Dual-polarized probe with full octave bandwidth and minimum scattering for planar near field measurements

2017 Antenna Measurement Techniques Association Symposium (AMTA) Pub Date : 2017-10-01 DOI:10.23919/AMTAP.2017.8123716

A. Giacomini, V. Schirosi, R. Morbidini, L. Foged, J. Estrada, J. Acree, L. Tancioni

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引用次数: 4

Abstract

Dual-polarized probes with wide-bandwidth operational capabilities are highly desirable for time-efficient Planar Near-Field (PNF) measurements [1]-[3]. However, sometimes the performance tradeoffs necessary to achieve the desired operating bandwidth make such probes impractical for many applications. Traditional probes are often bandwidth limited, and their electrical size can be an undesired source of scattering in PNF measurements, in particular if the probe-AUT distance is small [4]-[5]. An innovative, octave-band probe has recently been presented combining wide bandwidth, near constant directivity, low cross-polarization, and minimum scattering [6]. In this paper, the probe design is discussed in detail, including technical and implementation trade-offs. Several probes have been manufactured at L/Ku-band band, and test results are presented. The probe design is fully scalable, even beyond Ka-band. The scattering properties of the probe (in terms of measurement perturbation) are assessed by numerical simulation and compared to standard rectangular open-ended waveguides.

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具有全倍频宽和最小散射的双偏振探头，用于平面近场测量

具有宽带操作能力的双极化探头非常适合于高效的平面近场(PNF)测量[1]-[3]。然而，有时为了达到期望的操作带宽而进行的性能权衡使得这种探测对许多应用程序来说不切实际。传统探头通常带宽有限，而且它们的电尺寸可能成为PNF测量中不希望的散射源，特别是如果探头与aut的距离很小[4]-[5]。最近提出了一种创新的倍频带探头，结合了宽带宽、近恒定指向性、低交叉极化和最小散射[6]。本文详细讨论了探针设计，包括技术和实现折衷。在L/ ku波段制作了几种探针，并给出了测试结果。探头设计是完全可扩展的，甚至超过ka波段。通过数值模拟评估了探针的散射特性(在测量扰动方面)，并与标准矩形开放式波导进行了比较。

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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2017 Antenna Measurement Techniques Association Symposium (AMTA)

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