基于可调支线耦合器和数字控制矢量调制器的 D 波段相控阵链

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Jonathan Bott;Florian Vogelsang;Nils Pohl
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引用次数: 0

摘要

无线通信和传感应用需要更高的频率,以实现更高的数据传输速率或利用更宽的调制带宽进行更精确的定位。特别是,6G 和自动驾驶研究项目重点关注 D 波段。有了更高的频率,天线就可以放置得更近,从而在同一区域内安装更多的天线,形成更窄的波束。然而,更多的信道会增加系统的复杂性。在相控阵系统中,每个天线通常需要一个矢量调制器,这就需要四个模拟控制电压和四个数模转换器。因此,增加频率和使用更多通道会因复杂的印刷电路板设计而导致系统尺寸增大。本文介绍了一种相控阵链,由基于变容二极管的可调谐支线耦合器、数字矢量调制器和功率放大器组成。变容二极管和数字矢量调制器的组合可通过 4 位数字开关实现粗略的相位变化,并通过变容调谐实现精确的相位调整。这种方法表明,四元素阵列只需要两个 DAC 而不是 16 个 DAC 就能覆盖整个角度范围。相控阵链的设计和制造采用了英飞凌科技公司的 B11HFC 硅锗技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A D-Band Phased-Array Chain Based on a Tunable Branchline Coupler and a Digitally Controlled Vector Modulator
Wireless communication and sensing applications seek higher frequencies to enable higher data rates or more precise localization using a wider modulation bandwidth. Particularly, 6G and autonomous driving research projects focus on the D-band. With higher frequencies, antennas can be placed closer together, allowing for more antennas in the same area and creating a narrower beam. However, a greater number of channels increases system complexity. Each antenna typically requires one vector modulator in a phased-array system, which entails four analog control voltages and four DACs. Consequently, increasing the frequency and utilizing more channels can result in an enlarged system size due to the complex PCB design. This article presents a phased-array chain consisting of a tunable branchline coupler based on varactor diodes, a digital vector modulator, and a power amplifier. The combination of varactor diodes and the VM enables coarse phase changes through 4-bit digital switching and precise phase adjustment through varactor tuning. This approach demonstrates that a four-element array only requires two DACs instead of 16 to cover the entire angular range. The phased-array chain was designed and manufactured using B11HFC silicon-germanium technology from Infineon Technologies AG.
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来源期刊
CiteScore
10.70
自引率
0.00%
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审稿时长
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