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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| WPT | 2017-06-12 14:15 |
Kagoshima | Kagoshima Univ. | Characteristics of a Folded Spiral Antenna for coupled-resonant Wireless Power Transfer Kohei Nimura, Hiroshi Hirayama (Nagoya Inst. of Tech.)  WPT2017-11 |
Coupled resonant wireless power transfer system has an advantage of high efficient mid-range power transmission where im... [more] | WPT2017-11 pp.17-22 |
| LQE, LSJ | 2017-05-25 16:30 |
Ishikawa | Beam Steering System of Semiconductor Laser Diode for Optical Wireless Power Transmission Takeo Maruyama, Hendra Ainanta, Motoharu Tanizawa (Kanazawa Univ) LQE2017-7 |
In recent years, optical power transmission has been proposed as a new power feeding method. The optical power transmiss... [more] | LQE2017-7 pp.29-32 |
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| WPT | 2017-02-10 15:50 |
Kanagawa | YRP center, 1st Bldg. | Cavity Resonator Wireless Power Transfer to Sensors in an Enclosed Space with Scatterers Ippei Takano, Daigo Furusu, Yosuke Watanabe, Masaya Tamura (TUT) WPT2016-62 |
In this study, we investigate the Cavity Resonator wireless power transfer in an enclosed space with scatterers. First, ... [more] | WPT2016-62 pp.27-30 |
| EE | 2017-01-26 13:40 |
Nagasaki | Nagasaki University | Wireless Power Transfer Proposal with Stick Primary Coil Array and Confirmation of Voltage Stabilization against Position and Load Fluctuation Hideaki Abe (Panasonic) EE2016-55 |
We have constructed a method that can conserve primary coil material for wall hanging wireless power transfer. Spot feed... [more] | EE2016-55 pp.39-44 |
| AP, WPT (Joint) |
2017-01-19 11:10 |
Hiroshima | Hiroshima Institute of Technology | Basic Study on Circuit Topology for High Efficiency Wireless Power Transfer through Metal Wall Mai Otsuka, Takehiro Imura, Hiroshi Fujimoto, Yoichi Hori (UTokyo) WPT2016-48 |
The aim of this research is feeding power wirelessly to the sensor surrounded by the metal wall. Various circuit configu... [more] | WPT2016-48 pp.33-38 |
| OPE | 2016-12-09 14:15 |
Okinawa | Basic Study on Wavelength Dependece of Optical Power Feeding Efficiency Motoharu Tanizawa, Takeo Maruyama (Kanazawa Univ.) OPE2016-115 |
In recent years, optical power feeding has been proposed as a new power feeding method. In the optical power feeding me... [more] |
OPE2016-115 pp.59-62 |
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| SIS, IPSJ-AVM | 2016-09-02 10:40 |
Osaka | Osaka Electro-Communication Univ. | Proposal of Simultaneous Wireless Transfer of Information and Power Using Parallel Lines Yuya Kaneko, Duong Quang Thang, Takeshi Higashino, Minoru Okada (NAIST) SIS2016-26 |
In order to widen feeding coverage, multiple inductive coils are required to spread out at feeding area in the Wireless ... [more] | SIS2016-26 pp.59-63 |
| EE | 2016-02-26 14:20 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | A study and evaluation for optimal wireless power transfer to battery charge Yuto Honda, Lei Lin, Masahiro Fukui (Ritsumeikan Univ.) EE2015-32 |
In this paper we describe the evaluation and consideration of the optimal wireless power feeding system for the storage ... [more] | EE2015-32 pp.13-18 |
| MW | 2015-12-18 11:40 |
Tokyo | Tokyo Univ. of Science | Consideration on Some Irregulars of Circuit Parameters in Magnetic Resonance Wireless Power Transmission Systems at kHz Frequency Bands Kastsuyoshi Aoki (NIT, Kure College), Kenji Shodai (Hiroshima Univ.), Kouichi Yamanoue (Imasen Electric), Futoshi Kuroki (NIT, Kure College) MW2015-152 |
As the wireless power transmission for a feeding system to electrical vehicles, a magnetic induction method with primary... [more] | MW2015-152 pp.109-112 |
| EE, WPT, IEE-SPC (Joint) [detail] |
2015-07-07 15:40 |
Kyoto | Study on spiral resonator parameters for undersea WPT system Kentaro Kawabe, Dai Futagami, Yangjun Zhang, Toshio Ishizaki (Ryukoku Univ.), Ikuo Awai (Ryutech) WPT2015-44 |
The method of forming of the most highly efficient resonator is different from the air in the wireless feeding through t... [more] | WPT2015-44 pp.49-53 |
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| WPT | 2015-06-12 14:45 |
