A Review on Antenna Technology Developments for Sub-THz Wireless Communication: Application, Challenges and Opportunities

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Antennas and Propagation Pub Date : 2025-02-25 DOI:10.1109/OJAP.2025.3546122

Jordi C. F. Zandboer;Gabriele Federico;Ulf Johannsen;A. Bart Smolders

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Abstract

This paper analyzes state-of-the-art antenna concepts in the higher millimeter-wave frequency range (90-300 GHz), commonly referred to as the sub-THz frequency range. As the sub-THz range is still an emerging field of research, the aim of this review is to present and discuss different approaches and concepts reported in literature in the areas of antenna-in-package (AiP), antenna-on-chip (AoC) and other sub-THz antenna technology, focusing on the gain and occupied area parameters. Based on the analysis, it is concluded that AiP and AoC systems are very promising for highly integrated solutions requiring a small form factor, such as inter-device communication. At the same time, other concepts such as lens antennas provide a better solution for high-gain applications like fronthaul/backhaul scenarios. For D-band, a patch-AiP is the dominant antenna choice, but for H-band tailoring the antenna type to a specific application is highly recommended. The challenges involved in designing, manufacturing and measuring sub-THz antennas are best represented by the fact that only 26% of the listed AiP and AoC antennas operating above 200 GHz have documented performance measurements. This can be addressed by choosing the right manufacturing technology as well as measurement setup and corresponding calibration.

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亚太赫兹无线通信天线技术发展综述：应用、挑战与机遇

本文分析了高毫米波频率范围（90-300 GHz）的最新天线概念，通常称为次太赫兹频率范围。由于亚太赫兹范围仍然是一个新兴的研究领域，本综述的目的是介绍和讨论在封装天线（AiP）、片上天线（AoC）和其他亚太赫兹天线技术领域中文献报道的不同方法和概念，重点关注增益和占用面积参数。根据分析，AiP和AoC系统非常适合需要小尺寸的高度集成解决方案，例如设备间通信。同时，透镜天线等其他概念为高增益应用（如前传/回程场景）提供了更好的解决方案。对于d波段，patch-AiP是主要的天线选择，但对于h波段，强烈建议根据具体应用定制天线类型。设计、制造和测量亚太赫兹天线所面临的挑战最好地体现在这样一个事实：在列出的工作在200 GHz以上的AiP和AoC天线中，只有26%有记录的性能测量。这可以通过选择正确的制造技术以及测量设置和相应的校准来解决。

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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