EM- and piezo-scavengers: Two useful solutions in highly humanized scenarios toward a "greener world"

A. Costanzo, L. Roselli
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引用次数: 6

Abstract

This contribution discusses different aspects related to EM- and piezo-scavengers from ambient energy that are very promising as power suppliers of the latest evolution of ultra-low power electronic systems. First challenges in designing circuits and systems for microwave ambient energy harvesting are discussed. A design flow, including the RF/Microwave receivers and the base-band conversion blocks is presented. Power densities as low as few μW/cm2 are targeted as realistic sources to be scavenged by a highly efficient multi-band resonant rectenna. Predicted and measured results in stationary regime are presented and the measured converted energy is also assessed. Second, a conventional piezoelectric scavenger is tested as a power source of a nomadic RFID-reader adopted for novel localization system approach. The latter is intended as an example of multidisciplinary (RFID-NFC, ultra-low power systems, short range wireless power transfer, organic technologies and so on), fully autonomous (energy scavenger on board, battery-less), wirelessly empowered (multitude of passive tags is energized by autonomous reader), evolutionary electronic system toward a “greener world”.
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电磁和压电拾荒器:在高度人性化的情况下实现“绿色世界”的两种有用解决方案
这篇文章讨论了与环境能量的电磁和压电拾取器相关的不同方面,这些拾取器作为超低功率电子系统最新发展的电源供应商非常有前途。首先讨论了微波环境能量收集电路和系统设计的挑战。给出了设计流程,包括射频/微波接收机和基带转换模块。功率密度低至几μW/cm2的目标作为现实源,被高效的多波段谐振整流天线清除。给出了静止状态下的预测和测量结果,并对测量的转换能量进行了评估。其次,测试了一种传统的压电拾取器作为一种用于新型定位系统的游牧式rfid读写器的电源。后者旨在成为多学科(RFID-NFC,超低功耗系统,短距离无线传输,有机技术等),完全自主(机载能量清除器,无电池),无线授权(大量无源标签由自主读取器供电),朝着“绿色世界”发展的电子系统的一个例子。
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