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Design of Millimeter Wave Transceiver Isolation System Based on Polarization Converter and Grating

2021 China Semiconductor Technology International Conference (CSTIC) Pub Date : 2021-03-14 DOI:10.1109/CSTIC52283.2021.9461481
Jiabing Liu, Ke Wang, Yaozu Guo, X. Ji, Ping Han, Feng Yan, Y. Liao
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Abstract

In this paper, a millimeter wave transceiver isolation system integrated with polarization converter and grating is designed by quasi optical method. The polarization converter is composed of double-layer substrates, each of one is 200 µm thick quartz glass with a layer of metasurface structures on its surface. Besides, the grating is designed and optimized on a 0.1 mm thick copper sheet. The simulation and calculation results show that the isolation is higher than 20 dB and the transmission loss is lower than 0.85 dB and the receiving loss is lower than 1 dB at 72 – 82 GHz.
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基于偏振变换器和光栅的毫米波收发隔离系统设计
本文采用准光学方法设计了一种结合偏振变换器和光栅的毫米波收发隔离系统。偏振变换器由双层衬底组成,每层衬底为200µm厚的石英玻璃,其表面有一层超表面结构。并在0.1 mm厚的铜片上对光栅进行了优化设计。仿真和计算结果表明,在72 ~ 82 GHz频段,隔离度高于20 dB,传输损耗低于0.85 dB,接收损耗低于1 dB。
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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2021 China Semiconductor Technology International Conference (CSTIC)
2021 China Semiconductor Technology International Conference (CSTIC)
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