Phased-array antenna beam squinting related to frequency dependency of delay circuits

2011 8th European Radar Conference Pub Date : 2011-12-12 DOI:10.23919/EUMC.2011.6101846
S. K. Garakoui, E. Klumperink, B. Nauta, F. V. van Vliet
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引用次数: 51

Abstract

Practical time delay circuits do not have a perfectly linear phase-frequency characteristic. When these delay circuits are applied in a phased-array system, this frequency dependency shows up as a frequency dependent beam direction (“beam squinting”). This paper quantifies beam squinting for a linear one-dimensional phased array with equally spaced antenna elements. The analysis is based on a (frequency-dependent) linear approximation of the phase transfer function of the delay circuit. The resulting relation turns out to be invariant for cascaded cells. Also a method is presented to design time-delay circuits to meet a maximum phased-array beam squinting requirement.
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相控阵天线波束斜视与延迟电路的频率依赖性有关
实际的延时电路并不具有完全线性的相频特性。当这些延迟电路应用于相控阵系统时,这种频率依赖性表现为频率依赖性波束方向(“波束斜视”)。本文量化了具有等间距天线单元的一维线性相控阵的波束斜视。分析是基于延迟电路的相传递函数的(频率相关的)线性逼近。所得到的关系对于级联单元是不变的。同时提出了一种满足最大相控阵波束斜视要求的延时电路设计方法。
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2011 8th European Radar Conference
2011 8th European Radar Conference
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