基于射频能量收集设计的无线传感器网络能耗实证研究

2014 The 1st International Conference on Information Technology, Computer, and Electrical Engineering Pub Date : 2014-11-01 DOI:10.1109/ICITACEE.2014.7065785

E. Utami, Deddy Susilo, Budihardja Murtianta

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引用次数: 2

摘要

环境射频能量收集成为无线传感器网络中自主传感器等低功耗电子设备供电的潜在可再生能源之一。与其他环境能源相比，射频能量具有最低的密度功率，尽管它可以全天候收集。我们目前的研究目的是利用超低升压变换器建立一个射频能量收集系统原型，为无线传感器网络供电。在本文中，我们的目标是报告我们的实证研究结果，重点是存储元件的能力，整流电路的性能以及低功耗器件在有源模式和睡眠模式下的总能耗计算。结果表明，在所有元件处于有源模式时，该低功耗电子器件的总功耗为381.3 mW，每个节点所需的总能量为70.62 mJ。可利用的超级电容能量为4.5焦耳，保证了WSN客户端模块运行所需的充足能量供应。

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Empirical studies of wireless sensor network energy consumption for designing RF energy harvesting

Ambient RF energy harvesting becomes one of the potential renewable energies for powering low power electronic devices such as autonomous sensors in wireless sensor networks (WSN). Comparing to other ambient energy sources, RF energy has the lowest density power, although it can be harvested all day and night. Our current research aims to build an RF energy harvesting system prototype using ultra low boost converter for powering wireless sensor network In this paper, our objectives were to report the result of our empirical studies focusing on capability of storage element, rectifier circuit performance and calculation of overall energy consumed by low power device both in active mode and sleep mode. The results show overall power consumption of the low power electronics device with all of its components in an active mode is 381.3 mW and overall required energy per node amount to 70.62 mJ. Supercapacitor energy which can be utilized is 4.5 Joule, ensuring adequatly energy supply to operate the WSN client module.

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来源期刊

2014 The 1st International Conference on Information Technology, Computer, and Electrical Engineering

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