Conducted Emission Characteristics of an Active Snubber Boost Converter
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概要
- 論文の詳細を見る
In this paper, the conducted emission characteristics of an active snubber boost converter with proposed timing diagram are investigated and compared with its conventional boost converter. It is illustrated theoretically and experimentally that the soft switching technique can reduce the high switching dv/dt and di/dt rate, as well as the conducted emission noise spectra generated from the hard-switched counterpart effectively. The presented active snubber boost converter shows the line to ground and the neutral to ground conducted emission spectra significantly be improved at high frequency range over the hard-switched operation.
- 社団法人 電気学会の論文
- 2003-05-01
著者
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Nitta Shuichi
Graduate School Salesian Poly-technic
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Nitta Shuichi
Graduate School Production System Engineering Salesian Polytechnic
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TANTISUKAROM Chaiya
Faculty of Engineering and Research Centcr for Communications and Information Technology, King Mongk
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KHANNGERN Werachet
Faculty of Engineering and Research Centcr for Communications and Information Technology, King Mongk
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Khanngern Werachet
Faculty Of Engineering And Research Centcr For Communications And Information Technology King Mongku
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Tantisukarom Chaiya
Faculty Of Engineering And Research Centcr For Communications And Information Technology King Mongku
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Shuichi Nitta
Graduate School, Production System Engineering, Salesian Polytechnic
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Werachet Khanngern
Faculty of Engineering and Research Center for Communications and Information Technology, King Mongkut's Institute of Technology Ladkrabang(KMITL)
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Chaiya Tantisukarom
Faculty of Engineering and Research Center for Communications and Information Technology, King Mongkut's Institute of Technology Ladkrabang(KMITL)
関連論文
- Novel Method for Predicting PCB Configurations for Near-Field and Far-Field Radiated EMI Using a Neural Network
- Conducted Emission Characteristics of an Active Snubber Boost Converter
- Novel Method for Predicting PCB Configurations for Near-Field and Far-Field Radiated EMI Using a Neural Network