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同步发电机整流系统的稳定性分析 被引量:6

Stability analysis of synchronous generator-rectifier system
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摘要 同步发电机整流带反电动势负载时,当系统参数不匹配,在一定工况下,可能出现低频振荡。为了消除低频振荡,基于系统的特征方程、利用R ou th判据推导出小扰动稳定判据,对特征根和系统的等效阻抗进行了计算和分析。系统出现低频振荡是由于系统负的等效阻抗导致自激和Hop f分叉。当系统的总阻抗为零,且有一对共轭的特征虚根时,低频振荡出现。仿真证实了理论分析。给出在转子的交轴上增设一短路绕组和增大交轴阻尼绕组的时间常数等几种解决低频振荡的措施。 For some operating conditions, a synchronous generator with a rectifier and back-EMF load maybe exhibit low-frequency oscillations when the system parameters do not match. To eliminate the low-frequency oscillations, a stability criterion for small disturbances was derived using the Routh criteria based on the characteristic system equation with the characteristic roots and equivalent impedances of the system calculated and analyzed. The low-frequency oscillations of the system were due to the negative equivalent system impedance which results in self-excitation and Hopf bifurcation. The low-frequency oscillations occur when the equivalent system impedance is zero and an imaginary conjugate pair of eigenvalues appears. Simulations verified the theoretical analysis, Several measures are given to eliminate the oscillations such as installing a short-circuited quadrature-axis winding on the rotor and increasing the quadrature-axis damper winding time constant.
作者 王荀 王善铭 王祥珩
机构地区 清华大学电机工程与应用电子技术系电力系统及大型发电设备控制和仿真国家重点实验室
出处 《清华大学学报(自然科学版)》 EI CAS CSCD 北大核心 2006年第7期1193-1196,共4页 Journal of Tsinghua University(Science and Technology)
基金 国家自然科学基金资助项目(50277020)
关键词 同步电机 整流器 低频振荡 HOPF分叉 synchronous machine rectifier low-frequency oscillations Hopf bifurcation
分类号 TM34 [电气工程—电机]
  • 相关文献

参考文献6

  • 1Auinger H,Nagel G.The transient response of a synchronous generator with a rectifier-1:Theoretical investigations[J].Siemens Research and Development Reports,1980,9(1):1-7.
  • 2Auinger H,Nagel G.The transient response of a synchronous generator with a rectifier-2:Remedies[J].Siemens Research and Development Reports,1980,9(2):85-87.
  • 3MA Weiming,HU An,LIU Dezhi,et al.Stability of a synchronous generator with diode-bridge rectifier and back-EMF load[J].IEEE Trans on Energy Conversion,2000,15(4):458-463.
  • 4村本英九."白濑"号破冰船电力推进装置的模拟[J].国外舰船技术:船舶电气,1984,(3):42-49.
  • 5Hoeijmakers M J.The (in)stability of a synchronous machine with diode rectifier[C]∥ Proc Int Conf on Electrical Machines.Manchester,UK:[s.n.],1992:83-87.
  • 6王善铭,王荀,王祥珩.同步发电机整流系统的建模[J].清华大学学报(自然科学版),2006,46(7):1189-1192. 被引量:10

二级参考文献4

  • 1Sudhoff S D,Wasynczuk O.Analysis and average-value modeling of line-commutated converter-synchronous machine systems[J].IEEE Trans on Energy Conversion,1993,8(1):92-99.
  • 2Sudhoff S D,Glove S F,Hegner H J,et al.Transient and dynamic average-value modeling of synchronous machine fed load-commutated converters[J].IEEE Trans on Energy Conversion,1996,11(3):508-514.
  • 3Hoeijmakers M J.The (in)stability of a synchronous machine with diode rectifier[C] ∥ Proc Int Conf on Electrical Machines.Manchester,UK:[s.n.],1992:83-87.
  • 4MA Weiming,HU An,LIU Dezhi,et al.Stability of a synchronous generator with diode-bridge rectifier and back-EMF load[J].IEEE Trans on Energy Conversion,2000,15(4):458-463.

共引文献9

同被引文献77

引证文献6

二级引证文献56

清华大学学报(自然科学版)
2006年 第7期

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