Presentation 2006-12-15
Conducted Emission Analysis of A Lighting Implement : Study on a numerical model employing the 3-D finite element method
Tomoyuki KIDA, Yoshihiko NAMBA, Yoshio MITSUTAKE, Katsuhiro HIRATA,
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Abstract(in English) The conducted emission model for the inverter lighting implement is investigated from 10MHz to 30MHz band employing the 3-D finite element method. It is experimentally understood that conducted emission is mainly influenced by the common mode current. We proposed a numerical model of conducted emission by taking account of the propagation route of the common mode current. The validity of the numerical model was verified by the comparison with the measurement of a simplified implement model replacing the lamp and the electronic ballast by the resistance and CST (Comparison Spectrum Transmitter), respectively.
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Keyword(in English) Inverter lighting implement / Conducted emission / 3-D finite element method / Common mode current
Paper # EMCJ2006-87
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Conference Information
Committee EMCJ
Conference Date 2006/12/8(1days)
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Paper Information
Registration To Electromagnetic Compatibility (EMCJ)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Conducted Emission Analysis of A Lighting Implement : Study on a numerical model employing the 3-D finite element method
Sub Title (in English)
Keyword(1) Inverter lighting implement
Keyword(2) Conducted emission
Keyword(3) 3-D finite element method
Keyword(4) Common mode current
1st Author's Name Tomoyuki KIDA
1st Author's Affiliation EMC & PCB Analysis Division, Matsushita Electric Works Analysis Center Co., Ltd()
2nd Author's Name Yoshihiko NAMBA
2nd Author's Affiliation EMC & PCB Analysis Division, Matsushita Electric Works Analysis Center Co., Ltd
3rd Author's Name Yoshio MITSUTAKE
3rd Author's Affiliation Advanced Technologies Development Laboratory, Matsushita Electric Works, Ltd.
4th Author's Name Katsuhiro HIRATA
4th Author's Affiliation Graduate School of Engineering Osaka Univesity
Date 2006-12-15
Paper # EMCJ2006-87
Volume (vol) vol.106
Number (no) 433
Page pp.pp.-
#Pages 5
Date of Issue