一种新型LED灯瞬态控制方法的研究

Novel Way of Transient Current Control for LED

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摘要对数字LED的峰值电流控制方法进行了分析和研究,并以Buck变换器拓扑结构作为研究对象,理论分析了Buck电路的峰值电流前缘和后缘数字控制方法,仿真分析比较这两种控制方法优缺点。仿真结果表明,前缘调制比后缘调制有更快的瞬态响应速度和更小的电压跌落和过冲。最后实验揭示了前缘控制方法的瞬态特性。本文提出的LED灯峰值电流前缘控制方法对LED启动时的冲击电流起到抑制作用,对电网电压波动带来的不利因素也起到一定的稳压保护作用,提高了LED的发光率和使用寿命。 Taking Buck converter topology for the research object,this paper studies digital LED peak current control methods,and analyzes the digital control method to peak current leading and trailing edge in the Buck circuit with comparing the advantages and disadvantages of these two control methods by stimulating.The simulation results show that the leading edge modulation has faster transient response speed,and smaller voltage drop and overshoot than that of the trailing edge modulation.Eventually,the experiment shows the transient characteristics of leading edge control method to which peak current of the LED lights given in this study has an inhibitory effect on the inrush current when LED lights switches on,and also plays a protective role to stabilize the fluctuating voltage,therefore,it improves the luminous efficiency and service life of LED lights.

作者周登荣曾技陈大兴

机构地区攀枝花学院电信学院

出处《电测与仪表》北大核心 2013年第7期109-112,共4页 Electrical Measurement & Instrumentation

基金四川省教育厅资助科研项目(11ZA25B)

关键词 LED灯 BUCK变换器数字峰值电流控制瞬态特性 LED Lamp Buck converter digital peak current control transient characteristic

分类号 TM45 [电气工程—电器]

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参考文献9

1杨清德,康娅.LED及其丁程应用[M].人民邮电出版社,2007.
2F. C. Lee and R. A. Carter. Investigations of Stability and Dynamic Performances of Switching Regulators Employing Current-injected Control[D]. in Proc. IEEE PESC'82 Conf., 1982: 3-16.
3Lloyd Dixon. Average Current Mode Control of Switching Power Supply [Z]. Unitrode Product & Applications Handbook, 1995-96.
4J. Chen, R. Erickson, and D. Maksimovic. Averaged Switch Modehng of Boundary Conduction Mode dc-to-dc Converters [D]. in Proc. IEEE IECON'01 Conf., 2001: 844-849.
5Dongsheng Ma, W-H Ki, Fast-Transient PCCM Switching Converter with Freewheel Switching Control [J]. IEEE Transactions on Circuits and Systems, Part II, 2007,54(9) : 825-829.
6Prathyusha Nan'a and Donald S. Zinger. An Effective LED Dimming Approach[J]. Industry Applications Conference, 2004(3): 1671 - 1676.
7周国华.开关电源数字电流控制技术研究[D].西南交通大学硕士学位论文,2008.
8沈霞,李红伟,许瑾.基于无光耦反激变换器的LED驱动电源设计[J].电测与仪表,2012,49(7):97-100. 被引量：7
9YANG Jing. Study on LED Driver Methods Applying Multiple-Output Switching Converter [D]. Xian: Southwest Jiaotong University Master's Degree Thesis, 2011.

