Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
MW |
2021-03-05 11:20 |
Online |
Online |
A study on a high attenuation triplexer using chip components Tatsuki Yanagawa, Shinpei Oshima (ONCT), Masaya Tamura (TUT) MW2020-93 |
In this study, we study a small triplexer with high attenuation performance. The specification of the triplexer is for G... [more] |
MW2020-93 pp.13-16 |
MW |
2021-03-05 11:45 |
Online |
Online |
Experimental study of a triplexer using matching circuits consisted of lumped elements Genki Oishi, Shinpei Oshima (NIT,Oyama College), Masaya Tamura (TUT) MW2020-94 |
Recently, the technology of triplexers is actively researched in order to realize the small size and high performance.
... [more] |
MW2020-94 pp.17-21 |
WPT |
2019-06-11 09:50 |
Hokkaido |
Hokkaido Univ. |
Relationship between Reflection Probes and Power Transmission Efficiency in Cavity Resonance enabled WPT Shinji Nimura, Daiki Fujii, Masaya Tamura (TUT) WPT2019-15 |
[more] |
WPT2019-15 pp.25-30 |
MW |
2018-12-13 15:10 |
Kanagawa |
Kanagawa Univ. |
Development of Planer Capacitive Power Transmitter and Receiver for Cavity Resonance enabled WPT Daigo Frusu, Masaya Tamura (Tohohashi Univ. Tech.) MW2018-123 |
This paper proposes a planar capacitive power transmitter and receiver for cavity resonance enabled wireless power trans... [more] |
MW2018-123 pp.55-59 |
EE, WPT, IEE-SPC |
2018-07-03 13:15 |
Hokkaido |
Hokkaido University |
Integration of Differential Power Receiver and Rectifier for Cavith Resonance enabled Wireless Power Transfer Daigo Frusu, Shinji Nimura, Daiki Fujii, Masaya Tamura (Tohohashi Univ. Tech.) WPT2018-24 |
To secure the power of sensor nodes for a wireless sensor network in a greenhouse, we propose a cavity
resonance enable... [more] |
WPT2018-24 pp.91-96 |
ICD, MW |
2018-03-01 14:40 |
Shiga |
The University of Shiga Prefecture |
Bandstop Filter Using Meander Loop Resonator with Folded Open Stub Shosei Tomida, Masaya Tamura (Toyohashi Univ. of Tech.) MW2017-182 ICD2017-106 |
A miniaturization of the wireless devices is demanded due to the development of wireless communication. In particular, v... [more] |
MW2017-182 ICD2017-106 pp.45-50 |
MW |
2017-12-19 15:50 |
Tokyo |
|
Proposal of Reflective Circuit and Variable-Attenuation-Phase Shifter with Independently Controllable Amplitude and Phase Shosei Tomida, Satoshi Kitabayashi, Yuichi Miyaji, Masaya Tamura (Toyohashi Univ. of Tech.) MW2017-151 |
Variable attenuators and phase shifters are used in various wireless systems. However, there are few reports for miniatu... [more] |
MW2017-151 pp.53-58 |
WPT (2nd) |
2017-12-09 - 2017-12-11 |
Overseas |
National University of Singapore(AWPT2017) |
Measurement of complex permittivity for fresh water under high electric field Kousuke Murai, Yasumasa Naka, Takuma Nakata, Masaya Tamura (Toyohashi Tech) |
In this paper, we reveal the complex permittivity properties of fresh water under a high electric field. First, the meas... [more] |
|
WPT (2nd) |
2017-12-09 - 2017-12-11 |
Overseas |
National University of Singapore(AWPT2017) |
Design of Capacitive Coupler for High Efficiency Wireless Power Transfer Under Fresh Water Yasumasa Naka, Kosuke Murai, Masaya Tamura (Toyohashi Tech.) |
This paper describes a design method of the capacitive coupler achieving the improvement in efficiency underwater wirele... [more] |
|
WPT (2nd) |
2017-12-09 - 2017-12-11 |
Overseas |
National University of Singapore(AWPT2017) |
Design and Prototyping of Differential Power Receiver for Cavity Resonance enabled Wireless Power Transfer Daigo Furusu, Ippei Takano, Shinji Nimura, Masaya Tamura (Toyohashi univ. of tech.) |
