Performance Assessment of a 5GNR D-Band CMOS Transceiver with Phase Noise Impairments

公共管理高层论坛 Pub Date : 2023-06-06 DOI:10.1109/EuCNC/6GSummit58263.2023.10188317

Yaya Bello, David Demmer, A. Hamani, A. Siligaris, C. Dehos, N. Cassiau, Jean-Baptiste Doré, J. L. Jiménez

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Abstract

Sub-THz bands offer a strong potential with their wide available bandwidths, which makes them a promising enabler for 6G. However, the channel propagation is challenging in those bands because of severe path loss attenuation. Hardware impairments are also strong especially phase noise (PN). Besides, silicon based components, which prevail in mobile systems thanks to their low production costs, reach their limits in such high frequencies. There is thus a need for specific solutions for both system designs and signal processing techniques. The contributions of the proposed work are multiple: (i) based on a CMOS D-Band transceiver, we measure and derive the stochastic properties of the transceiver PN and, (ii) we investigate and evaluate the performance of signal processing PN estimation and compensation techniques, with the measured PN for OFDM and DFT-s-OFDM waveforms. We demonstrate that the use of the proposed algorithm based on the statistic properties of the correlated nature of the PN, leads to a significant performance gain in DFT-s-OFDM systems. We consider a real measurement of the PN power spectral density and standard and extended 5G-NR numerologies.

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相位噪声损害的5GNR d波段CMOS收发器性能评估

次太赫兹频段以其广泛的可用带宽提供了强大的潜力，这使它们成为6G的有希望的推动者。然而，由于严重的路径损耗衰减，在这些波段中信道传播具有挑战性。硬件缺陷也很严重，尤其是相位噪声(PN)。此外，由于生产成本低而在移动系统中盛行的硅基组件在如此高的频率下达到了极限。因此，需要为系统设计和信号处理技术提供具体的解决方案。所提出的工作的贡献是多方面的:(i)基于CMOS d波段收发器，我们测量并导出收发器PN的随机特性，(ii)我们研究和评估信号处理PN估计和补偿技术的性能，使用测量的OFDM和DFT-s-OFDM波形的PN。我们证明，使用基于PN相关性质的统计特性的所提出的算法，可以在DFT-s-OFDM系统中获得显着的性能增益。我们考虑PN功率谱密度的实际测量以及标准和扩展的5G-NR数字。

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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