Parametric Analysis of SiO2 MOSFET Based Absorber for 5G Massive MIMO Base Station

Journal of Electrical and Computer Engineering Innovations Pub Date : 2022-09-01 DOI:10.4028/p-xbmtx2
Elliot O. Omoru, V. Srivastava
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Abstract

The performance of the SiO2 MOSFET-based absorber as a solution to arching within transmission lines (used for RF signal transportation) has been realized and analyzed at 28 GHz using the reflected signal from the RX branch of 5G massive MIMO base station. The reflected signal from the receiver (RX) branch of base stations may lead to interference, thus creating a performance reducing condition (arching) within the transmission lines. For optimum performance in the 5G regime, the SiO2 MOSFET has been used to solve the problem of arching within the transmission line under large field intensities of a standing wave resulting from the impedance. The SiO2 MOSFET-based absorber has been observed for a reflectivity of -79.5 dB and a rectification efficiency greater than 17 %
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5G大规模MIMO基站SiO2 MOSFET吸收器参数分析
利用5G大规模MIMO基站RX分支的反射信号,实现了基于SiO2 mosfet的吸收器作为传输线(用于射频信号传输)内拱的解决方案的性能,并对其进行了分析。来自基站接收(RX)分支的反射信号可能导致干扰,从而在传输线内产生性能降低条件(拱)。为了在5G环境下获得最佳性能,SiO2 MOSFET已被用于解决由阻抗引起的驻波大场强下传输线内的弓形问题。SiO2 mosfet基吸收体的反射率为-79.5 dB,整流效率大于17%
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Journal of Electrical and Computer Engineering Innovations
Journal of Electrical and Computer Engineering Innovations
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