摘要
介绍一种能够有效抑制金属卤化物灯 (简称金卤灯 )声共振问题的方法。通过在电子镇流器的控制回路中加入低频正弦波调制 ,改变灯端电流的频率 ,使其无法在放电腔中形成驻波 ,从本质上很好地解决了金卤灯的声共振问题 ,确保电弧稳定 ,而且该方法能够保证金卤灯在工作时功率恒定。最后给出 4 0 0W金卤灯的实验结果 ,证明了该方法可以有效地抑制声共振 。
出处
《中国照明电器》
2003年第1期1-5,共5页
China Light & Lighting
参考文献8
-
1Yue-quan Hu, Jun Zhang, Wei Chen, etc. Analysis and Design of Metal Halide Lamp Igniter. IEEE Power Electronics specialists Conference, 2001(1):132~137
-
2N. Brates, E. F. Wyner. Pulsed Operation of a High Pressure Sodium Lamp JOURNAL of the Illuminating Engineering Society, 1987:50~66
-
3Makoto Hayashi, Hideki Ohguchi, Toshihisa Shimizu, etc. High Frequency Electronic Ballast for HID Lamps Based on λ/4-long Distributed Constant Line with Buck-Boost AC-DC Converter Suitable for Half-Bridge Inverter.IEEE TRANSACTIONS ON POWER ELECTRONICS, 1998, 13 (6): 1023~1029
-
4Walter Kaiser. Hybrid Electronic Ballast Operating the HPS Lamp at Constant Power. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS,1998,34(2) :319~324
-
5P. Van Tichelen, D. Weyen, G. Meynen. Test Results from High Intensity Discharge Lamps with Current Supplied at 50Hz, 400Hz and Modulated between 15 and 35kHz. IEEE, 1996:2225~2230
-
6T. J. Liang, K. H. Su, W. H. Fu. High Frequency Electrical Circuit Model of Metal-Halide Lamp. IEEE APEC 98: 1163~1167
-
7C. L. Tsay, H. S. Chun, L. M. Wu, etc. Development of the Versatile Electronic Ballast for Metal halide Lamps With Phase-Shift Soft-Switching Control. IEEE, 1996: 2112~2119.
-
8Chi-Hwan LEE. Electronic Ballast for 400W Metal Halide Lamp. http://www. pwm. pe. kr/mhd. zip
同被引文献22
-
1林国庆,陈大华,陈和平.金属卤化物灯电子镇流器研究[J].电工电能新技术,2004,23(4):70-72. 被引量:4
-
2李桂臣,苏建徽,张国荣.400W太阳能高压钠灯电子镇流器的研制[J].节能,2005,24(12):32-34. 被引量:2
-
3Maussion P, Chhun L, Bhosle S, et al. Acoustic resonance characteristics in a high pressure sodium lamp [ C ]//Proc IEEE IAS'08. 2008:1 -4.
-
4Dalla Costa M A, Alonso J M, Lopez E, et al. Acoustic resonance characterization of low-wattage metal-halide lamps under low-frequency square-waveform operation [ C]//Proc IEEE IAS' 05. 2005 : V 3, 1575 - 1580.
-
5Dalla Costa M A, Alonso J M, Ribas J, et al. Small-signal characterization of acoustic resonances in low-wattage metal halide lamps [ C ]//Proc IEEE PESC' 05. 2005 : 1469 - 1475.
-
6Anton J C A, Blanco C, Ferrero F J, et al. An acoustic resonance band detection workbench for HID lamps[ J]. IEEE T Ind Appl, 2007, 43(5) :1191 - 1198.
-
7Kaiser W, Marques R P, Correa A F. An alternative optical method for acoustic resonance detection in HID lamps [ C ]//Proc IEEE IAS'09. 2009: 1-6.
-
8Olsen J, Moskowitz W P. Optical measurement of acoustic resonance frequencies in HID lamps [ C]//Proc IEEE IAS' 97. 1997: V 3, 2263 -2269.
-
9张卫平,孙哲锋,张晓强,等.小功率金属卤化物灯开环的实验研究[c]//中国电工技术学会电力电子学会第十一届学术年会论文集.2008.
-
10Anton J C, Blanco C, Ferrero F, et al. Acoustic resonance effects in high pressure sodium lamps [ C ]//Proc IEEE IAS ' 07. 2007 : 479 - 483.
-
1郑魏,李强,骆德汉.基于双向逆变器的太阳能供电系统[J].电源技术,2016,40(3):631-632. 被引量:1
-
2方蒽,宋金梅.直驱永磁风力发电机的控制策略研究[J].变频器世界,2010(4):51-55.
-
3张相军,王兴国,吕志伟.高频数字化低压钠灯电子镇流器研究[J].电气应用,2011,30(2):28-30. 被引量:2
-
4樊长鑫,黄文新,李春杰.组合式三相单级PFC变换器研究[J].电力电子技术,2015,49(4):94-96.
-
5齐蓉,陈峥,林辉.永磁容错电机解耦控制研究[J].西北工业大学学报,2007,25(6):809-813. 被引量:8
-
6苏适,翟伟翔.智能微网中恒进线功率控制的设计及应用[J].云南电力技术,2013,41(3):17-21.
-
7张丽娟.浅析供电系统中消弧线圈的故障检测[J].山东工业技术,2015(5):203-203.
-
8惠保安,盛杰,金健.10kV以下变压器的日常维护与检修[J].今日科苑,2010(22):135-135.
-
9高道行.牵引逆变器SPWM调制时直流侧谐波分析[J].机车电传动,2016(1):25-34. 被引量:2
-
10董大为,王浩,杨墨.无槽无刷电机宽调速以及位置随动系统设计[J].微电机,2010,43(10):67-71.
