文章基本信息

标题：Performance of grid connected DFIG during recurring symmetrical faults using Internal Model Controller based Enhanced Field Oriented Control
本地全文：下载
作者：D.V.N.Ananth ; G.V. Nagesh Kumar
期刊名称：Journal of Electrical Systems
印刷版ISSN：1112-5209
出版年度：2016
卷号：12
期号：2
页码：406-418
出版社：ESRGroups
摘要：The modern grid rules forces DFIG to withstand and operate during single as well as multiple low voltage grid faults. The system must not lose synchronism during any type of fault for a given time period. This withstanding capacity is called low voltage ride through (LVRT). To improve performance during LVRT, enhanced field oriented control (EFOC) method is adopted in rotor side converter. This method helps in improving power transfer capability during steady state and better dynamic and transient stability during abnormal conditions. In this technique, rotor flux reference change from synchronous speed to some smaller speed or zero during the fault for injecting current at the rotor slip frequency. In this process, DC-Offset component of flux is controlled beyond decomposing to a lower value during faults and maintaining it. This offset decomposition of flux will be oscillatory in conventional FOC, whereas in EFOC with internal model controller, flux can damp quickly not only for single fault but during multiple faults. This strategy can regulate stator and rotor current waveform to sinusoidal without distortion during and after fault. It has better damped torque oscillations, control in rotor speed and generator flux during and after fault. The fluctuations in DC bus voltage across capacitor are also controlled using proposed EFOC technique. The system performance with under-voltage grid fault of 30% and 60% of the rated voltage occurring at the point of common coupling during 1 to 1.25 and another fault between 1.6 to 1.85 seconds are analyzed using simulation studies.
关键词：DFIG; Field oriented control; Internal model control; low voltage ride through; recurring faults; recurring; faults.