The wireless communications systems in subterahertz frequency range

Physics of Wave Processes and Radio Systems Pub Date : 2023-12-15 DOI:10.18469/1810-3189.2023.26.4.48-59

Vladimir V. Biryukov, V. L. Vaks, Sergey A. Kapustin, V. A. Malakhov, A. Panin, S. Pripolzin, A. S. Raevskiy, Yuliya V. Raevskaya, Vladimir V. Shcherbakov

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Abstract

Background. The subterahertz and terahertz frequency ranges are very promising for development of high speed wireless communications systems because of possibility to get the bandwidth about some tens of GHz, which provides the high channel capacity. However fast signal attenuation at its propagation in atmosphere complicate the operation of communications systems in these ranges. Aim. Use of fixed narrow-beam antennas with high antenna power gain allows to provide the direct surface communications distance to some kilometers. The communications distance limitation can be partially removed decreasing the frequency down to 200 GHz and narrowing the channel bandwidth down to some GHz. Methods. The model of transmitter-receiver system (200-220 GHz) based of modern semiconductor devices is described in the manuscript. Results. The possibility of digital signals transmission with speed up to 1 Gbit/s at the distance of 1 km is experimentally shown. Conclusion. According to calculations the output power of transmitter about some hundreds mW is enough for data transmission at the distance up to 1.5 km with antenna power gain of no less than 50 dB.

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亚赫兹频率范围内的无线通信系统

背景。亚太赫兹和太赫兹频率范围在高速无线通信系统的开发中大有可为，因为它们的带宽可达数十吉赫，可提供高信道容量。然而，信号在大气中传播时的快速衰减使这些范围内的通信系统的运行变得复杂。目标使用具有高天线功率增益的固定窄波束天线，可使地面直接通信距离达到几千米。将频率降低到 200 千兆赫，并将信道带宽缩小到几千兆赫，可以部分消除通信距离的限制。方法。手稿中描述了基于现代半导体器件的发射器-接收器系统（200-220 GHz）模型。结果实验表明，在 1 千米的距离内，数字信号传输速度可达 1 Gbit/s。结论。根据计算，在天线功率增益不低于 50 dB 的情况下，发射器约数百毫瓦的输出功率足以在 1.5 千米的距离内进行数据传输。

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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Physics of Wave Processes and Radio Systems

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