用最优化方法设计微波吸收器形状

2017 8th International Conference on Recent Advances in Space Technologies (RAST) Pub Date : 2017-06-01 DOI:10.1109/RAST.2017.8003004

I. Catalkaya, S. Kent

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引用次数: 1

摘要

微波吸收器沿着消声室的墙壁、天花板和地板在消声室内部进行EMC / EMI测量。消声室还用于对在轨航天器的EMC / EMI要求进行测量。楔形和锥体型吸波器是覆盖室壁的常用吸波器。它们的形状是吸收入射电磁波能量的主要因素之一。新的吸收器形状可以帮助提高吸收器的吸收性能，并提供测量的准确性。在本研究中，利用优化方法获得了一种替代的微波吸收器形状。介绍了新设计的吸收体的反射特性。采用周期矩法(PMM)对吸振器进行了分析。考虑2 - 10ghz频段用于吸收器反射值的计算。采用TM模式正入射电磁波在2 ~ 10ghz频段内进行计算。在2 GHz、4 GHz和6 GHz频段给出了吸收器的双基地方向图特性。利用优化方法得到优化的幂函数型吸收体是该研究的重要贡献。

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Designing microwave absorber shape by using optimization

Microwave absorbers are used inside of anechoic chamber along its wall, ceiling and floor to perform EMC / EMI measurements. Anechoic chambers are also used to perform measurements for EMC / EMI requirements of spacecraft on-orbit. Wedge and pyramidal type absorbers are commonly used type of absorbers to cover chamber walls. Shape of them is one of major factor to absorb energy of incident EM wave. New absorber shapes can help to improve absorption performance of absorbers and provide accuracy of measurements. In this study, an alternative microwave absorber shape is obtained by using optimization methods. Reflection characteristic of new designed absorber is presented. Absorber is analyzed by using Periodic Moment Method (PMM). 2–10 GHz frequency band is considered for reflection value calculations of absorber. TM mode normal incidence case electromagnetic waves are employed for the calculations within the 2–10 GHz frequency band. Bistatic pattern characteristics of absorber are presented at 2, 4, and 6 GHz. Using optimization methods to obtain optimized power function shaped absorber is an important contribution of the study.

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2017 8th International Conference on Recent Advances in Space Technologies (RAST)

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