Andrés Gómez-Álvarez;Álvaro F. Vaquero;Manuel Arrebola;Marcos Rodriguez Pino
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引用次数: 0
摘要
本文介绍了两种多馈源配置的 Ka 波段多波束反射阵列天线。这两种天线都具有扫描损耗极低的广角扫描范围。它们的设计采用了基于纯相位优化(POO)的迭代优化过程,可对每个波束的增益进行精细控制。在选择晶格单元的相位响应时,会考虑到系统中所有馈电的照明水平和辐射要求。扫描损耗最小化和天线整体紧凑性是设计中的优先考虑因素。馈电元件沿倾斜弧线放置,F/D 值低至 0.58。与文献中的其他波束扫描反射阵列设计相比,该设计避免了馈电间的阻塞,因此可支持多波束同时运行。这两种反射阵列设计都采用了具有低损耗和高角度稳定性的单元单元,并在不同的正交线性极化下工作。经过制造和测量,它们在 ±45 度扫描范围内的扫描损耗分别为 0.5 dB 和 1.4 dB,而最大增益水平分别为 28.2 dBi 和 29.4 dBi。此外,它们在评估的 3 GHz 波段内波束斜视极低,测量的 1 dB 分数带宽超过 6.8% 和 10%。
Multibeam Compact Reflectarray Antenna With Low Scan Loss and Wide-Angle Performance Using a Multi-Feed Configuration
In this article, two multibeam reflectarray antennas are presented for Ka-band in a multi-feed configuration. Both feature a wide-angle scanning range with very low scan losses. They are designed using an iterative optimization process based on a phase-only optimization (POO) which allows fine control over the gain for each beam. The phase responses of the lattice cells are selected taking into account the illumination levels and radiation requirements of all feeds in the system. Minimization of scanning losses and overall antenna compactness are prioritized in the design. The feeding elements are placed along a tilted arc with a low F/D of 0.58. Compared to other beam scanning reflectarray designs in the literature, inter-feed blockage is avoided and thus simultaneous multibeam operation is supported. The two reflectarray designs are implemented using a unit cell with low losses and high angular stability, and they operate in different orthogonal linear polarizations. They are manufactured and measured, showing very low scan losses of 0.5 dB and 1.4 dB across a ±45-degree scanning range, while having maximum gain levels of 28.2 dBi and 29.4 dBi respectively. Moreover, they present extremely low beam squint across the evaluated 3 GHz band, and a measured 1 dB fractional bandwidth over 6.8% and 10%.