5G能量收集应用的整流电路设计

2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST) Pub Date : 2022-06-08 DOI:10.1109/mocast54814.2022.9837524

D. Bougas, P. Sarigiannidis, Maria S. Papadopoulou, Spyridon Nikolaidis, A. Boursianis, S. Goudos

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引用次数: 2

摘要

近年来，使用电子设备的需求显著增加。这反过来又产生了对电力和绿色能源的更大需求。其中包括射频(RF)能量收集。在这个概念中，我们设计了一个用于RF到DC转换的整流电路，适用于低于6 GHz的5G频段。这种电路可用于提供低功率电子设备。该整流器工作在5G蜂窝网络的FR1频段，更具体地说，工作在3.5 GHz频段。射频能量收集器中最重要的问题是系统效率低，这限制了能量收集的普及。我们发现所提出的设计在目前的形式下效率很高。数值结果表明，当电路负载为1.1 KΩ，输入功率为9 dBm时，系统在单音信号下的最大功率转换效率为42.5%。所提出的整流电路与文献中类似设计的电路性能相当。

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Rectifier circuit design for 5G energy harvesting applications

The need for electronic devices usage has risen significantly over the years. This has in turn generated greater demands for electricity and in addition for green energy sources. These include Radio-Frequency (RF) energy harvesting. In this concept we design a rectifier circuit for RF to DC conversion suitable for operation at sub-6 GHz 5G bands. Such a circuit can be used to supply low-power electronic devices. The proposed rectifier works at the frequency band FR1 of 5G cellular network and more specifically at 3.5 GHz. The most important problem in the RF energy harvesters is low system efficiency, something that limits the popularity of the power harvest. The proposed design is found to be highly efficient in its current form. Numerical results show that the system in a single-tone signal provides maximum power conversion efficiency equal to 42.5% when the load of the circuit is 1.1 KΩ and the input power reaches 9 dBm. The presented rectifier circuit performs better or equally with similar designs in the literature.

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2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST)

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