Abstract
The recent advances in ultralow power device integration, communication electronics, and microelectromechanical systems (MEMS) technology have fuelled the emerging technology of wireless sensor networks (WSNs). The spatial distributed nature of WSNs often requires that batteries power the individual sensor nodes. One of the major limitations on performance and lifetime of WSNs is the limited capacity of these finite power sources, which must be manually replaced when they are depleted. Moreover, the embedded nature of some of the sensors and hazardous sensing environment make battery replacement very difficult and costly. The process of harnessing and converting ambient energy sources into usable electrical energy is called energy harvesting. Energy harvesting raises the possibility of self-powered systems which are ubiquitous and truly autonomous, and without human intervention for energy replenishment. Among the ambient energy sources such as solar energy, heat, and wind, mechanical vibrations are an attractive ambient source mainly because they are widely available and are ideal for the use of piezoelectric materials, which have the ability to convert mechanical strain energy into electrical energy. This paper presents a concise review of piezoelectric microgenerators and nanogenerators as a renewable energy resource to power wireless sensors.
Highlights
The advances in low power electronics, and wireless sensor networks (WSNs) in particular, have driven numerous researches in the field of energy harvesting in the past decade [1,2,3]
A wireless sensor node consists of low power microcontroller unit, radio frequency transceiver and microelectromechanical- (MEMS-) based sensor
Batteries are used as the electrical energy power sources to power wireless sensors and embedded electronics
Summary
The advances in low power electronics, and wireless sensor networks (WSNs) in particular, have driven numerous researches in the field of energy harvesting in the past decade [1,2,3]. Batteries are used as the electrical energy power sources to power wireless sensors and embedded electronics. Energy harvesting presents a potentially infinite source of energy for powering wireless sensor devices and embedded electronics in general. Piezoelectric energy harvesting devices— in the form of MEMS generators or nanogenerators—are a novel technology that is a reliable alternative energy source for powering wireless sensor devices. This paper discusses the recent advances in micro- and nanoscale energy generation using piezoelectric materials for ultra low power sensor applications.
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