高效紧凑型天线试验场同轴馈电喇叭的设计

2018 11th UK-Europe-China Workshop on Millimeter Waves and Terahertz Technologies (UCMMT) Pub Date : 2018-09-01 DOI:10.1109/ucmmt45316.2018.9015800

Wenju Niu, Yuan Yao, Xiaoming Liu, L. Qi, Zhijiao Chen, Junsheng Yu, Xiao-dong Chen

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引用次数: 3

摘要

孔径效率是评价小型天线试验台工作性能的一个重要参数。高孔径效率意味着相同尺寸的反射镜可以获得更大的安静区(QZ)场，其质量由振幅纹波、相位纹波和交叉偏振电平(CPL)等参数来设计。同轴馈电喇叭可以产生一个已被用于获得高孔径效率的单抛物面反射CATR的形状图案。这种同轴馈电喇叭具有可转换结构，该结构由中心圆波导组成，并由一个或多个圆形截面的导体包围。当喇叭内环数增加时，其孔径效率也随之提高。然而，为了降低喇叭的制造难度，同时保持QZ的孔径效率有一个良好的水平，应考虑环的数量。针对较大的QZ，设计了一种同轴馈电喇叭双环结构，在单抛物面反射式CATR中可以获得80%的孔径效率。

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Design of a Coaxial Feed Horn for High Efficiency Compact Antenna Test Range

The aperture efficiency is an important parameter to evaluate working performance of compact antenna test range (CATR). High aperture efficiency means that the reflector with same size can obtain larger quiet zone (QZ) field, whose quality is designed by parameters such as amplitude ripple, phase ripple and cross-polarization level (CPL). coaxial feed horn can produce a shaped pattern that has been used to obtain a high aperture efficiency in the single parabolic reflector CATR. This coaxial feed horn has a transformable structure that consists of a central circular waveguide and is surrounded by one or more conductors with circular cross sections. When the number of rings in horn becomes larger, its aperture efficiency is also increase. However, the number of rings should be considered for reducing the difficulty of horn manufacture but keep the aperture efficiency of QZ having a good level. A two-rings structure of coaxial feed horn has been designed for larger QZ, which can obtain 80% aperture efficiency in a single parabolic reflector CATR.

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2018 11th UK-Europe-China Workshop on Millimeter Waves and Terahertz Technologies (UCMMT)

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