Single-stage CCM PFC electronic ballast

研究成果: Paper

2 引文 (Scopus)

摘要

This paper presents a single-stage electronic ballast with continuous-current-mode (CCM) power factor correction (PFC), which is a combination of a boost-type PFC network and a DC/AC inverter to allow CCM operation for the PFC inductor in the boost-type PFC network. Among the PFC techniques proposed in recent years, in general, the discontinuous-current -mode single-stage PFC electronic ballasts have such drawbacks as high electromagnetic interference, high current stress, and high switching and conduction losses. The PFC capacitor of the developed boost-type PFC network can help the PFC inductor to achieve CCM, thus shaping the input current of the proposed electronic ballast to achieve high power factor (PF). Finally, a 36 W rated power electronic ballast prototype circuit is designed and implemented. Experimental results verify the advantages of the proposed ballast; these include the following: the input current harmonics meet the IEC 61000-3-2 Class C Standard, and the ballast offers lower conducted EMI and lower current stress on switches and diodes.

原文English
頁面605-611
頁數7
DOIs
出版狀態Published - 2005 十二月 1
事件20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005 - Austin, TX, United States
持續時間: 2005 三月 62005 三月 10

Other

Other20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005
國家United States
城市Austin, TX
期間05-03-0605-03-10

指紋

Signal interference
Power electronics
Diodes
Capacitors
Switches
Networks (circuits)

All Science Journal Classification (ASJC) codes

  • Electrical and Electronic Engineering

引用此文

Lin, R-L., Lan, Y. M., Chen, F. Y., Liang, T-J., & Chen, J-F. (2005). Single-stage CCM PFC electronic ballast. 605-611. 論文發表於 20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005, Austin, TX, United States. https://doi.org/10.1109/APEC.2005.1453008
Lin, Ray-Lee ; Lan, Y. M. ; Chen, F. Y. ; Liang, Tsorng-Juu ; Chen, Jiann-Fuh. / Single-stage CCM PFC electronic ballast. 論文發表於 20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005, Austin, TX, United States.7 p.
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Lin, R-L, Lan, YM, Chen, FY, Liang, T-J & Chen, J-F 2005, 'Single-stage CCM PFC electronic ballast', 論文發表於 20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005, Austin, TX, United States, 05-03-06 - 05-03-10 頁 605-611. https://doi.org/10.1109/APEC.2005.1453008

Single-stage CCM PFC electronic ballast. / Lin, Ray-Lee; Lan, Y. M.; Chen, F. Y.; Liang, Tsorng-Juu; Chen, Jiann-Fuh.

2005. 605-611 論文發表於 20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005, Austin, TX, United States.

研究成果: Paper

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N2 - This paper presents a single-stage electronic ballast with continuous-current-mode (CCM) power factor correction (PFC), which is a combination of a boost-type PFC network and a DC/AC inverter to allow CCM operation for the PFC inductor in the boost-type PFC network. Among the PFC techniques proposed in recent years, in general, the discontinuous-current -mode single-stage PFC electronic ballasts have such drawbacks as high electromagnetic interference, high current stress, and high switching and conduction losses. The PFC capacitor of the developed boost-type PFC network can help the PFC inductor to achieve CCM, thus shaping the input current of the proposed electronic ballast to achieve high power factor (PF). Finally, a 36 W rated power electronic ballast prototype circuit is designed and implemented. Experimental results verify the advantages of the proposed ballast; these include the following: the input current harmonics meet the IEC 61000-3-2 Class C Standard, and the ballast offers lower conducted EMI and lower current stress on switches and diodes.

AB - This paper presents a single-stage electronic ballast with continuous-current-mode (CCM) power factor correction (PFC), which is a combination of a boost-type PFC network and a DC/AC inverter to allow CCM operation for the PFC inductor in the boost-type PFC network. Among the PFC techniques proposed in recent years, in general, the discontinuous-current -mode single-stage PFC electronic ballasts have such drawbacks as high electromagnetic interference, high current stress, and high switching and conduction losses. The PFC capacitor of the developed boost-type PFC network can help the PFC inductor to achieve CCM, thus shaping the input current of the proposed electronic ballast to achieve high power factor (PF). Finally, a 36 W rated power electronic ballast prototype circuit is designed and implemented. Experimental results verify the advantages of the proposed ballast; these include the following: the input current harmonics meet the IEC 61000-3-2 Class C Standard, and the ballast offers lower conducted EMI and lower current stress on switches and diodes.

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Lin R-L, Lan YM, Chen FY, Liang T-J, Chen J-F. Single-stage CCM PFC electronic ballast. 2005. 論文發表於 20th Annual IEEEApplied Power ElectronicsConference and Exposition, APEC 2005, Austin, TX, United States. https://doi.org/10.1109/APEC.2005.1453008