Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EE |
2024-03-11 09:15 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Design Method for Load-Independent WPT Systems Using Machine Learning Naoki Fukuda, Yutaro Komiyama, Wenqi Zhu, Yinchen Xie, Ayano Komanaka, Akihiro Konishi, Kien Nguyen, Hiroo Sekiya (Chiba Univ.) EE2023-58 |
This paper proposes a design method for load-independent wireless power transfer (WPT) systems using machine learning.
... [more] |
EE2023-58 pp.6-11 |
EE |
2024-01-19 15:00 |
Kagoshima |
(Primary: On-site, Secondary: Online) |
Load-independent Class-E Inverter with Constant-Current and Constant-Voltage Output Wenqi Zhu, Ayano Komanaka, Yutaro Komiyama, Nguyen Kien, Hiroo Sekiya (Chiba Univ.) EE2023-56 |
This research proposes a reconfigurable load-independent class-E inverter with a parallel resonant structure, which can ... [more] |
EE2023-56 pp.93-97 |
MW, EMCJ, EST, IEE-EMC [detail] |
2023-10-20 09:20 |
Yamagata |
Yamagata University (Primary: On-site, Secondary: Online) |
Load-Independent Class-E Inverter Design Focusing on External Quality Factor Akihiko Ishiwata, Yasumasa Naka, Masaya Tamura (Toyohashi Univ. of Tech.) EMCJ2023-57 MW2023-111 EST2023-84 |
The Load-Independent ZVS Class-E Inverter has attracted attention as a power supply circuit for WPT systems. The inverte... [more] |
EMCJ2023-57 MW2023-111 EST2023-84 pp.113-118 |
EE, IEE-SPC |
2023-07-20 15:30 |
Hyogo |
(Primary: On-site, Secondary: Online) |
A multi-receiver WPT system with load-independent class-E/F inverter HanXiao Wang, Yutaro Komiyama, Xiuqin Wei, Akihiro Konishi, Kien Nguyen, Hiroo Sekiya (Chiba Univ.) EE2023-12 |
This paper proposes a multiple receivers wireless power transfer (WPT) system using the load-independent class-E/F inver... [more] |
EE2023-12 pp.61-66 |
EE |
2023-01-20 14:40 |
Fukuoka |
Kyushu Institute of Technology (Primary: On-site, Secondary: Online) |
Analysis and Design on a Receiver-side PWM-based Load-Independent ZVS Class-E2 Wireless Power Transfer Shoma Shimizu, Tomokazu Mishima (Kobe Univ.) EE2022-51 |
A high efficiency and low-profile high frequency,(HF) power converter is essential for a magnetically resonant wireless ... [more] |
EE2022-51 pp.139-144 |
CCS |
2022-11-17 16:50 |
Mie |
(Primary: On-site, Secondary: Online) |
Heuristic Algorithm-based Design Method of Power Converters including Optimization of Resonant Inductors Wenqi Zhu, Yutaro Komiyama (Chiba Univ.), Xiuqin Wei (ChibaTech), Kien Nguyen, Hiroo Sekiya (Chiba Univ.) CCS2022-51 |
In recent years, the invention of wide bandgap semiconductor devices has made it possible to push the switching frequenc... [more] |
CCS2022-51 pp.42-46 |
EE, IEE-SPC |
2021-07-19 10:55 |
Online |
Online |
Load-Independent Class-E Inverter with Frequency Modulation Control Yutaro Komiyama, Kien Nguyen (Chiba Univ.), Taichi Mishima, Yuki Ito, Takeshi Uematsu (Omron Corp.), Hiroo Sekiya (Chiba Univ.) EE2021-8 |
This paper proposes the frequency-modulation controlled load-independent class-E inverter. The main idea is to apply the... [more] |
EE2021-8 pp.6-11 |
EE, IEE-SPC |
2019-07-25 09:30 |
Hiroshima |
|
SiC MOSFET Class-E Inverter with a Class-Φ High-Speed Driver Haruma Yogi, Xiuqin Wei (Chiba Tech), Hiroo Sekiya (Chiba Univ.), Takashi Hikihara (Kyoto Univ.) EE2019-25 |
This paper presents a design challenge of a SiC MOSFET class-E inverter with a class-$Phi $ high-speed driver. The drive... [more] |
EE2019-25 pp.49-52 |
EE |
2019-01-16 14:50 |
Kumamoto |
KCIC |
Proposal of load independent class E^-1 inverter Yuta Ozawa (Chiba Univ.), Xiuqin Wei (CIT), Hiroo Sekiya (Chiba Univ.) EE2018-45 |
This paper proposes a load-independent class-E−1 inverter. By deriving the circuit operation with its analysis, this pap... [more] |
EE2018-45 pp.43-48 |
EE |
2019-01-17 12:55 |
Kumamoto |
KCIC |
A Study on Current-source/Voltage-source Dual-Mode Non-isolated Class-E2 DC-DC Converter with Pulse-Density-Modulation Kenta Fujii, Tomokazu Mishima (KU) EE2018-54 |
GaN-HFET class-E power conversion technology is suitable for high frequency power conversion in the MHz band. The pulse ... [more] |
EE2018-54 pp.97-102 |
EE |
2018-01-29 13:15 |
Oita |
Satellite Campus Oita |
[Poster Presentation]
Analysis of wireless power transfer system with asymmetrical duty-cycle controlled class-D ZVS inverter Shohei Mita, Hiroo Sekiya (Chiba Univ.) EE2017-50 |
This paper presents a wireless power transfer system with the asymmetrical duty-cycle controlled class-D zero-voltage sw... [more] |
EE2017-50 pp.47-52 |
EE |
2016-11-28 13:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Poster Presentation]
Characteristics comparison of class-E^2 and class-D-E wireless power transfer system Takumi Noda, Takumi Murayama, Hiroo Sekiya (Chiba Univ.) EE2016-38 |
The class-D and the class-E inverter can be achieved the high-power conversion efficiency at high frequencies.
Therefor... [more] |
EE2016-38 pp.45-50 |
EE, WPT (Joint) |
2016-10-07 11:20 |
Kyoto |
|
Experimental Evaluations of Thinned-out and PDM Controlled Class-E Rectifier Akane Iwasaki, Tomoharu Nagashima, Hiroo Sekiya (Chiba Univ.) EE2016-26 |
This paper presents a design of the closed-loop thinned-out controlled class-E rectifier. It is possible to realize both... [more] |
EE2016-26 pp.43-48 |
EMCJ, WPT (Joint) |
2014-01-31 13:25 |
Saga |
Saga Univ. |
Analytical design for resonant inductively coupled wireless power transfer system with class-E^2 DC-DC converter Tomoharu Nagashima, Kazuhide Inoue (Chiba Univ.), Xiuqin Wei (Fukuoka Univ.), Hiroo Sekiya (Chiba Univ.) |
This paper presents a resonant inductive coupling wireless power transfer (RIC-WPT) system with a class-E^2 dc-dc conver... [more] |
|
NLP |
2013-05-28 11:00 |
Fukuoka |
Event hall, Central Library, Fukuoka University |
Design of class-E inverter with inductive impedance inverter for achieving zero voltage switching at any load resistance Tomoharu Nagashima (Chiba Univ.), Xiuqin Wei, Tadashi Suetsugu (Fukuoka Univ.), Hiroo Sekiya (Chiba Univ.) NLP2013-22 |
This paper presents a design of the class-E inverter with an inductive impedance inverter for achieving zero voltage swi... [more] |
NLP2013-22 pp.71-75 |