用于精确无接触介质表征的任意波形阻抗谱

Xiangdong Xu, T. Bengtsson, J. Blennow, S. Gubanski
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引用次数: 2

摘要

固体介质材料的表征通常是通过测量介质频率响应来完成的。一种称为任意波形阻抗谱(AWIS)的技术已经发展成为其改进版本之一。除其他特性外,它还能够在施加的测试电压中含有丰富的谐波分量的情况下,从一次测量中获得宽的介电响应谱。由于AWIS是一种技术,而不是一种仪器,因此它可以优化到106范围内的信噪比。然而,电极的安排以及测量设置的准确性限制了表征的精度。本文提出了一种空气参比法和一种无接触电极布置方法,通过避免电极接触带来的问题来提高介质表征精度。结果表明,在与被测材料相同的条件下,用充满空气的电极间隙进行校准,空气基准法可以大大提高测量精度。这种方法还消除了对模拟测量电路的详细模型的需要。结合无接触测量和富谐波波形,该方法可以避免复杂和耗时的样品制备程序。介绍了测量方法和电极布置,并通过比较不同仪器获得的结果进行了评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arbitrary waveform impedance spectroscopy for accurate contact-free dielectric characterization
Solid dielectric material characterization is commonly performed through measurement of dielectric frequency response. A technique, called arbitrary waveform impedance spectroscopy (AWIS), has been developed as one of its modified versions. It is capable, among other features, of obtaining a broad dielectric response spectrum from one single measurement, provided the applied test voltage is rich in harmonic components. As AWIS is a technique, rather than an instrument, it can be optimized to reach signal to noise ratio in the 106 range. However, both the electrode arrangements as well as the accuracy of the measurement setup limit the precision of the characterization. An air reference method and a contact-free electrode arrangement are presented in this paper for enhancing the dielectric characterization accuracy through avoiding problems introduced by electrode contacts. It is shown that by performing a calibration with electrode gap filled with air under the same conditions as the material is tested, the air reference method can improve the measurement accuracy substantially. This type of approach also eliminates the need for a detailed model of the analog measurement circuit. In conjunction with the contact-free measurements and harmonic-rich waveforms, the approach allows for avoiding complicated and time-consuming sample preparation procedures. Both the measurement methodology as well as the electrode arrangement are presented and evaluated by comparing results obtained with different instruments.
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