相控阵天线的计算机控制相位和振幅自校准方法

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Zain Shafiq;Dimitris E. Anagnostou;Symon K. Podilchak
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引用次数: 0

摘要

本文介绍了一种基于电路的有源相控阵校准系统。特别是,为了实现所需的(和校正的)连续相位差和射频通道之间的相对幅度,开发了一个用于动态调整的计算机控制电路系统。概念验证演示器使用相位传感器、移相器(PS)、可变增益放大器以及其他有源硬件来实现自校准电路系统,从而达到每个阵列元件所需的幅度和相位。此外,测量到的幅度和相位不平衡分别小于 0.10 dB 和 3$^\circ$。计算机控制的馈电网络随后被用于演示该系统可以自动校准有源天线阵列,用于各种波束转向示例。此外,S 波段馈电系统还能因温度变化、实际元件老化或其他一般信道偏移导致的任何监测到的幅度和相位漂移而进行自我校准。与更成熟的方法(例如,表征元件之间的耦合或整个阵列在近场或远场中的响应)相比,这可以说是一种优势,也更简单。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Computer Controlled Phase and Magnitude Self-Calibration Methodology for Phased Array Antennas
A circuit-based calibration system is presented for active phased arrays. In particular, to achieve the desired (and corrected) consecutive phase differences and relative magnitudes between RF channels, a computer controlled circuit system was developed for dynamic adjustment. The proof-of-concept demonstrator uses a phase sensor, phase shifters (PSs), and variable gain amplifiers, along with other active hardware, to realize a self-calibrating circuit system which achieves the required magnitude and phase for each array element. In addition, measured magnitude and phase imbalances are less than 0.10 dB and 3 $^\circ$ , respectively. The computer-controlled feed network is then used to demonstrate that the system can automatically calibrate an active antenna array for various beam steering examples. Also, the S-band feed system can self-calibrate due to any monitored magnitude and phase drifts due to temperature changes and practical component ageing, or, other general channel offsets. This can be considered advantageous and simpler when compared to more established approaches which characterize the coupling between elements or the response of the entire array in the near- or far-field for example.
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来源期刊
CiteScore
10.70
自引率
0.00%
发文量
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审稿时长
8 weeks
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