Free-space millimeter-wave measurement of the complex dielectric constant of radome materials using nonlinear least-squares analysis

Digest on Antennas and Propagation Society International Symposium Pub Date : 1989-06-26 DOI:10.1109/APS.1989.135014

B. R. Rao

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引用次数: 5

Abstract

Describes a numerical optimization procedure based on the Powell (1965) nonlinear regression algorithm for measuring the complex dielectric constant of radome composite materials and coatings at millimeter wavelengths using free-space measurements of the transmission coefficient over a range of incidence angles and frequencies. Radomes usually need rain-erosion, antistatic, and hydrophobic coatings for environmental protection. In the present approach, the determination of the permittivity of these thin radome coatings is achieved by depositing the coating on a substrate of known dielectric constant and analyzing the transmission coefficient of the two-layer medium. Since the regression algorithm is used to analyze a large number of data points, it reduces the random errors in the experiments and yields more accurate information than the single-point free-space measurement methods used by other authors at millimeter wavelengths. The validity and accuracy of this technique were confirmed by making measurements on standard dielectrics such as polyethylene, nylon, and Teflon.<>

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用非线性最小二乘分析自由空间毫米波测量天线罩材料复介电常数

描述了一种基于Powell(1965)非线性回归算法的数值优化程序，该算法用于测量雷达罩复合材料和涂层在毫米波波长下的复介电常数，使用在入射角和频率范围内的透射系数的自由空间测量。为了环保，天线罩通常需要防雨蚀、防静电和疏水涂层。在本方法中，通过在已知介电常数的衬底上沉积涂层并分析两层介质的透射系数来确定这些薄天线罩涂层的介电常数。由于回归算法用于分析大量数据点，因此减少了实验中的随机误差，比其他作者使用的毫米波单点自由空间测量方法获得的信息更准确。通过对聚乙烯、尼龙和特氟龙等标准电介质的测量，证实了该技术的有效性和准确性。

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Digest on Antennas and Propagation Society International Symposium

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