Phase Shifter-Relaxed and Control-Relaxed Continuous Tuning 4×4 Butler Matrix

H. Ren, Peizhao Li, Y. Gu, B. Arigong
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引用次数: 1

Abstract

A novel continuous tunable phase progression beamforming feeding network is proposed using 4×4 Butler matrix and tunable phase shifters. To tune the progressive phase difference at the output ports, four phase shifters (i.e. two phase shifters with tuning range 90°, and other two with 180° phase tuning range) are integrated with Butler matrix. Two channel digital voltages control all four phase shifters simultaneously to tune the phase difference in 90° range for each input excitation of Butler matrix, and the 360° full range of phase difference is realized by switching four input ports. The theoretical analysis is carried out to reduce the number of phase shifters as well as their phase tuning ranges, and the closed-form equations are derived to minimize the control complexity. To prove the design concept, a prototype of proposed tunable Butler matrix is designed at 5.8 GHz, and the experimental results agree well with the simulation results to prove the design theory.
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相移器放松和控制放松连续调谐4×4管家矩阵
利用4×4 Butler矩阵和可调移相器,提出了一种新的连续可调相位进阶波束形成馈电网络。为了对输出端口的递进相位差进行调谐,将四个移相器(即两个移相器的相位调谐范围为90°,另外两个移相器的相位调谐范围为180°)集成到Butler矩阵中。两个通道数字电压同时控制所有四个移相器,对巴特勒矩阵的每个输入励磁在90°范围内调谐相位差,通过切换四个输入端口实现360°全范围的相位差。通过理论分析,减少移相器的个数和移相器的相位调谐范围,推导出闭环方程,使控制复杂度最小化。为了验证设计理念,在5.8 GHz频段设计了可调谐巴特勒矩阵原型,实验结果与仿真结果吻合良好,验证了设计理论。
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