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一种基于系统安全工作区的变换器保护策略 被引量:4

Protection scheme for converter based on the systematic safe operating area
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摘要 为了解决电力电子装置的可持续运行能力和可靠性之间的矛盾,提出了一种基于系统安全工作区的变换器保护策略,通过对半导体器件特性、主电路结构参数、控制信号延迟和系统温度的量化分析推导了系统安全工作区的数学模型。该策略在量化考虑变换器中的各系统元素之间关系的基础上,不仅能够保障变换器不受损伤或损坏,还能够准确计算系统的保护阈值,提高半导体器件的利用率和变换器的可持续运行能力,成为能够保障变换器可靠性的重要工具。该方法同样适用于其他类型变换器的保护设计。给出了应用该方法设计变换器保护策略的实例,采用实验的方法验证了该方法的有效性。 This paper presents a protection scheme for converters based on the systematic safe operating area (SSOA) to resolve the conflict between the ability of continuous operation and the reliability of power electronics converters. The mathematical model of SSOA was derived and presented through the quantitative analysis of the semiconductor device characteristics, parameters of main circuit, delay of signals and system temperatures. Based on the quantitative analysis of the relationship between the system elements of the converter, this method can not only protect the power devices from being damaged, but also can accurately calculate the protection thresholds and improve the utilization of power devices and the continuous operation ability of converters. Thus, this method becomes an important tool for ensuring the reliability of the converters which can also be applied to the protection design for other types of converters. An example of the application using this method was given with the experimental results showing the validity of this method.
作者 王雪松 赵争鸣 袁立强
机构地区 清华大学电机工程与应用电子技术系
出处 《清华大学学报(自然科学版)》 EI CAS CSCD 北大核心 2012年第8期1029-1034,1040,共7页 Journal of Tsinghua University(Science and Technology)
基金 国家自然科学基金资助项目(50737002,50707015)
关键词 电力电子变换器 故障保护 系统安全工作区 短路 power electronics converter fault protection systematicsafe operating area (SSOA) short circuit
分类号 TM464 [电气工程—电器]
  • 相关文献

参考文献14

  • 1Yang J, Fletcher J, O'Reilly J. A series-dynamic resistor-based converter protection scheme for doubly-fed induction generator during various fault conditions [J]. IEEE Trans Energy Conversion, 2010, 25(2) : 422 - 432.
  • 2Baran M, Mahajan N. Overcurrent protection voltage source-converter-based multi terminal DC distribution systems [J]. IEEE Trans Power Delivery, 2007, 22(1): 406 - 412.
  • 3LI Ming, FANG Xiong, WANG Yue, et al. Overvoltage protection of high power IGBTs in wind power converters under short circuit [C]// Proc 6th International Power Electronics and Motion Control Conf. Wuhan, 2009: 2288 - 2290.
  • 4王莉娜,黄立培.矩阵式变换器-异步电机系统的故障保护及容错运行方式[J].电工技术学报,2006,21(12):66-70. 被引量:9
  • 5卫三民,李发海.一种大功率IGBT实用驱动及保护电路[J].清华大学学报(自然科学版),2001,41(9):55-58. 被引量:33
  • 6YUAN Liqiang, ZHAO Zhengming, Mohamed E, et al. Performance evaluation of switch devices equipped in high-power three-level inverters [J]. IEEE Trans Iedustrial Electronics, 2007, 54(6) : 2993 - 3000.
  • 7YUAN Liqiang, ZHAO Zhengming, HE Fanbo, et al. Safe operating area o{ high power three-level neutral point clamped voltage source inverters equipped with IGCTs [C]// Proc International Conference on Electrical Machines and Systems. Seoul, Korea, 2007: 64-68.
  • 8Abbate C, Busatto G, Manzo R, et al. Experimental optimisation of high power IGBT modules performances working at the edges of their safe operating area [C]// Proc 35th Power Electronics Specialists Conf. Aachen, 2004: 2588 - 2592.
  • 9李冬黎,张晋,陈阿莲,何湘宁.一种具有自修复功能的多电平变换器拓朴[J].中国电机工程学报,2005,25(2):54-60. 被引量:8
  • 10白华,赵争鸣,胡弦,陈昕.三电平变频调速系统中直流预励磁试验研究[J].中国电机工程学报,2006,26(3):159-163. 被引量:22

