Fujita Hideki | Jfcc
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概要
関連著者
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Fujita Hideki
Jfcc
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Fujita H
Jfcc
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Fujita Hideki
Electric Power Research & Development Center Chubu Electric Power Co. Inc.
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Ise Toshifumi
Division Of Electrical Electronic And Information Eng. Graduate School Of Eng. Osaka University
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Miura Yushi
Division Of Electrical Electronic And Information Eng. Graduate School Of Eng. Osaka University
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Fujita Hideki
Chubu Electric Power Co. Inc.
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Yokomizu Yasunobu
Department of Electrical Engineering and Computer Science, Nagoya University
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Matsumura Toshiro
Department of Electrical Engineering and Computer Science, Nagoya University
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CALIXTE Evenson
Department of Electrical Engineering, Nagoya University
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Calixte Evenson
Department Of Electrical Engineering Nagoya University
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Matsumura T
Department Of Electrical Engineering And Computer Science Nagoya University
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Matsumura Toshiro
Department Of Electrical Engineering And Computer Science Nagoya University
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Yokomizu Y
Department Of Electrical Engineering And Computer Science Nagoya University
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Yokomizu Yasunobu
Department Of Electrical Engineering And Computer Science Nagoya University
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ISE Toshifumi
Osaka University
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Ise Tosifumi
Division Of Electric Electronic And Information Eng. Graduate School Of Eng. Osaka University
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SIMANJORANG Rejeki
Division of Electrical, Electronic and Information Eng., Graduate School of Eng., Osaka University
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NAETILADDANON Sumate
Department of Electrical Engineering, Osaka University
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Ise Toshifumi
Osaka Univ.
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YOKOMIZU Yasunobu
Nagoya University
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MATSUMURA Toshiro
Nagoya University
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CALIXTE Evenson
Nagoya University
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Sugimoto Shigeyaki
Chubu Electric Power Company Co. Inc.
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Rejeki Simanjorang
Division Of Electrical Electronic And Information Eng. Graduate School Of Eng. Osaka University
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Sumate Naetiladdanon
Department Of Electrical Engineering Osaka University
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Simanjorang Rejeki
Division Of Electrical Electronic And Information Eng. Graduate School Of Eng. Osaka University
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Matsumura Toshiro
Nagoya Univ. Nagoya Jpn
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Yokomizu Yasunobu
Nagoya Univ. Nagoya Jpn
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Miura Yushi
Osaka University Department Of Electrical Engineering
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Shimizu Hirotaka
Department Of Electrical System Engineering Polytechnic University
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SUGIMOTO Shigeyuki
Chubu Electric Power Company, Co. Inc.
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ISE Toshifumi
Department of Electrical Engineering, Osaka University
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FUJITA Hideki
Research and Development Division CHUBU Electric Power Co., Inc.
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Ise Toshifumi
Department Of Electrical Engineering Osaka University
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Miura Yushi
Osaka University
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MIURA Yushi
Division of Electric, Electronic and Information Eng., Graduate School of Eng., Osaka University
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Fujimori Hiroyasu
Institute Of Material Research Tohoku University
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ISE Toshifumi
Division of Electric, Electronic and Information Engineering, Graduate School of Engineering, Osaka
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Fujita Hideki
Institute Of Plasma Physics Nagoya University
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SIMANJORANG Rejeki
Osaka University
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MIURA Yushi
Department of Electrical Engineering, Osaka University
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REJEKI Simanjorang
Osaka University
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SUGIMOTO Shigeyaki
Chubu Electric Power Inc.
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Ise Toshifumi
Division Of Electric Electronic And Information Eng. Graduate School Of Eng. Osaka University
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NAETILADDANON Sumate
Osaka University
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HIRATA Shuichi
Nagoya University
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SHIMIZU Hirotaka
Nagoya University
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Hirata Shuichi
Department of Electrical Engineering and Computer Science, Nagoya University
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藤田 寛治
Institute Of Industrial Science The University Of Tokyo
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藤田 寛治
佐賀大学理工
著作論文
- A Method for Effective Utilization of Power Distribution Apparatus in Industrial Park by Looping Distribution Lines
- Loop Power Balancer System between Distribution Power Transformers Using a Small Capacity Series Type Back to Back Converter
- Series Type Back to Back Converter for Power Exchanging Between Transmission and Distribution Lines
- Standby Mode Operation of Series Type SMES for Voltage Sag Compensation (特集:平成17年〔電気学会〕電力・エネルギー部門大会)
- Series Voltage Sag Compensation Using Series Type SMES with Open-Circuit Protection
- Series Voltage Sag Compensation Using Series Type SMES with Open-Circuit Protection
- Evaluation of Breaking Capability of a Hybrid Fault Current-Limiting Circuit Breaker Based on Mayr-Type Arc Model
- Estimation of Current Interruption for a Circuit Breaker Associated with Inductive Current-Limiter based on Mayr Model
- Effect of a Fault Current Limiter on Interrupting Condition under Breaker Terminal Fault Regime
- Effect of Fault Current Limiter on Transient Recovery Voltage across a Circuit Breaker under Breaker Terminal Fault Condition