Numerical detection of the current instability phenomena due to the balance of the electric machines

2008 International School on Nonsinusoidal Currents and Compensation Pub Date : 2008-06-10 DOI:10.1109/ISNCC.2008.4627495

D. Olaru, D. Floricau

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Abstract

The instabilities arising in the power delivery network may cause serious problems for the whole system security. The most difficult detectable event is the energy balance phenomena. This has specific evolution characteristics, which are not so easy to be observed. The paper presents a real type situation, studied on a physically realized model, on a reduced scale. It is based on a permanent magnet synchronous motor. This is susceptible to give similar balance phenomena as conventional loaded equipment. The supply source is tuned as to obtain quasi-stable motion. The current and voltage evolution is represented in the phasespsila plane. To result a smooth enough wave, regression methods are used. In order to obtain useful information about the instability characteristics, special indicator functions are used. They emphasize, on one hand, the relative balance parameters and, on the other hand, the most unstable moment of evolution. This gives a discontinuous evolution for the derivativespsila variation for the current wave. The paper presents, as well, the mathematical background and the methods used for the processing of the measured parameters.

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由电机平衡引起的电流不稳定现象的数值检测

输电网的不稳定可能会对整个系统的安全造成严重的影响。最难探测到的事件是能量平衡现象。这具有特定的进化特征，不容易被观察到。本文给出了一个真实的情况，研究了一个物理实现的模型，在缩小的规模。它以永磁同步电动机为基础。这很容易产生与传统负载设备类似的平衡现象。对电源进行了调谐，以获得准稳定运动。在相位平面上表示电流和电压的演变。为了得到一个足够平滑的波，使用了回归方法。为了获得有关不稳定特性的有用信息，使用了特殊的指示函数。他们一方面强调相对平衡参数，另一方面强调进化过程中最不稳定的时刻。这就给出了电流波的导数波动的不连续演化。本文还介绍了测量参数处理的数学背景和方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 International School on Nonsinusoidal Currents and Compensation

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