A 24-GHz Radar with 3d-Printed and Metallized Lightweight Antennas for UAV Applications

2018 15th European Radar Conference (EuRAD) Pub Date : 2018-09-01 DOI:10.23919/eumc.2018.8541615

T. Lampersberger, R. Feger, A. Haderer, C. Egger, M. Friedl, A. Stelzer

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Abstract

A 24-GHz frequency-modulated continuous-wave (FMCW) radar system and its possible use in airborne vehicles is presented in this paper. The focus of this paper is set on the ultralight antennas and their integration into radar systems for unmanned aerial vehicle (UAV) applications. For this purpose a radiator arrangement was designed and then 3d-printed twice out of plastics with various methods. Different metallization processes were used to establish conductivity afterwards. Particularly, one antenna was plated with a conventional method and one with a new metallization technique, which makes it feasible to cover a non conducting part with silver within seconds. The weight of the antenna is 7-8 times less, than compared to full metal antennas. Subsequently, both antennas were measured, characterized and compared to each other in terms of reflection loss and beam pattern. It will be shown that the antenna metallized by the new technology can achieve 2-3 dB better results in return loss than the conventionally plated one in the 24-GHz ISM band. Also it will be shown that both prototypes are similar regarding their gain. Moreover, the antennas were mounted onto a radar, located on the UAV and then flight tests up to 120 meters have been performed. These results were recorded, processed and evaluated finally.

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用于无人机应用的具有3d打印和金属化轻型天线的24 ghz雷达

介绍了一种24ghz调频连续波(FMCW)雷达系统及其在机载上的应用前景。本文重点研究了超轻型天线及其在无人机雷达系统中的集成。为此，设计了一个散热器，然后用各种方法用塑料进行了两次3d打印。然后采用不同的金属化工艺来建立电导率。其中一根天线采用传统镀银方法镀银，另一根天线采用新型镀银技术镀银，这使得在几秒钟内覆盖非导电部分成为可能。与全金属天线相比，天线重量减轻7-8倍。随后，对两根天线进行了测量、表征，并在反射损耗和波束方向图方面进行了比较。结果表明，在24ghz ISM频段上，采用新技术镀金属的天线回波损耗比传统镀金属天线高2 ~ 3db。此外，这两个原型在增益方面是相似的。此外，天线安装在无人机上的雷达上，然后进行了高达120米的飞行测试。最后对这些结果进行记录、处理和评价。

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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2018 15th European Radar Conference (EuRAD)

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