Tokyo | Univ. of Tokyo | Design of Efficient Wireless Power Transfer via Magnetic Resonant Coupling using Multiple Transmitter Coils Hiroki Narita, Takafumi Koseki (Univ. Tokyo) WPT2015-26 |
Wireless Power Transfer (WPT) is expected as a novel power feeding method where conventional wiring is difficult or caus... [more] | WPT2015-26 pp.31-36 |
| WPT | 2014-12-18 13:30 |
Oita | Daihen Tech. | Wireless Power Transmission for Intra-body Monitoring Device
-- Measurement of Received Power of the Receiving Coil in NaCl Solution -- Masami Ishiwata, Ryutaro Iwashita, Youji Takaguchi, Takashi Koike, Kenji Shiba (Tokyo Univ. of Science) WPT2014-64 |
A wireless energy transmitting system is required for implanted medical devices. We developed a wireless power feeding s... [more] | WPT2014-64 pp.5-8 |
| WPT | 2014-12-18 15:20 |
Oita | Daihen Tech. | Development of a real-time power and impedance sensor for wireless power transfer systems Toshio Minami, Isao Tabuchi, Ryohei Tanaka, Yoshinori Tsuruda (DAIHEN) WPT2014-67 |
The improvement of the power transmission efficiency is one of the big issue of high-power wireless power transfer syste... [more] | WPT2014-67 pp.21-23 |
| AP, WPT (Joint) |
2014-10-16 14:20 |
Hokkaido | Hokkaido University, Clark Memorial Student Center | An Experimental Study on Indoor Electrified Floor Structures Tomomi Fujioka, Tetsuo Endo (Taisei), Yoshiki Suzuki, Naoki Sakai, Takashi Ohira (Toyohashi Univ Tech) WPT2014-44 |
This report experimentally examines the influence of electrified floor structures and building components at the upper/l... [more] | WPT2014-44 pp.43-46 |
| WPT | 2014-06-06 16:45 |
Tokyo | Univ. of Tokyo | Electromagnetic Field Suppression in Polyphase Wireless Power Transfer via Magnetic Resonance Coupling Hiroki Narita, Takehiro Imura, Hiroshi Fujimoto, Yoichi Hori (Univ. of Tokyo) WPT2014-31 |
It is expected that Wireless Power Transfer (WPT) can be a power feeding method where wiring is difficult. The power tr... [more] |
WPT2014-31 pp.39-44 |
| AP | 2014-03-11 09:30 |
Fukushima | Koriyama City Rodo Fukushi Kaikan | Analysis and Performance Improvement of Independent Electric Coupled Resonance WPT System with Impedance Transformer Chang Yang, Koichi Tsunekawa (Chubu Univ.) AP2013-190 |
Wireless power transfer (WPT) technology is expected for the next generation power feeding system, which could supply th... [more] | AP2013-190 pp.31-36 |
| AP | 2014-02-06 11:25 |
Aichi | Kojima Industries Corporation, Kojima Research Center | A Consideration on Coil Array and Feeding Structures in Wireless Power Transfer with Magnetically Coupled Resonance Keishi Miwa, Hisamichi Mori, Nobuyoshi Kikuma, Hiroshi Hirayama, Kunio Sakakibara (Nagoya Inst. of Tech.) AP2013-168 |
One of the problems in wireless power transfer with magnetically coupled resonance is a decrease in transmission efficie... [more] | AP2013-168 pp.7-12 |
| EMCJ, IEE-EMC | 2013-06-21 10:25 |
Kyoto | Kyoto Univ. | Leak Electromagnetic Wave Reduction Method with Combining Vectors for a Wireless Energy Transmission System Takeharu Kohri (SIST) EMCJ2013-18 |
I propose a leak electromagnetic wave reduction method with combining vectors for a wireless energy transmission system.... [more] | EMCJ2013-18 pp.11-16 |
| EE, IEE-HCA | 2013-05-24 14:00 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | Voltage Transmission Analysis of the Multiplex Magnetic Coupled Coil Using Equivalent Circuit Hideaki Abe, Toshihiro Akiyama, Kenichi Irie, Hiroshi Kohara, Mamor Ozaki, Toyohiko Tsujimoto, Hitoshi Kudo, Akira Yabuta (Panasonic) EE2013-3 |
Studies increase from a form of one pair of magnetic coupled to the multiplex magnetic coupled form of plural coils. In ... [more] | EE2013-3 pp.55-60 |
| EE, WPT (Joint) |
2012-11-09 15:15 |
Tokyo | Equivalent Circuit Applicable to Free Positioning Wireless Power Transmission of Apparatus Having Plural Secondary Coils Hideaki Abe, Kenichi Irie, Toyohiko Tsujimoto, Hiromichi Goto, Shinji Sakamoto, Akira Yabuta (Panasonic) EE2012-25 |
Charging system using wireless power transfer technique becomes widely used in the market. There are many feeding forms ... [more] | EE2012-25 pp.25-30 |
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