Temperature dependence of microstrip bandpass filter for extreme climates

Aditi Sengupta, S. Das, S. R. Choudhury, Santanu Das
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Abstract

In general designers of the microstrip bandpass filter, depend on the manufacturers' specification, even though such specifications are restricted to standard environmental conditions. The electronic devices are usually designed for room temperature performance. Due to the temperature expansion, the constitutive parameters of the geometries need further modifications, because it is not only reduces the filter performances but also greatly shortens their lifetime. In this paper, the dimensional change of microstrip parallel coupled band pass filter is analyzed for the temperature variation from - 50°C to 80°C, using different dielectric substrates such as FR-4 epoxy, alumina and silicon with copper. The designed parameter values of the band pass filter are determined by MATLAB and the performance of the filter under different temperature conditions are studied with the help of Ansoft HFSS. There is a shift of frequency from its initial value and corresponding changes in upper cut off frequency, lower cut off frequency and center frequency which are shown in table form and graphically.
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极端气候下微带带通滤波器的温度依赖性
一般来说,微带带通滤波器的设计者取决于制造商的规格,即使这些规格仅限于标准环境条件。电子设备通常设计为室温性能。由于温度膨胀,几何形状的本构参数需要进一步修改,这不仅降低了滤波器的性能,而且大大缩短了滤波器的使用寿命。本文分析了采用FR-4环氧树脂、氧化铝和硅铜等不同介质衬底的微带并联耦合带通滤波器在- 50 ~ 80℃温度变化时的尺寸变化。利用MATLAB确定了带通滤波器的设计参数值,并借助Ansoft HFSS软件研究了带通滤波器在不同温度条件下的性能。频率较初始值有偏移,上截止频率、下截止频率和中心频率也有相应的变化,以表格形式和图形表示。
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