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空间电荷测量信号恢复中的频域反卷积技术及实现 被引量:17

Frequency Domain Deconvolution Technique and Its Implementation in the Recovery of the Space Charge Signal
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摘要 电声脉冲法空间电荷测量系统的输出信号通常存在比较明显的过冲。本文分析了电声脉冲法空间电荷测量系统硬件结构造成信号畸变的原因,介绍了空间电荷测量信号恢复中反卷积处理技术及其问题。根据测量系统中高压脉冲及输出信号波形的特点,选取高斯滤波器对反卷积处理带来的病态问题进行了修正。基于上述改进设计了空间电荷测量信号恢复的频域反卷积算法,并采用LabVIEW实现了反卷积处理。通过实际对聚乙烯/纳米银复合材料空间电荷测量信号的恢复发现,高斯滤波器可以有效抑制恢复信号的震荡,提高测量空间电荷的分辨率。 Space charge distribution signals are often distorted to have obvious over-shoots due to the frequency response of the measurement system. The reasons why the output signal is distorted are analyzed in this paper. Deconvolution is proved necessary for space charge signal recovery. However, deconvolution is a kind of inverse problem so that it is hard to gain the undistorted waveform which is produced by the space charge vibration during the test processes. Gauss filter is employed to solve the ill-condition of deconvolution. A discrete frequency domain algorithm is designed based on the modified deconvolution method and is implemented with LabVIEW. With the data obtained from LDPE/nano-Ag composite, it is found that the Gaussian filter is capable of restraining the oscillation of the deconvoluted data and therefore enhances the resolution of space charge profiles.
出处 《电工技术学报》 EI CSCD 北大核心 2009年第10期165-169,共5页 Transactions of China Electrotechnical Society
基金 国家自然科学基金资助项目(50677038)
关键词 频域反卷积 信号恢复 空间电荷 电场脉冲法 Frequency domain deconvolution, signal recovery, space charge, pulsed electroacoustic method
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参考文献11

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二级参考文献14

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