagasaki Univ.) EE2019-50 |
This paper studies about a neural network control for digitally controlled method for PWM dc-dc converters. Especially, ... [more] |
EE2019-50 pp.7-12 |
EE |
2020-01-15 10:50 |
Kagoshima |
HOUZAN HALL |
A study on influence of prediction horizon of model predictive control to characteristics of digitally controlled dc-dc converter Yuya Noda, Koya Taguchi, Hidenori Maruta (Nagasaki Univ.) EE2019-51 |
In this paper, we evaluate influence of a prediction horizon with combinatorial approach of the model predictive control... [more] |
EE2019-51 pp.13-18 |
EE |
2020-01-15 11:15 |
Kagoshima |
HOUZAN HALL |
Consideration of a variable power size control MPPT method for PV systems Konami Kamasaka, Hidenori Maruta (Nagasaki Univ.) EE2019-52 |
In this study, we examine MPPT control for PV power generation using a variable power size control by comparing with a c... [more] |
EE2019-52 pp.19-24 |
EE |
2020-01-16 08:30 |
Kagoshima |
HOUZAN HALL |
Problem of High Frequency Voltage Mode Control DC-DC Boost Converter Considering Delay Time Kazuya Fujiwara, Masahito Shoyama (Kyushu Univ.) EE2019-63 |
Voltage mode control is a widely used control method for DC-DC converters because the control is simple due to the feedb... [more] |
EE2019-63 pp.85-90 |
EE |
2020-01-16 11:10 |
Kagoshima |
HOUZAN HALL |
Current Ripple Characteristics of Digital Hysteresis Current Control Yasuyuki Koga, Kosuke Yamasaki, Kazuhiro Kajiwara, Nobumasa Matsui, Fujio Kurokawa (NiAS) EE2019-69 |
The hysteresis current controlled switching power converter, which controls the on/off of the switching device with dete... [more] |
EE2019-69 pp.121-124 |