Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EE |
2024-01-18 14:20 |
Kagoshima |
(Primary: On-site, Secondary: Online) |
Asymmetric Three-Phase Interleaved LLC Resonant Converter with Current Balancing Capability and Wide Voltage Gain Range Yuta Arakawa, Masatoshi Uno (Ibaraki Univ.) EE2023-43 |
Voltages of lithium-ion batteries for electric vehicles vary in the range of 100–420 V depending on their state of charg... [more] |
EE2023-43 pp.19-24 |
EE, WPT (Joint) |
2023-10-06 14:25 |
Osaka |
(Primary: On-site, Secondary: Online) |
Double Voltage Rectifier Duty Cycle Controlontrolled Resonant Converter
-- Comparison of Primary and Secondary Side Resonance -- Himawari Adachi, Sato Terukazu (Oita Univ.) EE2023-23 |
This paper presents the results of a study of LLC current resonant converter with a double voltage rectifier circuit on ... [more] |
EE2023-23 pp.35-39 |
EE, IEE-SPC |
2023-07-21 11:10 |
Hyogo |
(Primary: On-site, Secondary: Online) |
Small Signal Transfer Function of Duty Cycle LLC Current Resonant Converter Himawari Adachi, Terukazu Sato (Oita Univ.) EE2023-15 |
This paper reports the results of research on small-signal transfer functions of LLC current-resonant DC-DC converters. ... [more] |
EE2023-15 pp.79-83 |
EE |
2023-03-06 10:15 |
Okinawa |
(Primary: On-site, Secondary: Online) |
Small Signal Transfer Function of Duty Cycle LLC Current Resonant Converter Himawari Adachi, Terukazu Sato (Oita Univ.) EE2022-58 |
This paper presents the results of a study on the small-signal transfer function of an LLC current resonant DC-DC conver... [more] |
EE2022-58 pp.19-23 |
EE |
2022-01-27 10:05 |
Online |
Online |
PWM Control of Secondary Side LC Resonant Converter
-- Consideration of control frequency -- Sou Yanagimoto, Terukazu Sato (Oita Univ) EE2021-31 |
LC current resonant converters are expected to be applied to various circuits because of their small size, high efficien... [more] |
EE2021-31 pp.1-5 |
EE |
2022-01-28 09:30 |
Online |
Online |
Automatic Capacitive Current Balancing Multi-Phase Reconfigurable LLC Converter with Wide Voltage Gain Range for On-Board Battery Charger Kakeru Koyama, Masatoshi Uno (Ibaraki Univ.) EE2021-40 |
On-board battery chargers need a large-current capacity isolated dc-dc converter with a wide voltage gain range as volta... [more] |
EE2021-40 pp.52-57 |
EE, OME, CPM |
2021-11-18 11:10 |
Online |
Online |
PWM Control of LC Resonant Converter
-- Consideration of ZVS range -- So Yanagimoto, Terukazu Sato (Oita Univ) EE2021-22 CPM2021-40 OME2021-16 |
In this paper, an LC series resonant converter using soft switching is applied to a boost type secondary LC resonant cir... [more] |
EE2021-22 CPM2021-40 OME2021-16 pp.24-28 |
EE |
2021-01-25 16:10 |
Online |
Online (Zoom) |
Current resonance type soft switching converter using Cockcroft-Walton circuit Eita Morii, Kazuki Mine, Yuichi Noge, Masahito Shoyama (Kyushu Univ.) EE2020-37 |
A high step-up ratio isolated DC-DC converter using a step-up transformer and a Cockcroft-Walton (CW) circuit is used fo... [more] |
EE2020-37 pp.75-80 |
EE |
2016-01-28 15:00 |
Fukuoka |
KURUME HOTEL ESPRIT |
Small Signal Analysis of Switching Converters Using Equivalent Source Model Terukazu Sato, Yusuke Murakami (Oita univ.) EE2015-9 |
This paper presents small signal AC analysis of LLC current resonant converter. Equivalent source model that represents ... [more] |
EE2015-9 pp.1-6 |
EE, CPM |
2015-02-27 10:50 |
Tokyo |
NTT Musashino R&D Center |
A Static Characteristic Analysis of Serial Connected Dual Active Bridge DC-DC Converter Masaki Sato, Yoichi Ishizuka (Nagasaki Univ.) EE2014-43 CPM2014-157 |
The dual active bridge(DAB) DC-DC converter is one of the bi-directional isolated DC-DC converter. By using Input-Series... [more] |
EE2014-43 CPM2014-157 pp.13-18 |
EE, WPT, IEE-SPC (Joint) [detail] |
2013-07-26 12:45 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Performance Characteristics of DC-DC Converter Using Changeable Integral Function Tsuyoshi Kume, Kazuhiro Kajiwara, Fujio Kurokawa (Nagasaki Univ.) EE2013-12 |
The paper presents the DC-DC converter using changeable integral function. The minimum integral gain for every load curr... [more] |
