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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 24  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
SANE 2023-12-07
14:10
Overseas Surakarta, Indonesia
(Primary: On-site, Secondary: Online)
Optimizing Wireless Power Transfer Efficiency with Resonance and Pancake Wheeler Coils
D Warindi (UNS), Tyo Fabian Fadel (ITB), Subuh Pramono (UNS) SANE2023-61
This study explores the wireless energy transfer method of inductive coupling, with a specific emphasis on optimizing ef... [more] SANE2023-61
pp.12-16
AP, SANE, SAT
(Joint)
2022-07-27
17:05
Hokkaido Asahikawa Taisetsu Crystal Hall
(Primary: On-site, Secondary: Online)
[Special Talk] Wireless Power Transmission Satellite Wi SAT
Shunya Yamamoto, Koya Ueda, Daiki Kawahara, Shuntaro Kuroiwa (OMU), Sae Ichinose, Yuzen Sasaoka, Miku Nagata, Keita Nishio, Taisei Wakugawa, Ryhei Takamoto, Kinuko Hayashi (OPU), Nodoka Shimazaki (Kansai Univ.) SANE2022-27
We designed “Wi Sat”, a CubeSat conducting in-orbit wireless power transmission. The mission will demonstrate that wirel... [more] SANE2022-27
pp.26-31
RISING
(3rd)
2021-11-17
11:00
Tokyo
(Primary: On-site, Secondary: Online)
A Study on Automatic Design of Transmitter and Receiver Coils for Low-leakage Inductive Power Transfer
Daisuke Kobuchi, Kentaro Matsuura, Yoshiaki Narusue, Hiroyuki Morikawa (UTokyo)
In applying inductive power transfer technology to a variety of devices, there are two issues to be resolved. The first ... [more]
MW 2021-03-05
13:30
Online Online [Special Talk] A Study of Magnetic Resonance Wireless Power Transfer to 10 m with Multiple Parasitic Coils in Seawater
Ryosuke Hasaba, Katsuya Okamoto, Souichi Kawata, Kazuhiro Eguchi, Koyanagi Yoshio (Panasonic) MW2020-95
An autonomous underwater vehicle (AUV) is used for exploring marine resources and monitoring infrastructure facilities. ... [more] MW2020-95
pp.22-27
AP, WPT
(Joint)
2020-01-23
13:10
Kagawa Sunport Hall Takamatsu A study on Series Resonance Circuit for 2x2 MIMO-IPT
Yugo Sakamaki, Quang-Thang Duong, Minoru Okada (NAIST) WPT2019-51
In an inductive power transfer (IPT) system consisting of one transmitting coil and one receiving coil, series resonant ... [more] WPT2019-51
pp.13-17
WPT
(2nd)
2019-10-31
- 2019-11-02
Overseas Xidian University Direct Induced Current Control for Inductive Coupling Wireless Charging System
ShaoweiLiu, Kai Xie, Yue Xu, Bicheng Wu, Fan Zhu (Xidian Univ)
This paper proposes a novel topology structure and control methodology for wireless charging, in which a constant curren... [more]
WPT
(2nd)
2019-10-31
- 2019-11-02
Overseas Xidian University [Invited Talk] Illustration of Energy Flows in IPT Systems with Multiple Transmitters and/or Multiple Receivers
Quang-Thang Duong, Minoru Okada (NAIST)
Poynting vector analysis visualizes the directional energy flux in electromagnetic fields. This tool has been used in pr... [more]
WPT, MW 2019-04-22
13:05
Tokyo Kikai-Shinko-Kaikan Bldg. A Study on a Control Method of Transmitter Arrays for Suppressing Magnetic Field Leakage from Wireless Power Transfer Systems
Daisuke Kobuchi, Yoshiaki Narusue, Yoshihiro Kawahara, Hiroyuki Morikawa (Univ.Tokyo) WPT2019-1 MW2019-1
Wireless power transfer using magnetic resonant coupling with a transmitter array can maintain high power transfer effi... [more] WPT2019-1 MW2019-1
pp.1-6
WPT, AP
(Joint)
2019-01-18
15:00
Aichi Toyota Automobile Museum Performance Evaluation of a Receiver-side Compensation Circuit for IPT Systems
Shogo Isogai, Quang-Thang Duong, Minoru Okada (NAIST) WPT2018-63
In inductive power transfer systems with transmitter-side resonance, there is a problem that a large current flows in th... [more] WPT2018-63
pp.47-50
EMCJ, IEE-EMC, IEE-MAG 2018-11-22
15:10
Overseas KAIST [Poster Presentation] An Electromagnetic Field Reduction Method for Inductive Power Transfer in Transportation System
Jedok Kim, Seungyoung Ahn (KAIST) EMCJ2018-75
Currently, charging electric transportation systems with wireless power transfer (WPT) technologies are drawing strong a... [more] EMCJ2018-75
p.53
EE, WPT, IEE-SPC 2018-07-03
12:50
Hokkaido Hokkaido University [Invited Lecture] Ultra-Lightweight Wireless Power Transfer System -- Topology Selection and Key Point of Design --
Keita Fujiki, Masataka Ishihara, Takayuki Kusumi, Tomohide Shirakawa, Akihiro Konishi, Koki Kamaeguchi, Syoma Ohata (Okayama Univ.) WPT2018-23
We report about resonant capacitive coupling wireless power transfer system prototyped in "Plastic Train Wireless Power ... [more] WPT2018-23
pp.85-90
EE, WPT
(Joint)
2017-10-16
10:20
Miyagi Tohoku Univ. Three Tips for Teenagers to Enjoy a Challenge of Wireless-Powered Miniature Railways
Shinji Abe, Naoki Sakai, Takashi Ohira (Toyohashi Univ. of Tech.)