To secure the power of sensor nodes for wireless sensor network in greenhouse, we propose a cavity resonance enabled wir... [more] |
|
WPT (2nd) |
2017-12-09 - 2017-12-11 |
Overseas |
National University of Singapore(AWPT2017) |
Development of Power Receiving Control Circuit for Cavity Resonance Enabled Wireless Power Transfer Ippei Takano, Daigo Furusu, Shinji Nimura, Masaya Tamura (Toyohashi Tech.) |
A cavity resonance enabled wireless power transfer (CR WPT) can transmit power to line-of-sight and non-line-of-sight po... [more] |
|
WPT, EMCJ (Joint) |
2017-11-21 09:10 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Proposal of Receiving Control System for Cavity Resonance Enabled Wireless Power Transfer Ippei Takano, Daigo Furusu, Shinji Nimura, Masaya Tamura (Toyohashi Univ. ot Tech.) WPT2017-44 |
Cavity resonance enabled wireless power transfer (CR WPT) can transmit power to line-of-sight and non-line-of-sight posi... [more] |
WPT2017-44 pp.1-6 |
WPT, EMCJ (Joint) |
2017-11-21 09:35 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Design and Prototyping of Differential Power Receiver for Cavity Resonance enabled Wireless Power Transfer Daigo Furusu, Ippei Takano, Shinji Nimura, Masaya Tamura (Toyohashi Univ. of Tech.) WPT2017-45 |
[more] |
WPT2017-45 pp.7-10 |
WPT, EMCJ (Joint) |
2017-11-21 13:50 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Design of coupler for high efficiency wireless power transfer under fresh water with electric coupling Yasumasa Naka, Kosuke Murai, Masaya Tamura (Toyohashi Univ. ot Tech.) WPT2017-49 |
This report describes a design method of the capacitive coupler achieving the high efficiency underwater wireless power ... [more] |
WPT2017-49 pp.27-31 |
MW |
2017-06-23 12:10 |
Aichi |
A-101, Wing-A, Toyohashi University of Technology |
Quadruple-mode cavity resonator aimed at compactness and high Q factor Takuma Nagao, Atsushi Funayama, Masaya Tamura (TUT) MW2017-30 |
A multimode resonator is one of the promising solutions to downsize the base station filter. However, minimization of th... [more] |
MW2017-30 pp.49-54 |
MW, ICD |
2017-03-02 13:50 |
Okayama |
Okayama Prefectural Univ. |
Design Method of Analog Cancellation Circuit Using Signal Inversion for In-Band Full-Duplex Wireless Communication Shosei Tomida, Yuichi Miyaji, Masaya Tamura (Toyohashi Univ. of Tech.) MW2016-196 ICD2016-126 |
In-band full-duplex (IBFD) wireless communication is spotlighted. IBFD system simultaneously transmits and receives at t... [more] |
MW2016-196 ICD2016-126 pp.45-50 |
WPT |
2017-02-10 15:25 |
Kanagawa |
YRP center, 1st Bldg. |
Proposal of Underwater Wireless Power Transfer with Electric Coupling Method Yasumasa Naka, Kyohei Yamamoto, Takuma Nakata, Masaya Tamura (TUT) WPT2016-61 |
In this paper, underwater wireless power transfer with electric coupling method is proposed. First, by using 3D electrom... [more] |
WPT2016-61 pp.23-26 |
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 |
MW |
2016-12-16 09:00 |
Kanagawa |
National Defense Academy |
Basic study of multi-mode resonances using cylindrical substrate integrated waveguide Keita Sato, Shosei Tomida, Masaya Tamura (TUT) MW2016-154 |
With the realization of the base station for the small cells in the next generation of wireless systems, high performanc... [more] |
MW2016-154 pp.123-127 |
WPT |
2016-02-12 15:35 |
Kanagawa |
YRP center, 1st Bldg. |
Basic Study on Wireless Power Transfer in Shielded Space with Scatterers Based on Cavity Resonator Theory Yosuke Watanabe, Ippei Takano, Masaya Tamura (Toyohashi Tech) WPT2015-75 |
Reducing vehicle weight is one of the key factors for improvement in fuel efficiency. Therefore, wireless power transfer... [more] |
WPT2015-75 pp.17-20 |