低成本3d打印240 GHz塑料透镜，由有机衬底集成天线馈电，瞄准亚太赫兹高数据速率无线链路

2017 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting Pub Date : 2017-07-09 DOI:10.1109/APUSNCURSINRSM.2017.8072045

F. Gianesello, E. Lacombe, C. Luxey, A. Bisognin, D. Titz, H. Gulan, T. Zwick, Jorge R. Costa, C. Fernandes

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引用次数: 12

摘要

为了提高数据传输速率，毫米波和次太赫兹低成本天线系统成为研究的热点。在这些频率下，通常需要准光学天线来增加可实现的增益，从而增加链路范围。在60 GHz和高达140 GHz的频率下，成功展示了采用3D打印技术制造的低成本abs -塑料透镜。本文在215-240 GHz频段提出了相同的方法。首次使用有机基板中的集成天线作为馈源，以照亮3d打印abs -塑料透镜。在这两个元件之间进行了共同设计，然后在透镜直径为9 mm时实现了增益增加~ 11 dB。在235 GHz时测得的峰值增益为18 dBi。

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Low-cost 3D-printed 240 GHz plastic lens fed by integrated antenna in organic substrate targeting sub-THz high data rate wireless links

Millimeter-wave and sub-THz low-cost antenna systems are hot topics in order to increase data rates. At these frequencies, quasi-optical antennas are often required to increase achievable gains and therefore link range. At 60 GHz and up-to 140 GHz, low-cost ABS-plastic lenses fabricated in 3D printing technology were successfully demonstrated. In this paper, the same approach is presented in the 215–240 GHz band. For the first time, an integrated antenna in organic substrate is used as a feed in order to illuminate a 3D-printed ABS-plastic lens. A co-design between those two elements was performed, a gain increase of ∼11 dB is then achieved for a lens diameter of 9 mm. A peak gain of 18 dBi has been measured at 235 GHz.

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来源期刊

2017 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting

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