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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 42  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
EE 2024-01-19
14:00
Kagoshima
(Primary: On-site, Secondary: Online)
Analysis and Design of Class-Φ3 Power Oscillator
Yutaro Komiyama, Akihiro Konishi, Wenqi Zhu, Ayano Komanaka, Kien Nguyen, Hiroo Sekiya (Chiba Univ.) EE2023-54
This paper presents the design of the class-Φ3 power oscillator. The topology of the proposed power oscillator features ... [more] EE2023-54
pp.83-87
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
EE 2023-01-20
15:40
Fukuoka Kyushu Institute of Technology
(Primary: On-site, Secondary: Online)
Isolated Multilevel Pulsating DC-Link Inverter for Cryogenic Temperature Power Conversion in Aircraft Applications
Shin Geonho (Kyushu Univ.), Mohamed Salah (Minia Univ.), Yuichi Noge, Masahito Shoyama (Kyushu Univ.), Gamal M. Dousoky (Minia Univ.) EE2022-53
The introduction of cryogenic power conversion equipment will make it possible to significantly improve the efficiency a... [more] EE2022-53
pp.151-156
EE, IEE-SPC 2022-07-15
09:40
Aichi WINC AICHI
(Primary: On-site, Secondary: Online)
Maximum efficiency tracking for Wireless Power Transfer with Multiple Receivers
Toshihiro Matsuda, Yutaro Komiyama, Wenqi Zhu, Nguyen Kien, Hiroo Sekiya (Chiba Univ.) EE2022-12
This paper proposes a pre-post regulation for a multi-receiver WPT system and presents a design guideline for a multi-re... [more] EE2022-12
pp.22-26
EE 2021-01-25
15:45
Online Online (Zoom) High-Order Harmonics-involved Frequency Domain Analysis on a Current-fed Snubber-less ZCS Step-Up DC-DC Converter
Ryusei Miyazaki, Tomokazu Mishima (Kobe Univ.) EE2020-36
Recently, the installation of smart grids has been actively promoted from the viewpoint of stabilizing power supply and ... [more] EE2020-36
pp.69-74
EE 2021-01-25
16:35
Online Online (Zoom) A Study on Boundary Conduction Mode Vienna Rectifier
Jizhe Wang (NiAS), Shanghua Feng (GIWEE), Fujio Kurokawa (NiAS) EE2020-38
This paper proposed an analog-based boundary conduction mode (BCM) control for the three-phase three-level Vienna rectif... [more] EE2020-38
pp.81-85
EE 2019-01-16
13:20
Kumamoto KCIC Analysis and design of wireless power transfer system based on class-D^2 DC-DC converter
Shohei Mita, Hiroo Sekiya (Chiba Univ.) EE2018-42
This paper presents a design procedure of wireless power transfer system based on class-D2 converter, taking into accoun... [more] EE2018-42
pp.25-30
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
WPT, EE
(Joint)
2018-10-03
11:25
Kyoto Kyoto Univ. Uji Campus Operation Characteristics of Input-Series-Output-Parallel LLC Resonant DC-DC Converter based on Interleaved Principle and Its Experimental Evaluations
Masaki Hanauchi, Tomokazu Mishima (Kobe Univ.) EE2018-19
An Input-series-output-parallel (ISOP) switching power converter topology is suitable for electric power processing arch... [more] EE2018-19
pp.7-10
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, WPT
(Joint)
2014-11-18
10:00
Kyoto Doshisha University A Novel ZVS Class-D Direct-Current-Resonance Wireless Power Transfer with GaN FETs Operated in 6.78MHz
Tatsuya Hosotani (Murata Manufacturing) WPT2014-50
A novel ZVS class-D direct-current-resonance wireless power transfer with GaN FETs operated in 6.78MHz is proposed. A di... [more] WPT2014-50
pp.1-6
EE, WPT