EE2013-12 pp.55-59 |
EE, IEE-SPC |
2010-07-30 09:50 |
Kochi |
Kochi National College of Technology |
Evaluation of Inverter Output Voltage with Direct RMS control Method Yuhei Okazaki, Kenichiro Fujiwara, Masanobu Yoshida (Kochi College of Tech) EE2010-8 |
In Electric Double Layer Capacitors(EDLCs) application, boost-type converter is employed for compensate voltage drop of ... [more] |
EE2010-8 pp.17-20 |
EE |
2009-10-09 10:30 |
Tokyo |
|
Constant Frequency Hysteretic PWM Controller for Buck Converter Kiichiro Taniguchi, Terukazu Sato, Takashi Nabeshima, Kimihiro Nishijima (Oita Univ.) EE2009-20 |
This paper presents a constant frequency hysteretic PWM controlled buck converter. In order to have good transient respo... [more] |
EE2009-20 pp.7-11 |
EE |
2009-10-09 14:10 |
Tokyo |
|
Improvement in transient characteristics of digital-controlled DC-DC converter with PWM control of predicting switch timing Takeshi Usuda (COSEL), Yoshiki Matsuo (Tokyo Univ. of Tech.), Takeshi Takayanagi, Yasuhiro Masuya (COSEL) EE2009-25 |
In general, transient characteristics necessary for dc-dc converter are input transient characteristic, load transient c... [more] |
EE2009-25 pp.37-42 |
CAS, CS, SIP |
2009-03-03 13:10 |
Gifu |
Nagaragawa Convention Center |
[Poster Presentation]
First-order all-pass section employing DVCC and OTA Takao Tsukutani, Hideki Tsunetsugu (Matsue College. of Tech.), Yasuaki Sumi (Tottori Univ. of Envi-ronmental Studies,), Noboru Yabuki (Tsuyama College. of Tech.) CAS2008-129 SIP2008-192 CS2008-103 |
This paper presents a realization of a voltage-mode first-order all-pass section employing a differential voltage curren... [more] |
CAS2008-129 SIP2008-192 CS2008-103 pp.159-164 |
EE |
2008-10-03 10:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Dynamic haracteristic of LLC Current-Resonant DC-DC converter Chunfeng Jin, Tamotsu Ninomiya (Nagasaki Univ.), Satoshi Tomioka (DESEI-LAMBDA) EE2008-35 |
This paper presents the static and dynamic characteristics of an LLC current-resonant converter. Firstly, considering th... [more] |
EE2008-35 pp.1-6 |
ED |
2008-08-05 09:25 |
Shizuoka |
Sizuoka Univ. Hamamatsu Campus |
Improvement of analog circuits for in situ analysis of field emission properties Yasuhito Gotoh, Michito Kawasaki, Hiroshi Tsuji, Junzo Ishikawa (Kyoto Univ.) ED2008-118 |
We have improved the analog circuits used for the in situ analyzer of
the field emission properties.
The original an... [more] |
ED2008-118 pp.45-48 |
CS, SIP, CAS |
2008-03-07 10:25 |
Yamaguchi |
Yamaguchi University |
Electronically tunable current-mode biquadratic circuit using plus type DVCCCs and grounded capacitors Kazushi Nagira, Takao Tsukutani (Matsue National Col.), Yasuaki Sumi (Tottori Univ. Environmental Studies), Noboru Yabuki (Tsuyama National Col.) CAS2007-133 SIP2007-208 CS2007-98 |
This paper introduces a current-mode biquadratic circuit employing differential voltage current-controlled current conve... [more] |
CAS2007-133 SIP2007-208 CS2007-98 pp.47-52 |
CS, SIP, CAS |
2008-03-07 10:50 |
Yamaguchi |
Yamaguchi University |
Electronically tunable current-mode biquadratic circuit employing current controlled CDBAs Katsuya Sueishi, Takao Tsukutani (Matsue National Col.), Noboru Yabuki (Tsuyama National Col.), Yasuaki Sumi (Tottori Univ. Environmental Studies) CAS2007-134 SIP2007-209 CS2007-99 |
This paper introduces a current-mode universal biquadratic circuit using current controlled current differencing buffere... [more] |
CAS2007-134 SIP2007-209 CS2007-99 pp.53-58 |
CS, SIP, CAS |
2008-03-07 13:00 |
Yamaguchi |
Yamaguchi University |
[Poster Presentation]
Electronically tunable current-mode biquadratic circuit employing current-controlled unity gain cells Ayumu Karita, Takao Tsukutani (Matsue National Col.), Yasuaki Sumi (Tottori University of Environmental Studies), Noboru Yabuki (Tsuyama National Col.) CAS2007-138 SIP2007-213 CS2007-103 |
This paper introduces an electronically tunable current-mode biquadratic circuit employing current controlled unity gain... [more] |
CAS2007-138 SIP2007-213 CS2007-103 pp.69-74 |