Algorithm for the Synthesis of a Film Attenuator with Uniform Power Dissipation

2021 XV International Scientific-Technical Conference on Actual Problems Of Electronic Instrument Engineering (APEIE) Pub Date : 2021-11-19 DOI:10.1109/apeie52976.2021.9647619

D. Iuzvik

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Abstract

The problem of the synthesis of a film attenuator, performed by applying an absorbing material to the conductor, is considered. The absorbing material has a parameter of maximum dissipated power per unit area, then when synthesizing an attenuator to attenuate high powers, the problem of exceeding the maximum dissipated power per unit area may arise. A sectional attenuator structure has been proposed, which is a set of sections having different attenuation to reduce the power dissipated per unit area. An algorithm for the synthesis of a sectional attenuator is proposed. The attenuator sections are rectangles of various widths. The attenuation distribution is performed using the Taylor series expansion of mathematical functions. The properties of the functions are considered in relation to the problem of the attenuation distribution in the attenuator. The graphs of the dependence of the power depending on the attenuator section are plotted. Power distribution has been confirmed by simulation results. Theoretical calculations were confirmed by simulation results in CST Microwave Studio software.

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均匀功耗薄膜衰减器的合成算法

考虑了在导体上施加吸收材料来合成薄膜衰减器的问题。吸波材料具有单位面积最大耗散功率参数，那么在合成衰减器衰减大功率时，可能会出现超过单位面积最大耗散功率的问题。为了降低单位面积的功耗，提出了一种分段式衰减器结构，该结构是由一组具有不同衰减的截面组成的。提出了一种分段衰减器的合成算法。衰减器部分是不同宽度的矩形。衰减分布采用数学函数的泰勒级数展开。这些函数的性质与衰减器内的衰减分布问题有关。绘制了功率随衰减器截面的关系图。仿真结果验证了系统的功率分布。理论计算得到了CST Microwave Studio软件仿真结果的验证。

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

2021 XV International Scientific-Technical Conference on Actual Problems Of Electronic Instrument Engineering (APEIE)

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