由于雨滴产生的电磁干扰，毫米波下的视线链路退化

Proceedings of the International Conference on Electromagnetic Interference and Compatibility Pub Date : 1900-01-01 DOI:10.1109/ICEMIC.1999.871658

R. Bera, A. K. Sen, P. Karmakar

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引用次数: 0

摘要

利用带宽为2500 MHz的Ka波段(35 GHz)似乎代表了LOS链路应用中最大的重大成就。该频段收发器系统的性能在很大程度上取决于接收机中所需功率与不需要功率的比值。不需要的功率贡献来自两个因素:(1)接收器元件内随机原子运动产生的内部热噪声;(2)雨滴产生的EMI(电磁干扰)对天空噪声温度T/sub /的贡献。这个额外的项T/s /到目前为止都被忽略了。因此，考虑到Ka波段的传播和噪声研究，估计了印度加尔各答热带站的雨衰减和接收机噪声底随雨的变化。最后，我们特别讨论了在前端使用lnbc(低噪声块降转换器)的接收系统，该系统通常在30 K或更低的温度下，雨水EMI影响严重。

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Line of sight link degradation at millimeterwaves due to EMI from rain drops

The utilization of the Ka band (35 GHz) with a bandwidth of 2500 MHz seems to represent the largest significant achievement in LOS link application. The performance of a transceiver system in this band is determined largely by the ratio of wanted power to the unwanted power in the receiver. The unwanted power contributions are coming from two factors: (1) internal thermal noise generated by random atomic motions within the elements of the receiver and (2) the contribution in the sky noise temperature T/sub s/ due to EMI (electromagnetic interference) from rain drops. This extra term T/sub s/ has so far been ignored. Therefore, in view of propagation and noise study in the Ka band, both rain attenuation and receiver noise floor variations with rain are estimated over a tropical station, Calcutta, India. This is concluded with a special discussion of receiving systems utilising LNBCs (low noise block down converters) at the front end which are typically at 30 K or less where rain EMI effects are severe.

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Proceedings of the International Conference on Electromagnetic Interference and Compatibility

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