Design of an RF-DC conversion circuit for energy harvesting

2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA) Pub Date : 2012-11-01 DOI:10.1109/ICEDSA.2012.6507787

K. Devi, M. D. Norashidah, C. Chakrabarty, S. Sadasivam

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引用次数: 29

Abstract

The design of voltage multiplier module used for energy harvesting system from ambient at downlink radio frequency range (935.2 MHz-959.8 MHz) of GSM-900 is presented. The function of this voltage multiplier circuit is to convert the RF energy signal into DC voltage that can be used to energize the low power electronic devices. The design was based on the Villard voltage multiplier circuit. A 4-stage Schottky diode voltage multiplier circuit was designed, modeled, simulated, fabricated and tested for its performance. Multisim was used for the modeling and simulation work. Simulation and practical tests were carried out for various input power levels at the specified frequency band. The RF input power levels verses the output voltages at the nodes of the Villard network were recorded. The input for the voltage multiplier module was fed through an efficient matching network from an RF energy harvesting antenna which is designed at 377 Ω impedance. For a received signal of -27dBm (1.99) μW at the antenna modules produce a DC output voltage of 2.1 V across 100 kΩ load.

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用于能量收集的RF-DC转换电路的设计

介绍了用于GSM-900下行频段(95.2 MHz-959.8 MHz)环境能量采集系统的电压倍增模块的设计。该电压倍增电路的作用是将射频能量信号转换为直流电压，用于为低功率电子设备供电。该设计是基于维拉德电压倍增电路。设计了一种4级肖特基二极管电压倍增电路，对其进行了建模、仿真、制作和性能测试。采用Multisim软件进行建模和仿真。在规定的频段内，对不同的输入功率进行了仿真和实际测试。记录了维拉德网络节点的射频输入功率电平与输出电压的关系。电压倍增器模块的输入通过一个有效的匹配网络从阻抗为377 Ω的射频能量收集天线馈送。对于-27dBm (1.99) μW的接收信号，天线模块在100 kΩ负载下产生2.1 V的直流输出电压。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA)

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