Low Loss Multi-Channel Communication Combiner for Cellular Applications

IF 3.4 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Access Pub Date : 2023-10-13 DOI:10.1109/ACCESS.2023.3324456

Eran Rosenberg;Yoav Koral;Achimeir Mekeyess;Moshe Mizrachi;Doron Solomon;Eldad Holdengreber;Shmuel E. Schacham;Eliyahu Farber

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Abstract

The increasing demand for cellular communication channels calls for multichannel solutions. Using one antenna for each channel results in a high density of antennas at the compact cellular station front, which generates inter-channel interference. This may result in distractive interference and significant losses at the output and input of the channels. To overcome these drawbacks, we propose a technology that combines several channels into a single antenna. We implemented a frequency-tuned, multi-channel phase control system with a phase shifter connected to each channel, with low insertion loss and low return loss. The phase shifter is composed of an ultra-wideband coupler and a computer-controlled capacitor. To obtain low insertion loss of the phase shifter, typically 1.5 dB, we designed a planar tandem hybrid coupler for the desired frequency range. We used a capacitor bank of varactor diodes for frequency tuning. The capacitance of these diodes was controlled by the applied reverse bias voltage generated by a D/A converter. The control computer received the digital input to the converter through a serial communication line. The channels were simultaneously phase matched to minimize channel losses. We performed an extensive theoretical analysis of a multi-channel frequency combiner. Based on the simulation results, a three-channel multi-coupler was implemented. The high performance of the system was demonstrated experimentally.

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用于蜂窝应用的低损耗多信道通信组合器

对蜂窝通信信道日益增长的需求需要多信道解决方案。每个信道使用一个天线会导致紧凑型蜂窝站前端的天线密度高，从而产生信道间干扰。这可能导致信道的输出和输入处的干扰和显著损失。为了克服这些缺点，我们提出了一种将多个信道组合成单个天线的技术。我们实现了一个频率调谐的多通道相位控制系统，每个通道都连接一个移相器，具有低插入损耗和低回波损耗。移相器由超宽带耦合器和计算机控制的电容器组成。为了获得移相器的低插入损耗，通常为1.5dB，我们为所需的频率范围设计了一种平面串联混合耦合器。我们使用变容二极管的电容器组进行频率调谐。这些二极管的电容由D/a转换器产生的反向偏置电压控制。控制计算机通过串行通信线路接收到转换器的数字输入。通道同时进行相位匹配，以最大限度地减少通道损耗。我们对多通道频率组合器进行了广泛的理论分析。基于仿真结果，实现了一种三通道多耦合器。实验证明了该系统的高性能。

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来源期刊

IEEE Access COMPUTER SCIENCE, INFORMATION SYSTEMSENGIN-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

9.80

自引率

7.70%

发文量

6673

审稿时长

6 weeks

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