Arbitrary-Order Output Intercept Points of an Analog Receive Beamforming System

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2024-07-15 DOI:10.1109/JMW.2024.3405348

Matthew J. Mondich;Frank Bucholtz;Joseph M. Singley;Keith J. Williams

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Abstract

We derive a general expression for the m th-order intercept point ( IPm ) of an analog RF receive beamforming system comprising multiple inputs, an array of nonlinear elements, and a single output. Given parallel inputs, the general IPm expression includes the gain and nonlinearity of each element in the array as well as both intrinsic and extrinsic loss factors and phase shifts. We then impose constraints on the calculation of IPm by making certain assumptions about the statistical relationship between the phases of the distortion signals at the output to obtain the coherent and incoherent m th-order output intercept points ( OIPm ), which determine lower and upper bounds, respectively, on an actual measured output intercept point. Finally, we present the results of a series of experiments and show that the OIP2 and OIP3 obtained from 36 independent measurements all fall between the theoretical calculated bounds. These results will be of utility in the design, analysis, and testing of analog phased-arrays, multi-channel receivers, and receive-mode beamformers.

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模拟接收波束成形系统的任意阶输出截点

我们推导出了模拟射频接收波束成形系统 mth 阶截获点 (IPm) 的一般表达式，该系统由多个输入、非线性元件阵列和单个输出组成。给定并行输入，IPm 的一般表达式包括阵列中每个元件的增益和非线性度，以及内在和外在损耗因子和相移。然后，我们通过对输出端失真信号相位之间的统计关系做出某些假设，对 IPm 的计算施加约束，从而获得相干和非相干 mth 阶输出截距点 (OIPm)，它们分别决定了实际测量输出截距点的下限和上限。最后，我们介绍了一系列实验结果，并表明从 36 次独立测量中获得的 OIP2 和 OIP3 均位于理论计算边界之间。这些结果将有助于模拟相控阵、多通道接收器和接收模式波束形成器的设计、分析和测试。

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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