3D Printed Antennas for 5G Communication: Current Progress and Future Challenges

Yaru Wang , Xueqin Zhang , Ruyue Su , Mingji Chen , Chujing Shen , Hao Xu , Rujie He
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引用次数: 5

Abstract

With the advent of 5G and future trends for communication systems moving to millimeter wave (MMW) and higher frequencies, antennas will be required to have high gain, wide bandwidth, and low losses. 3D printing realizes structures by sequential stacking layer-by-layer, which enables the manufacturing of antennas with arbitrary shapes in a cheaper, faster, and flexible manner. This study provides a review of current state-of-the-art 3D printed antennas for different frequencies. First, an overview of 3D printing technology is presented. A huge number of 3D printed antennas, categorized by their material composition, have been described, including polymer, metallic, ceramic, composite material, and multi-material integrated antennas. Finally, the main challenges and prospects are discussed to provide insight into how 3D printing can be further progressed in antenna manufacturing.

用于5G通信的3D打印天线:当前进展和未来挑战
随着5G的出现以及通信系统向毫米波(MMW)和更高频率移动的未来趋势,天线将被要求具有高增益、宽带宽和低损耗。3D打印通过逐层顺序堆叠来实现结构,这使得能够以更便宜、更快和灵活的方式制造任意形状的天线。这项研究对目前最先进的不同频率的3D打印天线进行了综述。首先,对3D打印技术进行了概述。已经描述了大量按材料成分分类的3D打印天线,包括聚合物、金属、陶瓷、复合材料和多材料集成天线。最后,讨论了主要的挑战和前景,以深入了解3D打印如何在天线制造中进一步发展。
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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