Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EE |
2021-01-25 09:05 |
Online |
Online (Zoom) |
Consideration of requirement water amount to the output power of fuel cell power generation system fueled by NaBH4 and water Koki Nakahara, Nobukazu Hoshi (TUS) EE2020-23 |
Recently, from the viewpoint of eliminating the dependence on fossil fuels, hydrogen has been expected and used as a nex... [more] |
EE2020-23 pp.1-6 |
EE |
2021-01-25 09:30 |
Online |
Online (Zoom) |
Basic study on the possibility of PV generation along the surface in a specific area Tomohito Ushirokawa, Takashi Takeda (NTT FACILITIES, INC.), Ryo Nakazato, Shinji Yokogawa, Haruhisa Ichikawa (UEC) EE2020-24 |
(To be available after the conference date) [more] |
EE2020-24 pp.7-9 |
EE |
2021-01-25 09:55 |
Online |
Online (Zoom) |
A study of photovoltaic power generation on the building facade using aviation LiDAR data and GIS software Ryo Nakazato, Takumi Noaki, Shinji Yokogawa, Haruhisa Ichikawa (UEC), Tomohito Ushirokawa, Takashi Takeda (NTT FACILITIES, INC.) EE2020-25 |
To achieve the global goal that suppresses greenhouse gas emissions to ZERO, a town-scale energy system oriented to rene... [more] |
EE2020-25 pp.10-15 |
EE |
2021-01-25 10:20 |
Online |
Online (Zoom) |
Online parameter identification for processor power estimation using performance monitoring information Shinichi Kawaguchi (KAIT) EE2020-26 |
The processor s of the computer in operation tends to be light load for long time . Therefore, it is required to improve... [more] |
EE2020-26 pp.16-21 |
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 11:20 |
Online |
Online (Zoom) |
Generalization Design of Dual Active Bridge DC-DC Converter for DC Power Distribution Kenta Terada, Daisuke Nakashima (Nagasaki University), Hiroshige Yanagi (TDK-Lambda), Yoichi Ishizuka (Nagasaki University) EE2020-28 |
[more] |
EE2020-28 pp.27-32 |
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 12:10 |
Online |
Online (Zoom) |
Regulation Characteristics of Burst Controlled Current Resonant Converter Hio Ryuto (Kyutech), Uematsu Takeshi, Zaitsu Toshiyuki (OMRON), Abe seiya (Kyutech) EE2020-30 |
A current resonant converter satisfying both of wider input voltage range and higher power density is required. It has ... [more] |
EE2020-30 pp.38-42 |
EE |
2021-01-25 13:30 |
Online |
Online (Zoom) |
Analysis and modeling of self-turn-on phenomenon of MOS gate type power semiconductors Takanao Nishio, Ichiro Omura (Kyutech) EE2020-31 |
(To be available after the conference date) [more] |
EE2020-31 pp.43-46 |
EE |
2021-01-25 13:55 |
Online |
Online (Zoom) |
Analysis on the turn-on transient of cascode connected Polarization Super-Junction GaN-FET Daisuke Arai (Nagoya Univ.), Yusuke Kamiyama, Shuichi Yagi, Hiroji Kawai, Hironobu Narui (POWDEC), Jun Imaoka, Masayoshi Yamamoto (Nagoya Univ.) EE2020-32 |
The turn-on transient of the cascode connected Polarization Super-Junction (PSJ) GaN-FET with 1200V class has been inves... [more] |
EE2020-32 pp.47-52 |
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 14:45 |
Online |
Online (Zoom) |
Transient Response of Digital Control POL Power Supply for Satellite Applications Kazuhiro Kajiwara (NiAS), Yudai Furukawa (Fukuoka Univ.), Yuichiro Shibata (Nagasaki Univ.), Nobumasa Matsui, Fujio Kurokawa (NiAS), Hiroyuki Shindou, Masao Suzuki (JAXA) EE2020-34 |
[more] |
EE2020-34 pp.59-62 |
EE |
2021-01-25 15:20 |
Online |
Online (Zoom) |
A Study on Design of High Frequency Inverter in Medical Non-contact Power Transmission System Using Ultrasonic Vibration Sho Yokoi, Tomokazu Mishima (Kobe Univ.) EE2020-35 |
In recent years, a Wireless Power Transmission System (WPT) has been attracting much attention and is required to be dev... [more] |
EE2020-35 pp.63-68 |
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 |
EE |
2021-01-25 16:10 |
Online |
Online (Zoom) |
Current resonance type soft switching converter using Cockcroft-Walton circuit Eita Morii, Kazuki Mine, Yuichi Noge, Masahito Shoyama (Kyushu Univ.) EE2020-37 |
A high step-up ratio isolated DC-DC converter using a step-up transformer and a Cockcroft-Walton (CW) circuit is used fo... [more] |
EE2020-37 pp.75-80 |
EE |
2021-01-25 16:35 |
Online |
Online (Zoom) |
A Study on Boundary Conduction Mode Vienna Rectifier Jizhe Wang (NiAS), Shanghua Feng (GIWEE), Fujio Kurokawa (NiAS) EE2020-38 |
This paper proposed an analog-based boundary conduction mode (BCM) control for the three-phase three-level Vienna rectif... [more] |
EE2020-38 pp.81-85 |
EE |
2021-01-25 17:00 |
Online |
Online (Zoom) |
Digitally controlled boundary current mode buck converter Reo Sumita, Terukazu Sato (Oita Univ.) EE2020-39 |
When the control method to maintain the boundary current mode is applied to the buck converter, the efficiency is expect... [more] |
EE2020-39 pp.86-90 |