Dual-domain Deconvolution Process Applied to Time-resolved Quantitative Dielectric Measurement

2020 IEEE 3rd International Conference on Dielectrics (ICD) Pub Date : 2020-07-05 DOI:10.1109/ICD46958.2020.9341905

N. Hozumi, E. B. Prastika, Shafira Zahra, T. Kawashima, Y. Murakami

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引用次数: 9

Abstract

Deconvolution process is often applied to time-resolved dielectric measurements like the pulsed electroacoustic method. As the original signals, both target and reference signals, have acquired after being subjected to high pass filter, low frequency components have been significantly suppressed. It creates strong unnecessary low frequency components if the process has been done in frequency domain, leading to very uncomfortable bias noise in time domain. This presentation will propose an effective solution. It is proposed that combining the low frequency components deconvolved in time domain after being down-sampled and the high frequency components deconvolved in frequency domain gives a quick and precise signal. The process was embedded onto space charge measurement. Although a good signal was obtained even with only time-domain deconvolution, it was proved that the proposed method significantly improves its speed in calculation. As a conclusion dual-domain deconvolution process has been proposed and successfully applied to the space charge measurement without being disturbed by low frequency spurious.

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双域反褶积过程在时间分辨定量介电测量中的应用

反褶积过程常用于时间分辨电介质测量，如脉冲电声法。由于原始信号(包括目标信号和参考信号)都是经过高通滤波后获得的，因此低频分量被明显抑制。如果在频域进行处理，则会产生强烈的不必要的低频分量，从而导致在时域产生非常不舒服的偏置噪声。本报告将提出一个有效的解决方案。提出将下采样后的低频分量在时域反卷积与高频分量在频域反卷积相结合，可以得到快速、精确的信号。该过程被嵌入到空间电荷测量中。尽管仅进行时域反卷积也能获得较好的信号，但实验证明，该方法显著提高了计算速度。本文提出了双域反褶积方法，并成功地应用于空间电荷测量中，消除了低频杂散的干扰。

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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来源期刊

2020 IEEE 3rd International Conference on Dielectrics (ICD)

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