 [more]
EE, WPT
(Joint)
2017-10-17
09:55
Miyagi Tohoku Univ. Method of Reducing Leakage Inductance Focusing on Magnetic Coupling of Multi-Port Transformer for Wireless Power Transfer System
Keita Furukawa, Keisuke Kusaka, Jun-ichi Itoh (Nagaoka Univ. of Tech.) WPT2017-37
This paper shows theoretical analysis of an inductive power transfer system attached canceling coils for reducing leakag... [more] WPT2017-37
pp.7-12
WPT 2017-03-06
14:50
Kyoto Kyoto Univ. Uji Campus A study on efficiency of 2x2 MIMO inductive power transfer system
Tatsuki Ujihara, Duong Quang Thamg, Minoru Okada (naist) WPT2016-70
In this study, we investigate the transfer efficiency (RF-to-RF efficiency) for 2x2 MIMO IPT system with Cross-coupling.... [more] WPT2016-70
pp.25-29
WPT 2017-02-10
14:20
Kanagawa YRP center, 1st Bldg. Theoretical analysis on maximum efficiency of multiple-transmitter inductive power transfer system
Hiroto Kawabata, Duong Quang Thang, Minoru Okada (naist) WPT2016-59
This study investigates the maximum power transfer efficiency (RF–to–RF efficiency) of inductive power trans... [more] WPT2016-59
pp.13-16
EE, WPT
(Joint)
2016-10-06
15:15
Kyoto   [Special Talk] Power Electronics for Wireless Power Transfar
Jun-ichi Itoh, Keisuke Kusaka (Nagaoka univ. of Tech.) EE2016-21 WPT2016-27
Since 2007, wireless power transfer systems have been actively studied. The circuit configuration of the power converter... [more] EE2016-21 WPT2016-27
pp.13-18(EE), pp.43-48(WPT)
EE, WPT
(Joint)
2016-10-07
14:15
Kyoto   A study on inductive power transfer using multiple coupled transmission line segments
William Fabrice Brou, Quang-Thang Duong, Minoru Okada (NAIST) WPT2016-36
This paper proposes inductive power transfer (IPT) system using multiple segments of coupled transmission lines. It has ... [more] WPT2016-36
pp.95-99
EE, WPT, IEE-SPC
(Joint) [detail]
2015-07-07
13:00
Kyoto   A Time-Sharing Principle-based A Time-Sharing Principle-based Frequency Doubler ZCS High Frequency-Resonant Inverter for Inductive Power Transfer -- The First Report on the Experimental Evaluation --
Kyohei Konishi, Tomokazu Mishima (Kobe Univ.), Mutsuo Nakaoka (Univ. Malaya) EE2015-8
This paper presents an evaluation on a time-sharing principle-based frequency doubler zero current soft-switching (ZCS) ... [more] EE2015-8
pp.33-38
EE, WPT, IEE-SPC
(Joint) [detail]
2015-07-07
14:00
Kyoto   A Comprehensive Design Method of Inductively Coupled Wireless PowerTransfer System for Maximizing Overall Efficiency
Takumi Noda, Tomoharu Nagashima, Hiroo Sekiya (Chiba Univ.) WPT2015-41
For development of inductive coupling wireless power transfer (WPT) systems, it is important to consider a overall effic... [more] WPT2015-41
pp.31-36
WPT 2015-06-12
15:35
Tokyo Univ. of Tokyo Reduction of Leakage Electromagnetic Field from Feeding Coil for Contactless Charging System for Moving Electric Vehicles
Shuta Aoki, Fumihiro Sato, Satoshi Miyahara, Hidetoshi Matsuki (Tohoku Univ.), Tetsuya Takura (Tohoku Institute of Tech.) WPT2015-28
We have researched contactless charging systems, which utilize electromagnetic inductive transfer, for moving electric v... [more] WPT2015-28
pp.43-48
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