Research on the Self-powered Wireless Sensor Micro-system Based on the Hybrid Vibration Energy Harvester

The on-line real-time monitoring and fault warning of industrial machinery and equipment are critical in ensuring the safety and improving the efficiency of industrial production. At present, most of the mechanical equipment condition monitoring devices are bulky, high-power consumption and rely on...

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Veröffentlicht in:	Ji xie gong cheng xue bao 2021, Vol.57 (8), p.57
Hauptverfasser:	Xue, Chenyang, Zhang, Haoling, Cui, Juan, Liu, Dan, Cui, Danfeng, Zheng, Yongqiu
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuit design Coal Energy Energy harvesting Energy management Energy storage Hybrid systems Industrial applications Internet of Things Machinery condition monitoring Piezoelectricity Power consumption Power management Real time Sensors Technical services Transmission circuits Vibration monitoring
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container_issue	8
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container_title	Ji xie gong cheng xue bao
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creator	Xue, Chenyang Zhang, Haoling Cui, Juan Liu, Dan Cui, Danfeng Zheng, Yongqiu
description	The on-line real-time monitoring and fault warning of industrial machinery and equipment are critical in ensuring the safety and improving the efficiency of industrial production. At present, most of the mechanical equipment condition monitoring devices are bulky, high-power consumption and rely on cable or chemical battery power supply. In this paper, a high integrated self-powered wireless sensor micro-system based on the hybrid vibration energy harvester is proposed. The energy harvesting model with hybrid piezoelectric-electromagnetic-triboelectric power generator and energy management circuit is designed to harvest and convert the vibration energy of the mechanical equipment into electric energy for power storage and supply of the whole system. The high-integrated vibration-temperature micro-sensor chip with lower-power signal acquisition and wireless transmission circuits is established. After integration of the energy harvesting model and the micro-sensor with circuits, the experiment of the whole system on the coal cutter is carried out. The results show that the vibration and temperature signals of the coal cutter can be monitored and transmitted wirelessly to the host computer in real time. It also proves that the energy harvesting model in the system can harvest vibration of the coal cutter and convert it into electrical power to drive the system. This research will provide a technical support for the self-powered and wireless development of sensor network nodes in the industrial internet of things.
doi_str_mv	10.3901/JME.2021.08.057
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At present, most of the mechanical equipment condition monitoring devices are bulky, high-power consumption and rely on cable or chemical battery power supply. In this paper, a high integrated self-powered wireless sensor micro-system based on the hybrid vibration energy harvester is proposed. The energy harvesting model with hybrid piezoelectric-electromagnetic-triboelectric power generator and energy management circuit is designed to harvest and convert the vibration energy of the mechanical equipment into electric energy for power storage and supply of the whole system. The high-integrated vibration-temperature micro-sensor chip with lower-power signal acquisition and wireless transmission circuits is established. After integration of the energy harvesting model and the micro-sensor with circuits, the experiment of the whole system on the coal cutter is carried out. 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subjects	Circuit design Coal Energy Energy harvesting Energy management Energy storage Hybrid systems Industrial applications Internet of Things Machinery condition monitoring Piezoelectricity Power consumption Power management Real time Sensors Technical services Transmission circuits Vibration monitoring
title	Research on the Self-powered Wireless Sensor Micro-system Based on the Hybrid Vibration Energy Harvester
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