一种基于巴特勒矩阵的新型八元波束形成天线阵列天线

ASIAN JOURNAL OF CONVERGENCE IN TECHNOLOGY Pub Date : 2021-04-05 DOI:10.33130/AJCT.2021V07I01.003

Dilshan Singh Chadha, Kartikey Chaturvedi, M. D. Upadhayay

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摘要

本文设计了一种以8 × 8巴特勒矩阵为波束形成网络的8元线性阵列微带天线。该结构谐振频率为2.4 GHz，采用微带技术实现，FR-4衬底er=4.3，高度=1.6 mm。给出了用于实现该矩阵的元件(微带天线、正交耦合器、交叉器、移相器)的仿真结果。8元天线阵列与矩阵相连形成波束形成系统，在- 55◦、- 36◦、-21◦、-7◦、55◦、36◦、21◦和7◦位置产生8个正交波束。在中心频率处，各端口的反射系数和隔离度均低于−10 dB，辐射方向图旁瓣足够低。该技术应用于5G和LTE的较低频段、可穿戴设备和IEEE 802.11 WLAN

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A Novel Antenna for 8 Element Beam Forming Antenna Array using Butler Matrix

This paper presents design of novel microstrip antenna for an 8-element linear array with 8x8 Butler Matrix as a beamforming network. The proposed structure resonates at 2.4 GHz frequency and is implemented using Microstrip Technology with FR-4 Substrate having er=4.3 and height=1.6 mm. Simulation results are given for the components (microstrip antenna, quadrature couplers, crossovers, phase shifters) used to implement the matrix. The 8-element antenna array is connected to the matrix to form a beamforming system and produces eight orthogonal beams at −55◦, −36◦, -21◦, -7◦, 55◦, 36◦, 21◦, and 7◦. The reflection coefficients and isolations at all ports are below −10 dB at the center frequency and side lobes of radiation pattern are sufficiently low. The applications for this technique are in lower frequency bands of 5G and LTE, wearable devices and IEEE 802.11 WLAN

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