(Joint)
2014-11-19
10:25
Kyoto Doshisha University A Novel 6.78MHz Experimental Results of a ZVS Push-pull Class-E Direct-Current-Resonance Wireless Power Transfer
Toru Yoshikawa (Doshisha Univ.), Tatsuya Hosotani (Murata Manufacturing), Koji Fujiwara (Doshisha Univ.) WPT2014-58
The direct current resonance is a new technology that makes it possible to convert DC electric energy into electromagnet... [more] WPT2014-58
pp.43-48
MW, SCE, WPT 2014-04-18
14:50
Tokyo Kikai-Shinko-Kaikan Bldg. A Novel Mirror Symmetry Constructible Class-E Direct-Current-Resonance Bi-directional Wireless Power Transfer System
Tatsuya Hosotani (Murata Mfg.) WPT2014-20 SCE2014-20 MW2014-20
A novel mirror symmetry constructible class-E direct-current-resonance bi-directional wireless power transfer system is ... [more] WPT2014-20 SCE2014-20 MW2014-20
pp.103-108
EE, WPT, IEE-SPC
(Joint) [detail]
2013-07-25
13:35
Tokyo Kikai-Shinko-Kaikan Bldg. A Novel Analysis of Direct Current Resonance Class-E Multi-Resonant ZVS Wireless Power Transfer System Operated in 10MHz Range
Toru Yoshikawa (Doshisha Univ.), Tatsuya Hosotani (Murata Manufacturing), Koji Fujiwara (Doshisha Univ.) EE2013-9
We present a novel analysis of Direct Current Resonance class -E multi-resonant ZVS wireless power transfer system ope... [more] EE2013-9
pp.7-12
EE, WPT, IEE-SPC
(Joint) [detail]
2013-07-26
14:35
Tokyo Kikai-Shinko-Kaikan Bldg. Experimental Evaluations of a Multi-Resonant DC-DC Converter with Synchronous Rectification for Low-Voltage Loads in DC Micro-grid Power System
Masashi Hanioka, Tomokazu Mishima (Kobe Univ.) EE2013-16
This paper presents the experimental characteristics of a multi-resonant LLC DC-DC converter for low-voltage loads in DC... [more] EE2013-16
pp.79-84
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
EE, CPM 2013-01-24
16:35
Kumamoto   Power Loss Analysis of the Five-Element Multi-Resonant DC-DC Converter and Its Experimental Evaluations
Hiroto Mizutani, Tomokazu Mishima (Kobe Univ.), Mutsuo Nakaoka (Kyungnam Univ.) EE2012-40 CPM2012-162
The full-bridge inverter link LLC multi-resonant DC-DC converter utilizing parasitic parameters in the high frequency tr... [more] EE2012-40 CPM2012-162
pp.71-74
EE, WPT
(Joint)
2012-11-08
14:30
Tokyo   [Special Talk] A Novel Design Theory Using Coefficient of coupling for the ZVS Resonant Wireless Power Transfer with High-Frequency Power Electronics
Tatsuya Hosotani (Murata)
We advocate high-frequency power electronics as a new interdisciplinary technical field. We expect wireless power transf... [more]
EE, WPT
(Joint)
2012-11-09
15:40
Tokyo   Analysis on Steady State Operation of Five-Element Multi-Resonant DC-DC Converter
Hiroto Mizutani, Tomokazu Mishima (Kobe Univ.), Mutsuo Nakaoka (Kyungnam Univ.) EE2012-26
The full-bridge inverter link LLC multi-resonant DC-DC converter with anti-resonant circuit(LLC-LC) can realize the outp... [more] EE2012-26
pp.31-36
EE 2012-10-12
10:30
Tokyo   A Novel design for a Multi-Resonant ZVS Wireless Power Transfer System with Electromagnetic Field Resonant Coupling Using Two Loop Coils
Tatsuya Hosotani (Murata Manufacturing Company), Yuichiro Obayashi (oshisha Univ.), Koji Fujiwara (Doshisha Univ.) EE2012-17
We present a novel design for a multi-resonant ZVS wireless power transfer system with electromagnetic field resonant co... [more] EE2012-17
pp.9-14
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