L. Foged, F. Saccardi, L. Scialacqua, L. Salghetti Drioli, J. A. Araque Quijano, G. Vecchi
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引用次数: 0
Abstract
This paper describes the application of the inversesource also named source-reconstruction technique [1-4] applied to the practical case of a space antenna intended for the European Navigation System GALILEO. The antenna (a pre-development flying on the GALILEO In Orbit Validation Element-B (GIOVE-B) satellite) consists in an array of 42 patch elements, divided into six sectors and fed by a two levels beam forming network (BFN) as described in [5]-[6]. The BFN provides complex excitation coefficients of each array element to obtain the desired iso-flux shaped beam pattern. The measurements have been performed in the new hybrid (Near Field and Compact Range) facility in the ESTEC CPTR as part of the installation and validation procedure [7]. The inverse-source technique has been applied to identify and filter out possible spurious signals presents in the hybrid facility and to isolate the sub-array radiations in order to highlight possible errors.
本文描述了反源(也称为源重建技术)的应用[1-4],应用于欧洲导航系统GALILEO的空间天线的实际案例。天线(在伽利略在轨验证单元- b (GIOVE-B)卫星上飞行的预开发)由42个贴片单元阵列组成,分为六个扇区,由两级波束形成网络(BFN)馈电,如[5]-[6]所述。BFN提供了每个阵列单元的复杂激励系数,以获得期望的等通量形光束图。作为安装和验证程序的一部分,这些测量是在ESTEC CPTR的新型混合(近场和紧凑范围)设备中进行的[7]。反源技术已被应用于识别和滤除混合设备中可能出现的杂散信号,并隔离子阵列辐射以突出可能的错误。
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