Design of Miniaturized Broadband Butler Matrix for 5G Beamforming System

Journal of the Korean Institute of Electromagnetic Engineering and Science Pub Date : 2023-08-01 DOI:10.5515/kjkiees.2023.34.8.591

Jin-yeong Jung, Byung-Sung Kim

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Abstract

This paper proposes a compact 4 × 4 Butler matrix (BM) with broadband characteristics within the 5G NR frequency range (3 GHz ~4.5 GHz). To achieve broadband performance, 3 dB broad-side coupler with optimal parameters was implemented, and the circuit was designed with a strip line based on the FR-4 four-layer structure to reduce the size. The average implementation loss was measured as −1.5 dB, and the reflection coefficient was measured as over 15 dB across the entire frequency range. Phase differences of −45°, 135°, −135°, and 45° were confirmed, with an average phase error of ±3°. When the antenna was mounted, beam steering angles were measured as 10.29° ± 1°, −32.41° ± 1.5°, 32.41° ± 1.1°, and −10.29° ± 2.5°. The size of the manufactured compact BM was 40×38.6×1.2 mm3, and it achieved a size reduction of 30% and a bandwidth improvement of 2.54 times compared with the legacy BM using the same frequency. Ansys HFSS was used to design and simulate the BM, and the results suggested that this wideband compact BM could be used for the miniaturization of 5G beamforming systems.

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5G波束形成系统小型化宽带管家矩阵设计

本文提出了一种紧凑的4 × 4巴特勒矩阵(BM)，在5G NR频率范围(3ghz ~4.5 GHz)内具有宽带特性。为了实现宽带性能，设计了参数最优的3db宽边耦合器，并采用基于FR-4四层结构的带状线设计电路以减小电路尺寸。在整个频率范围内，测量到的平均实现损耗为- 1.5 dB，反射系数大于15 dB。确认相位差为- 45°，135°，- 135°和45°，平均相位误差为±3°。天线安装后，测得的波束转向角分别为10.29°±1°、- 32.41°±1.5°、32.41°±1.1°和- 10.29°±2.5°。制造的紧凑型BM尺寸为40×38.6×1.2 mm3，与使用相同频率的传统BM相比，它的尺寸减小了30%，带宽提高了2.54倍。利用Ansys HFSS对BM进行了设计和仿真，结果表明，该宽带紧凑型BM可用于5G波束形成系统的小型化。

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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Journal of the Korean Institute of Electromagnetic Engineering and Science

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3 weeks