二级参考文献9

1J. J. Sammarco. M. A. Reyes, J. R. Barrels, and Sean Gallagher. Evaluation of Peripheral Visual Performance When Using Incandescent and LED Miner Cap Lamps [J].IEEE Transactions on Industry Applications, 2009, 45 (6): 1923-1929.
2I. Cunill-Sol a, and M.l Salichs.Study and Characterization of Waveforms From Low-Watt (<25 W) Compact Fluorescent LampsWith Electronic Ballasts [J].IEEE Transactions on Power Delivery, 2007,22 (4): 2305-2311.
3Y. C. Chuang, C. S. Moo, H. W. Chen, and T. F. Lin.A Novel Single-Stage High-Power-Factor Electronic Ballast with Boost Topology forMultiple Fluorescent Lamps[J].IEEE Transactions on Industry Applications, 2009, 45(1): 323-331.
4Chin Huangjen,CHENG Shihjen. LED backlight driving system for large-scale LCD panels [J]. IEEE Transactions on Industrial Electronics, 2007,54(5):2751 - 2760.
5Zhongming Ye, Greenfeld, F Zhixiang Liang.A topology study of single-phase off'line AC/DC converte for high brightness white LED lighting with power factor preregulation and brightness dimmable [C]// Power Electronics and Motion Control Conference,IEEE IECON .Orlando, USA :IEEE,2008, 1961-1967.
6沈霞,王洪诚,许瑾.基于SEPIC变换器的高功率因数LED照明电源设计[J].电机与控制学报,2010,14(1):41-46. 被引量：25
7陈宏,薛晓明.多模式控制的反激变换器[J].电测与仪表,2010,47(5):77-80. 被引量：3
8沈霞,王洪诚,蒋林,许瑾,方玮.基于反激变换器的高功率因数LED驱动电源设计[J].电力自动化设备,2011,31(6):140-143. 被引量：22
9费小平,苏艳苹,薛晓明.新型软开关切换反激式变换器的研究[J].电测与仪表,2011,48(10):73-76. 被引量：2

共引文献6

1王琪,高田.反激式功率因数校正LED电源设计[J].西安工业大学学报,2012,32(8):665-668. 被引量：2
2周登荣,李国云,蒲红梅.LED灯峰值恒流控制的方法[J].电测与仪表,2013,50(8):112-115. 被引量：3
3余达,刘金国,薛旭成,武星星,李广泽,周磊,梅贵.光耦在EMCCD电源中的应用[J].电光与控制,2014,21(2):60-64. 被引量：1
4杨家志,易胜利,蒋存波,杨斐,钟亚洲,杨帆.基于TOPSwitch-Ⅱ的反激式恒流LED驱动电源[J].电子器件,2014,37(5):944-948. 被引量：3
5李郎,杨岳毅,曾怡达.一种带原边电流控制的单级LED驱动电源的设计[J].电源技术,2017,41(2):289-292.
6陈微.某型LED驱动电源设计[J].中国新技术新产品,2018(13):9-10.

1胡志强,程琴,杨根喜,李清伟.基于ARM的数字峰值电流控制BUCK变换器研究[J].仪表技术与传感器,2013(4):97-99.
2周登荣,李国云,蒲红梅.LED灯峰值恒流控制的方法[J].电测与仪表,2013,50(8):112-115. 被引量：3
3田凌生.新型数字峰值指示器[J].电测与仪表,1990,27(3):8-10.
4杜静.如何延长日光灯使用寿命[J].农家科技,2003(3):42-42.
5夏普开发高发光率LED照明设备[J].中国路灯,2011(1):8-8.
6武威,张铁民,梁丽.基于虚拟仪器的超声电机瞬态特性测试系统[J].科学技术与工程,2012,20(18):4379-4383. 被引量：4
7贺明智,许建平,游小杰,郑琼林,高锐.环路延时对数字峰值电压控制开关变换器瞬态性能的影响[J].中国电机工程学报,2009,29(6):1-7. 被引量：18
8杨伟岸.节约用电[J].初中生学习指导（九年级冲刺版）,2014,0(10):63-63.
9江林,梁林.电子镇流器的原理及检修[J].电子制作,2005,13(1):54-54.
10李峰,魏廷存,郑宇亮,郑然.后缘调制Buck变换器的周期借用数字电流控制[J].电机与控制学报,2012,16(5):13-18. 被引量：2

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一种新型LED灯瞬态控制方法的研究

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