Investigation of Harmonic Frequency Multiplication on Transmitted Data through Pulse Shaping for 6G Communication

2020 7th International Conference on Electrical and Electronics Engineering (ICEEE) Pub Date : 2020-04-01 DOI:10.1109/ICEEE49618.2020.9102565

Özgün Ersoy, A. Sahin

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引用次数: 2

Abstract

Communication shifts to high carrier frequencies with increasing data rates and the need for quality transmission. In this context, studies are carried out at 28 GHz in 5G technology, and communication systems in the frequency band of 60–70 GHz are studied. In addition, communication systems in the frequency band of 140–180 GHz are planned for 6G technology. However, amplifier active balanced mixers cannot be found at high frequencies in existing technology, frequency multiplication via Schottky diode only viable solution for these ahead of the technology curve frequency bands. We investigated the effects of frequency upconversion through harmonic frequency multiplication on the transmitted digital data pulse shape and data rate. These studies were simulated in the MATLAB simulation environment and corroborated in our experimental 50–75 GHz carrier wireless communication system. We showed that through pulse shaping the transmitted data eye diagram SNR can be improved by 3 dB or data rate can be increased by 20% alternatively.

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6G通信中脉冲整形传输数据的谐波倍频研究

随着数据速率的提高和对高质量传输的需求，通信转向高载波频率。在此背景下，在5G技术中进行了28ghz频段的研究，并研究了60-70 GHz频段的通信系统。此外，针对6G技术，还规划了140 ~ 180 GHz频段的通信系统。然而，在现有的技术中，放大器有源平衡混频器无法在高频处找到，通过肖特基二极管进行倍频的唯一可行的解决方案是针对这些超前的技术曲线频段。研究了谐波倍频上变频对传输数字数据脉冲形状和数据速率的影响。这些研究在MATLAB仿真环境中进行了仿真，并在我们的实验50-75 GHz载波无线通信系统中得到了验证。结果表明，通过脉冲整形，传输的数据眼图信噪比可提高3 dB，数据速率可提高20%。

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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2020 7th International Conference on Electrical and Electronics Engineering (ICEEE)

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