Yanpu Hu, Tao Zhang, Shaogeng An, Shouyuan Wang, Di Shen
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引用次数: 0
摘要
目前,有源天线系统(AAS)已经发展并应用于5G新无线电技术,以实现大规模多输入多输出(MIMO)和三维波束形成。AAS的数值建模可以帮助工程师有效地分析AAS性能并对5G基站进行测量。采用时域有限差分法(FDTD)结合复频移-完美匹配层(CFS-PML)对AAS辐射方向图进行仿真。对于5G AAS基站来说,OTA (Over The Air)测试方法更高效、更实用。介绍了小型天线测试范围(CATR),并利用它对等效各向同性辐射功率(EIRP)、总辐射功率(TRP)、等效各向同性灵敏度(EIS)等关键射频参数进行了研究。此外,在CATR中模拟了三维AAS辐射图。
Simulation and testing study of the active antenna system for the 5G base station
Nowadays, the active antenna system (AAS) has been developed and employed by the 5G New Radio technology to realize the massive multi-input and multi-output (MIMO) and the 3D beamforming. Numerical modeling of the AAS can help the engineer analyze the AAS performance and measure the 5G base station efficiently. The finite difference time domain (FDTD) method combined with the Complex Frequency Shifted-Perfect matched layer (CFS-PML) is employed for the AAS radiation pattern simulation. The Over the Air (OTA) testing method is more efficient and practical for the 5G AAS base station. The compact antenna test range (CATR) is introduced and employed to study the key radio frequency parameters, such as the Equivalent Isotropic Radiated Power (EIRP), Total Radiated Power (TRP), Equivalent Isotropic Sensitivity (EIS). Moreover, a 3D AAS radiation pattern has been simulated in the CATR.
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