Computational investigation of various wedges electromagnetic wave absorbers on anechoic chambers

Afkar, Naufal Baihaqi Al

doi:10.22441/sinergi.2022.1.012

Sinergi

2022

DOI: 10.22441/sinergi.2022.1.012

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Computational investigation of various wedges electromagnetic wave absorbers on anechoic chambers

Naufal Baihaqi Al Afkar

Abstract: The anechoic chamber is closely related as a device for precisely measuring various acoustic characteristics. Anechoic chambers room conditions controlled to produce a sound field-free space. This study focused on testing various commercial wedges such as Eckel, diamond, pyramidal, and oblique pyramidal. The test was done by varying the elevation of an incident angle at 0°-85° with a stepping distance is 5°. This study is analyzed at 1-3 GHz frequency. This research was conducted based on a computational analy… Show more

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2024

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The prospect of using hollow pyramidal microwave absorbers for 5G anechoic chamber applications: A review

Abu Sanad,

Mahmud,

Ain

et al. 2024

Journal of Applied Physics

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Designing high-performance, wide bandwidth, lightweight, low-cost, and compact size absorbers for 5G anechoic chambers becomes essential. Several conventional absorbers, such as solid pyramidal absorbers, wedge absorbers, and convoluted absorbers, have shown acceptable absorption performance in a 5G mm-wave. However, these absorbers face challenges, such as narrow-angle of incidence, design complexity, and high cost. On the other hand, the hollow pyramidal absorber structures have a high level of freedom for optimization in order to be able to achieve the required specifications of 5G anechoic chambers. This paper provides an in-depth review of conventional absorber structures for use in anechoic chamber applications and their limitations for use in 5G applications, as well as the possibility of using hollow pyramidal absorbers in 5G anechoic chambers in comparison with conventional absorbers.

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The prospect of using hollow pyramidal microwave absorbers for 5G anechoic chamber applications: A review

Abu Sanad,

Mahmud,

Ain

et al. 2024

Journal of Applied Physics

View full text Add to dashboard Cite

show abstract

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Computational investigation of various wedges electromagnetic wave absorbers on anechoic chambers

Cited by 1 publication

References 15 publications

The prospect of using hollow pyramidal microwave absorbers for 5G anechoic chamber applications: A review

The prospect of using hollow pyramidal microwave absorbers for 5G anechoic chamber applications: A review

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