Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EE, IEE-HCA |
2019-05-17 13:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Output Characteristics of S-SP type Wireless Power Transfer Allows Large Changes in Power Transmission Distance and Load
-- Mechanism of Suppressing Fluctuation of Received Voltage Derived from k-typed Block Diagram and Trial Demonstration -- Hideaki Abe EE2019-12 |
Research on wireless power transfer is being conducted from various perspectives. As a continuing effort of wireless p... [more] |
EE2019-12 pp.77-82 |
EE, IEE-HCA |
2019-05-17 13:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Mechanism and Precision Evalution of S-SP Type Wireless Power Transfer Performs k Estimation During Power Supply on the Transmission Side
-- k Estimation Method with Only Transmission Voltage Amplitude Derived by Block Digram and Trial Verification -- Hideaki Abe EE2019-13 |
Research on wireless power transfer is being conducted from various perspectives. The author has studied a novel mechani... [more] |
EE2019-13 pp.83-88 |
WPT |
2019-03-07 09:50 |
Kyoto |
Kyoto Univ. Uji Campus |
Proposal of synchronous cooperative control to LED elements group by wireless power transfer (Part 2)
-- Hypothesis and verification of luminescence pattern change in close contact arrangement of multiple secondary loads -- Hideaki Abe WPT2018-65 |
This research is a study to control different behavior with respect to many independent loads grouped, taking advantage ... [more] |
WPT2018-65 pp.5-10 |
WPT |
2019-03-07 10:10 |
Kyoto |
Kyoto Univ. Uji Campus |
Evaluation of Usefulness of Wireless Power transfer by Reciprocating Close Flat Cable Winding
-- Consideration of mutual influence of two loads of multiple magnetic coupling by block diagram and trial verification -- Hideaki Abe WPT2018-66 |
Research on wireless power transfer is being conducted from various perspectives. The author has studied the possibility... [more] |
WPT2018-66 pp.11-16 |
WPT, EE (Joint) |
2018-10-03 13:30 |
Kyoto |
Kyoto Univ. Uji Campus |
Mechanism and Characteristic Evaluation of Wireless Power Transfer Using Movement or Rotating Magnetic Field Hideaki Abe WPT2018-33 |
Research on wireless power transfer is being conducted from various perspectives. The author has studied the possibility... [more] |
WPT2018-33 pp.21-26 |
WPT, EE (Joint) |
2018-10-03 13:50 |
Kyoto |
Kyoto Univ. Uji Campus |
Effect Analysis of Multiple Loads Position and Detach of Receiving Coil in Multi-Winding Parallel Two-Wire Wireless Power Transfer Hideaki Abe WPT2018-34 |
Research on wireless power transfer is being conducted from various perspectives. The author has studied the possibility... [more] |
WPT2018-34 pp.27-32 |
EE, IEE-HCA |
2018-05-10 10:30 |
Tokyo |
Tokyo University of Science |
Behavior Analysis and Efficiency Estimation of Maximum Load of Wireless Power Transfer Using Trapezoidal Voltage Formed by Soft Switching Hideaki Abe EE2018-1 |
Research on wireless power transfer is being conducted from various perspectives. In this paper, analyze a practical wir... [more] |
EE2018-1 pp.1-6 |
EE, IEE-HCA |
2018-05-10 11:00 |
Tokyo |
Tokyo University of Science |
Mechanism of Folding/Unfolding Type Receiving Coil Capable of Changing Only the Coupling Factor with Keeping the Coupled Coil Distance Constant Hideaki Abe EE2018-2 |
The author has studied the possibility of new usage in the wireless power transfer. This paper shows a system that can r... [more] |
EE2018-2 pp.7-12 |
WPT |
2018-03-03 10:00 |
Kyoto |
Kyoto Univ. Uji Campus |
