J. Iriarte, I. Ederra, R. Gonzalo, F. Monjas, S. Arenas, R. Manrique, A. Montesano, M. Díaz-Martín
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引用次数: 7
摘要
来自地球静止轨道的全球传输通信系统需要紧凑和轻便的天线,以尽可能减少飞行配置的总体质量。在欧空局紧凑型低质量全球天线项目框架内,EADS CASA Espacio和纳瓦拉公立大学正在开发一种轻型紧凑型双圆极化c波段天线。天线的设计是基于平面技术,导致两种不同的工作路线。一种是低轮廓贴片阵列,另一种是基于电磁带隙(EBG)叠层技术。对这两种配置进行了研究,并在3.7 GHz的c波段进行了单频段工作模式的权衡。它们是根据紧凑性、质量和射频性能进行评估的。详细介绍了阵列布局和波束形成网络的实现,以及辐射体和EBG层的选择。
Design of an EBG Compact Low-Mass Antenna in C-band with dual circular polarisation
Global transmission communication systems from geostationary orbit require compact and light antennas to reduce as much as possible the overall mass of the on flight configuration. Within the frame of the ESA project Compact Low-Mass Global Antennas, EADS CASA Espacio and the Public University of Navarra are developing a light and compact C-band antenna with dual circular polarization. The design of the antenna is based on flat planar technology, leading to two different lines of work. The first one consists in a low profile patch array while the other is based on Electromagnetic Band Gap (EBG) superstrate technology. Both configurations are studied and traded-off for single band working modes in C-band at 3.7 GHz. They are evaluated in terms of compactness, mass and RF performance. The array layout and beam forming network implementation are detailed, as well as the radiator and EBG superstrate selection.
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