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光伏并网逆变器反孤岛效应控制策略特性分析 被引量:2

Control Strategy Features Analysis on Anti-Islanding Effect of Photovoltaic Grid-Connected Inverter
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摘要 介绍了有源频率偏移(AFD)法的基本原理,讨论了使用该方法检测孤岛时不同的斩波率大小与极性的选取对系统运行性能的影响,并对AFD法的孤岛检测盲区(NDZ)进行了分析。最后归纳总结了使用该方法检测孤岛时存在的缺点,并提出了改进措施。 Introduction was made to the basic principle of active frequency drift(AFD) method, the influences to the system operation performance discussed on using the method to test island with different chopping fraction size and polarity choosing, and analysis was carried out on AFD method's test non-detection zone(NDZ). Finally, the disadvantages of AFD in islanding detection are summarized and improvements are proposed.
作者 顾娟 林明耀 单竹杰 张怡然
机构地区 东南大学电气工程学院
出处 《电工电气》 2009年第10期23-26,共4页 Electrotechnics Electric
基金 江苏省自然科学基金项目(BZ2008306)
关键词 有源频率偏移法 斩波率 非检测区 active frequency drift(AFD) chopping fraction non-detection zone(NDZ)
分类号 TM464 [电气工程—电器]
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参考文献1

二级参考文献5

  • 1杨海柱,金新民.基于正反馈频率漂移的光伏并网逆变器反孤岛控制[J].太阳能学报,2005,26(3):409-412. 被引量:49
  • 2Jun Yin,Liuchen Chang, Diduch C. Recent Developments in Islanding Detection for distributed Power Generation[A]. Large Engineering Systems Conference on Power Engineering, LESCOPE' 04[C].2004: 124-128.
  • 3Funabashi T, Koyanagi K, Yokoyama R. A Review of Islanding Detection Methods for Distributed Resources [A]. Power Tech Conference Proceedings,2003 IEEE Bologna [C]. 2003, (2):6.
  • 4Jeraputra C, Enjeti P N, In Ho Hwang. Development of a Robust Anti-islanding Algorithm for Utility Interconnection of Distributed Fuel Cell powered Generation [A].Applied Power Electronics Conference and Exposition.IEEE Nineteenth Annual of APEC' 04[C]. 2004: 1534-15403.
  • 5郑诗程 丁明 苏建徽 等.户用光伏并网系统的研究与设计.电力电子技术,2006,26(6):73-77.

共引文献24

同被引文献20

  • 1许令兵,高金民,李建领,晁俊生.河南嵩县栗子沟金矿区地质特征及找矿方向[J].矿产与地质,2003,17(z1):414-416. 被引量:5
  • 2叶满园,官二勇,宋平岗.以电导增量法实现MPPT的单级光伏并网逆变器[J].电力电子技术,2006,40(2):30-32. 被引量:42
  • 3赵争鸣.太阳能光伏发电及其应用[M]北京:科学出版社,2005.
  • 4A Luque,S Hegedus. Handbook of Photovoltaic Science and Engineering[M].UK:Wiley,2003.11-19.
  • 5E Koutroulis,K Kalaitzakis,N C Voulgaris. Development of a Microcontroller-Based Photovoltaic Maximum Power Point Tracking Control System[J].IEEE Transactions on Power Electronics,2001,(01):46-54.doi:10.1109/63.903988.
  • 6N A Rahim,J Selvaraj,Krismadinata. Hysteresis Current Control and Sensorless MPPT for Grid[A].IEEE,2007.572-576.
  • 7I Houssamo,F Locment,M Sechilariu. Maximum power tracking for photovoltaie power system:Development and experimental comparison of two algorithms[J].Renewable Energy,2010.2381-2387.
  • 8M Bodur,M Ermis. Maximum power point tracking for low power photovoltaic solar panels[A].1994.758-761.
  • 9D J Patterson. Electrical system design for a solar powered vehicle.Power Electronics Specialists Conference[A].1990.618-622.
  • 10M Akbaba,I camber,A Kemal. Matching of separately excited DC motors to photovoltaic generators for maximum power output[J].Journal of Solar Energy Engineering,1998,(06):375-385.

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电工电气
2009年 第10期

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