Evaluation of Omnidirectional Receiving Performance of Magnetic Coupled Feeding by 3D Spherical Winding-Receiving Coil and Multi-Rectification Hideaki Abe WPT2017-78 |
Contactless power supply is being studied from a variety of perspectives. The authors have studied new possibilities of ... [more] |
WPT2017-78 pp.53-58 |
AP, WPT (Joint) |
2018-01-18 14:30 |
Nara |
ATR |
Mechanism and Performance Evaluation of Wireless Power Transfer System by Operational Power Generation Hideaki Abe (Panasonic) WPT2017-58 |
By combining environmental power generation and contactless power supply, the author has devised a new mechanism for cor... [more] |
WPT2017-58 pp.15-20 |
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 |
WPT (2nd) |
2013-11-22 13:25 |
Kanagawa |
Yokosuka Research Park |
Behavior analysis when added a pulse and the square pulse voltage to a magnetic-coupled coil with the resonance Hideaki Abe, Toshihiro Akiyama, Mamor Ozaki, Hiroshi Kohara, Toyohiko Tsujimoto, Hitoshi Kudo, Akira Yabuta (Panasonic) |
In the field of wireless power transfer using electromagnetic induction, study approach is pushed forward in a variety o... [more] |
|
EE, WPT, IEE-SPC (Joint) [detail] |
2013-07-25 13:10 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Consideration about Efficiency of Interactive Magnetic Coupled Power Transfer Hideaki Abe, Hiroshi Kohara, Mamor Ozaki, Hitoshi Kudo, Kenichi Irie, Akira Yabuta (Panasonic) EE2013-8 |
Wireless power transfer technology is studied with much use forms. We repeated a study about the interactive wireless po... [more] |
EE2013-8 pp.1-6 |
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 |
WPT (2nd) |
2012-12-06 15:20 |
Kanagawa |
Yokosuka Research Park |
Analysis of series connected magnetic coupling using equivalent circuit which is applicable to a variety of magnetic coupled system Hideaki Abe, Toshihiro Akiyama, Mamor Ozaki, Hiroshi Kohara, Kiyoshi.Ogasawara, Hitoshi Kudo (Panasonic) |
[more] |
|
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 |
WPT (2nd) |
2011-12-20 14:20 |
Tokyo |
National Institute of Information and Communications Technology |
Efficiency of Wireless Energy Transfer System Using Resonance Hideaki Abe, Kiyosi Ogasawara, Futoshi Nishimura, Tomohiro Ota, Hiroyasu Kitamura, Mami Suzuki (Panasonic Electric Works Co.,Ltd) |
[more] |
|
EE |
2011-10-07 16:25 |
Chiba |
Makuhari-Messe |
Efficiency and stand by power of wireless energy transfer system Hideaki Abe, Kaoru Furukawa, Futoshi Nishimura, Tomohiro Ota, Hiroyasu Kitamura (Panasonic Electric Works) EE2011-23 |
Wireless energy transmission technique, which is the transmission of electrical energy from a power source to an electri... [more] |
EE2011-23 pp.31-36 |
EE |
2007-07-20 15:10 |
Yamaguchi |
|
High Efficient 5V Input Induction Heating Circuit using a Voltage Resonant Inverter Hiroyasu Kitamura, Hideaki Abe, Hiroyuki Kameoka, Satoshi Nakayama, Mikihiro Yamashita, Seiichi Iwao (Matsushita Electric Works,Ltd.) EE2007-25 |
The self excitation resonant inverter using one transistor is used for non-contact energy transfer circuit. We applied t... [more] |
EE2007-25 pp.101-105 |
EE, IEE-IEA |
2006-05-19 13:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Output Characteristics of Non -Contact Energy Transfer Using Cascade Connected Detachable Transformer Hideaki Abe, Hiroyasu Kitamura (Matsushita Electric Works,Ltd.) EE2006-5 |
Non-contact energy transfer system using detachable transformers connected cascade is considered. As a result of studyi... [more] |
EE2006-5 pp.25-29 |