Advances in Terahertz CMOS for 6G

2021 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS) Pub Date : 2021-12-05 DOI:10.1109/BCICTS50416.2021.9682460

M. Fujishima

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引用次数: 1

Abstract

Terahertz has recently been attracting attention in communications although it has been mainly focused on the field of non-invasive sensing. In particular, the 300 GHz band, which can be used in the 44 GHz frequency range from 252 GHz to 296 GHz, is expected to be used for ultrahigh-speed wireless communications toward 6G. Traditionally, compound semiconductors and BiCMOS circuits with excellent high-frequency characteristics have been considered advantageous at terahertz (or sub-terahertz), including the 300 GHz band. In this talk, the significance and potential of realizing terahertz communications with CMOS integrated circuits, which have relatively poor high-frequency characteristics, will be discussed. An overview of ultra-wideband wireless communication in the terahertz band, including the 300 GHz band, will be given, and the necessity of a communication system using phased arrays and the significance of using CMOS integrated circuits in this system will be clarified. Finally, a 300 GHz CMOS wireless transceiver capable of transmitting data rates of up to 80 Gb/s will be presented, which can be used as an element of terahertz phased array.

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用于6G的太赫兹CMOS的进展

虽然太赫兹技术主要集中在非侵入式传感领域，但近年来在通信领域引起了人们的关注。特别是可以在252 ~ 296 GHz的44 GHz频率范围内使用的300 GHz频段，有望用于6G方向的超高速无线通信。传统上，具有优异高频特性的化合物半导体和BiCMOS电路被认为在太赫兹(或次太赫兹)，包括300 GHz频段具有优势。在这次演讲中，将讨论用高频特性相对较差的CMOS集成电路实现太赫兹通信的意义和潜力。概述了包括300ghz频段在内的太赫兹波段超宽带无线通信，阐明了采用相控阵通信系统的必要性以及在该系统中使用CMOS集成电路的意义。最后，提出了一种传输速率高达80gb /s的300 GHz CMOS无线收发器，可作为太赫兹相控阵的元件。

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 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS)

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