数字记录脉冲参数评估的离散状态空间拟合算法

Conference Record of the 2006 IEEE International Symposium on Electrical Insulation Pub Date : 2006-06-11 DOI:10.1109/ELINSL.2006.1665308

Jen-Tsan Kuan, Mu-kuen Chen

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引用次数: 0

摘要

雷电冲击试验是对电力设备进行雷电冲击试验，以评估其暴露于大气过电压时的绝缘完整性。为了对试验结果进行评价，有必要根据标准确定脉冲参数。为了对数字记录的脉冲进行参数评估，将产生离散状态空间模型的特征系统实现算法(ERA)应用于脉冲曲线拟合。在适当的系统阶数下，动态空间模型适用于所有类型的脉冲波形。将辨识出的离散状态空间模型转换为模态坐标，可以高精度地从解析函数中提取原始波形中的振荡或超调分量。根据确定的振荡频率或超调持续时间，可以去除不需要的分量，以构建平均曲线，而不会在原始波形中产生明显的畸变。本文论证了ERA是一种潜在的有价值的脉冲参数评估分析工具

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Discrete state space fitting algorithm for digitally recorded impulse parameter evaluation

Lightning impulse tests are performed on power apparatus to assess its insulation integrity when exposed to over voltage of atmospheric origin. For the evaluation of the test results it is imperative to determine the impulse parameters according to the standards. For the parameter evaluation of the digitally recorded impulse, the eigensystem realization algorithm (ERA) which produces a discrete state space model has been applied to the impulse curve fitting. With appropriate system order, the dynamic state space model is suitable for all types of impulse waveforms. Transforming the identified discrete state space model to the modal coordinates, it is possible to extract the oscillation or overshoot components from the original waveform in analytic function with high accuracy. Depending on the identified oscillation frequency or overshoot duration, the unwanted components can be removed for the construction of the mean curve without significant distortions in the original waveform. This paper demonstrates that ERA is a potentially valuable analytical tool for the evaluation of the impulse parameters

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Conference Record of the 2006 IEEE International Symposium on Electrical Insulation

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