TY - GEN
T1 - Electronic ballast for high pressure sodium lamp based on charge pump power factor correction technique
AU - Wei, Wang
AU - Guihua, Liu
AU - Dianguo, Xu
PY - 2005
Y1 - 2005
N2 - This paper investigates the application of continuous input current charge pump power factor correction (CIC-CPPFC) techniques in electronic ballast. Comparing with traditional two-stage electronic ballast, it has fewer components and lower cost. The laboratory prototype of CIC-CPPFC electronic ballast for 50W HPS lamp is designed and tested in this paper. Experiment results verify that the single-stage electronic ballast can not only ignite HPS lamp with variable frequency, it can also hold constant power when the input voltage varies in a wide range. It has various malfunctions protection function including open circuit, short circuit, or hot lamps. During the starting-up period, the protection circuit will block the half-bridge inverter for a long period if the lamp in hot state. After the protection time, the lamp isn't in hot state, and it will be turned on again. In this paper, more than 0.99 power factor and less than 11% THD can be achieved.
AB - This paper investigates the application of continuous input current charge pump power factor correction (CIC-CPPFC) techniques in electronic ballast. Comparing with traditional two-stage electronic ballast, it has fewer components and lower cost. The laboratory prototype of CIC-CPPFC electronic ballast for 50W HPS lamp is designed and tested in this paper. Experiment results verify that the single-stage electronic ballast can not only ignite HPS lamp with variable frequency, it can also hold constant power when the input voltage varies in a wide range. It has various malfunctions protection function including open circuit, short circuit, or hot lamps. During the starting-up period, the protection circuit will block the half-bridge inverter for a long period if the lamp in hot state. After the protection time, the lamp isn't in hot state, and it will be turned on again. In this paper, more than 0.99 power factor and less than 11% THD can be achieved.
UR - https://www.scopus.com/pages/publications/33749664586
U2 - 10.1109/IECON.2005.1569011
DO - 10.1109/IECON.2005.1569011
M3 - 会议稿件
AN - SCOPUS:33749664586
SN - 0780392523
SN - 9780780392526
T3 - IECON Proceedings (Industrial Electronics Conference)
SP - 826
EP - 830
BT - IECON 2005
T2 - IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society
Y2 - 6 November 2005 through 10 November 2005
ER -