Combination of Spherical and Planar Scanning for Phaseless Near-Field Antenna Measurements

2019 Antenna Measurement Techniques Association Symposium (AMTA) Pub Date : 2019-10-01 DOI:10.23919/AMTAP.2019.8906466

F. R. Varela, Belén Galocha Iraguen, M. S. Castañer, J. F. Álvarez, M. Mattes, O. Breinbjerg

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引用次数: 9

Abstract

The two scans phaseless technique is a well-known procedure for the characterization of antennas on near-field ranges without need of measuring the phase. Amplitude information over two surfaces compensates for the lack of phase reference. In this paper we propose the combination of spherical and planar surfaces for the application of the two scans technique, together with the application of Wirtinger Flow, a state-of-the art phase retrieval algorithm with high convergence guarantees. The use of different types of surface adds additional information about the field’s degrees of freedom, allowing for smaller separation between acquisition surfaces as compared with the 2-sphere techniques. In addition, an initial estimation for the phase is not required. The phase retrieval process is formulated in terms of the Spherical Wave Expansion (SWE) of the antenna under test. The SWE-to-PWE (Plane Wave Expansion) is utilized in order to process the amplitude field on the planar surface. Results for simulated and measured near-field data are shown to demonstrate the potential capabilities of the proposed technique.

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球面与平面相结合的无相近场天线测量方法

两次扫描无相位技术是一种众所周知的方法，用于表征天线在近场范围内不需要测量相位。两个表面上的振幅信息补偿了相位参考的缺乏。在本文中，我们提出了球面和平面结合的两种扫描技术的应用，并结合了Wirtinger Flow，这是一种具有高收敛保证的最新相位检索算法。不同类型表面的使用增加了关于油田自由度的额外信息，与双球技术相比，可以减少采集表面之间的分离。此外，不需要对阶段进行初始估计。相位恢复过程是根据被测天线的球面波展开(SWE)来制定的。利用平面波展开法对平面上的振幅场进行处理。模拟和测量的近场数据的结果显示了所提出的技术的潜在能力。

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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2019 Antenna Measurement Techniques Association Symposium (AMTA)

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