二级参考文献78

  • 1关慧,赵争鸣,孟朔,邬向东.变频调速异步电机的优化设计(英文)[J].中国电机工程学报,2004,24(7):194-199. 被引量:33
  • 2钟玉林,咸哲龙,孙旭东,姜建国,马伟明.计及部分电容的接地回路高频电路模型[J].中国电机工程学报,2005,25(17):37-41. 被引量:13
  • 3白华,赵争鸣,胡弦,陈昕.三电平变频调速系统中直流预励磁试验研究[J].中国电机工程学报,2006,26(3):159-163. 被引量:22
  • 4张立 赵永健.现代电力电子技术[M].北京:科学出版社,1995..
  • 5卫三民.离心机高精度转速控制系统的研制[M].北京:北京航空航天大学,1998..
  • 6秦继菪 沈安俊.现代直流伺服控制技术及其系统设计[M].北京:机械工业出版社,1993..
  • 7Clavel E, Schanen J L. Influence of an impedance step in interconnection influence calculation[J]. IEEE Transaction on Magnetics, 1996, 32(3): 824-827.
  • 8Wyk J D V, Lee F C. Power electronics technology at the dawn of the new millennium-status and future[C]. Proceedings of Power Electronics Specialists Conference, IEEE, Virginia Tech, USA, 1999.
  • 9Lu Guoquan, Nelson D J, Borojevic D, et al. An innovative for packaging power electronics building blocks using metal posts interconnected parallel plate structures[J]. Journal of IEEE-Component,Packaging, and Manufacture Technology Transactions, Part B, 1999,22(2): 136-144.
  • 10Lin Xingsheng, Calata J N. The packaging of integrated power electronics modules using flip-chip technology[C]. Proceedings of 17th Power Electronics Seminar, New Orleans, Louisiana, USA , 1999.

共引文献152

同被引文献36

  • 1徐殿国,李向荣.极限温度下的电力电子技术[J].电工技术学报,2006,21(3):15-23. 被引量:19
  • 2赵争鸣,张海涛,袁立强,白华,杨志.基于IGCT的高压三电平变频器失效机理及保护策略[J].电工技术学报,2006,21(5):1-6. 被引量:45
  • 3ABB.ACS800-17LC水冷传动硬件手册[EB/OL].(2011-03-16).http://www.abb.com.cn/ProductGuide.
  • 4HWANG J W G,WINKELNKEMPER M,LEHN P W. Control of AC-DC-AC converters with minimized DC link capacitance under grid distortion [C]//IEEE International Symposium on Industrial Electronics. Montreal, Quebec, Canada : IEEE, 2006 : 1217-1222.
  • 5WINKELNKEMPER M,BERNET S. Impact of control model deviations on the DC link capacitor minimization in AC-DC-AC converters [C] //31st Annual Conference of IEEE Industrial Electronics Society. Raleigh,NC,USA:IEEE,2005:981-986.
  • 6ABO-KHALIL A G,LEE D C,JANG J I. Control of back-to- back PWM converters for DFIG wind turbine systems under unbalanced grid voltage [C]//IEEE International Symposium on Industrial Electronics. Vigo,Spain:IEEE,2007:2637-2642.
  • 7SARKAR S,VIJAYAN P,ALIPRANTIS D C,et al. Effect of grid voltage unbalance on operation of a bi-directional converter[C]// 40th North American Power Symposium. Calgary,Alberta,Canada: IEEE, 2008 : 1-7.
  • 8WINTERHALTER C,KERKMAN R,SCHLEGEL D,et al. The effect of circuit parasitic impedance on the performance of IGBTs in voltage source inverters[C]//Applied Power Electronics Conference and Exposition. Anaheim,CA,USA:IEEE,2001 : 995-1001.
  • 9ZARE F,LEDWICH G F. Reduced layer planar busbar for voltage source inverters[J]. IEEE Transactions on Power Electronics, 2002,17(4) :508-516.
  • 10YUAN Liqiang,ZHAO Zhengming,HE Fanbo,et al. Safe operating area of high power three-level neutral point clamped voltage source inverters equipped with IGCTs[C]//International Conference on Electrical Machines and Systems. Seoul,Korea : IEEE, 2007 : 64-68.

引证文献4

二级引证文献14

清华大学学报(自然科学版)
2012年 第8期

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