Extraction of Magneto-Dielectric Properties from Metal-Backed Free-Space Reflectivity

2019 Antenna Measurement Techniques Association Symposium (AMTA) Pub Date : 2019-10-01 DOI:10.23919/AMTAP.2019.8906370

R. Geryak, J. Schultz

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引用次数: 2

Abstract

Intrinsic magnetic and dielectric properties of magneto-dielectric composites are typically determined at microwave frequencies with both transmission and reflection data. An iterative method, such as root-finding, is often used to extract the properties in a frequency-by-frequency basis. In some situations, materials may be manufactured on a metal substrate that prevents transmission data from being obtained. This happens when the materials are too fragile or too strongly bonded to the substrate for removal and must be characterized with the metal substrate in place. This paper compares two different free-space extraction algorithms, developed for the simultaneous extraction of complex permittivity and permeability from metal-backed reflection. One of the algorithms relies on reflection measurements of the same material with two known thicknesses. The second method takes advantage of wide bandwidth measurements to fit the reflection to analytical models (e.g. Debye). The accuracy of these methods are evaluated and the stability criteria for the techniques will be discussed, as well as the tolerance of the techniques to various measurement errors.

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从金属背衬自由空间反射率提取磁介电性质

磁-介电复合材料的固有磁性和介电性能通常是在微波频率下用透射和反射数据确定的。一种迭代的方法，比如寻根，经常被用来逐频率地提取属性。在某些情况下，可以在金属基板上制造材料，以防止获得传输数据。这种情况发生在材料太脆弱或与基板结合太强烈而无法去除时，并且必须在金属基板到位的情况下进行表征。本文比较了两种不同的自由空间提取算法，这些算法是为同时从金属背反射中提取复介电常数和渗透率而开发的。其中一种算法依赖于同一材料的两种已知厚度的反射测量。第二种方法利用宽带宽测量来拟合反射到分析模型(例如Debye)。评估了这些方法的准确性，并讨论了这些技术的稳定性标准，以及这些技术对各种测量误差的容忍度。

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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2019 Antenna Measurement Techniques Association Symposium (AMTA)

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