Large power amplification of a piezoelectric energy harvester excited by random vibrations

This paper reports the method and results of amplifying the power output of a piezoelectric energy harvester excited by random vibrations. The amplification is achieved by applying a dual-mass-spring system. A maximum power amplification of 80 times has been experimentally demonstrated. The generate...

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Hauptverfasser:	Wang, Z., Elfrink, R., Vullers, R. J. M., van Acht, V., Tutelaers, M., Matova, S., Oudenhoven, J., van Schaijk, R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Amplification Automotive components Energy harvesting Excitation Glass Mechanical systems Micromechanical devices Piezoelectricity Random vibration Resonant frequency Structural beams Temperature measurement Tires Vibrations White noise
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creator	Wang, Z. Elfrink, R. Vullers, R. J. M. van Acht, V. Tutelaers, M. Matova, S. Oudenhoven, J. van Schaijk, R.
description	This paper reports the method and results of amplifying the power output of a piezoelectric energy harvester excited by random vibrations. The amplification is achieved by applying a dual-mass-spring system. A maximum power amplification of 80 times has been experimentally demonstrated. The generated power output from a piezoelectric energy harvester, when excited by as-measured random vibrations, amounts to 28.9 μW. This is sufficient to operate a battery-free Tire Pressure Monitoring System (TPMS) for wireless sensing of pressure and temperature in car tires. Thus, the piezoelectric energy harvester with power amplification is proved to be a viable solution to replace batteries in the TPMS application.
doi_str_mv	10.1109/MEMSYS.2013.6474188
format	Conference Proceeding
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This is sufficient to operate a battery-free Tire Pressure Monitoring System (TPMS) for wireless sensing of pressure and temperature in car tires. Thus, the piezoelectric energy harvester with power amplification is proved to be a viable solution to replace batteries in the TPMS application.</description><subject>Amplification</subject><subject>Automotive components</subject><subject>Energy harvesting</subject><subject>Excitation</subject><subject>Glass</subject><subject>Mechanical systems</subject><subject>Micromechanical devices</subject><subject>Piezoelectricity</subject><subject>Random vibration</subject><subject>Resonant frequency</subject><subject>Structural beams</subject><subject>Temperature measurement</subject><subject>Tires</subject><subject>Vibrations</subject><subject>White noise</subject><issn>1084-6999</issn><isbn>9781467356541</isbn><isbn>1467356549</isbn><isbn>1467356557</isbn><isbn>9781467356558</isbn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2013</creationdate><recordtype>conference_proceeding</recordtype><sourceid>6IE</sourceid><sourceid>RIE</sourceid><recordid>eNo1kMtOwzAURI0AiVL6Bd14ySbFN3H8WKKqPKRWLAoL2ES2c1OM8sJJC-XriWhZjUaaMxoNIVNgMwCmb1aL1fp1PYsZJDPBJQelTsglcCGTVKSpPCUTLdW_53BGRsAUj4TW-oJMuu6DMTY0iUTAiLwtTdggbZsvDNRUbekL70zvm5o2BTW09fjTYImuD95RrDFs9vTdhB12_UDgt_M95tTuaTB13lR0523447srcl6YssPJUcfk5W7xPH-Ilk_3j_PbZeRjpvpIGsk5Ks3BGobKOSdzsHnMtc2FscUwUygWA8eUcc5ZnCoRg-JWgpHO2mRMrg-9bWg-t8OurPKdw7I0NTbbLgOpBEgAzYbo9BD1iJi1wVcm7LPji8kvwjxkuQ</recordid><startdate>201301</startdate><enddate>201301</enddate><creator>Wang, Z.</creator><creator>Elfrink, R.</creator><creator>Vullers, R. 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J. M.</au><au>van Acht, V.</au><au>Tutelaers, M.</au><au>Matova, S.</au><au>Oudenhoven, J.</au><au>van Schaijk, R.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Large power amplification of a piezoelectric energy harvester excited by random vibrations</atitle><btitle>2013 IEEE 26th International Conference on Micro Electro Mechanical Systems (MEMS)</btitle><stitle>MEMSYS</stitle><date>2013-01</date><risdate>2013</risdate><spage>106</spage><epage>109</epage><pages>106-109</pages><issn>1084-6999</issn><isbn>9781467356541</isbn><isbn>1467356549</isbn><eisbn>1467356557</eisbn><eisbn>9781467356558</eisbn><abstract>This paper reports the method and results of amplifying the power output of a piezoelectric energy harvester excited by random vibrations. The amplification is achieved by applying a dual-mass-spring system. A maximum power amplification of 80 times has been experimentally demonstrated. The generated power output from a piezoelectric energy harvester, when excited by as-measured random vibrations, amounts to 28.9 μW. This is sufficient to operate a battery-free Tire Pressure Monitoring System (TPMS) for wireless sensing of pressure and temperature in car tires. Thus, the piezoelectric energy harvester with power amplification is proved to be a viable solution to replace batteries in the TPMS application.</abstract><pub>IEEE</pub><doi>10.1109/MEMSYS.2013.6474188</doi><tpages>4</tpages></addata></record>
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subjects	Amplification Automotive components Energy harvesting Excitation Glass Mechanical systems Micromechanical devices Piezoelectricity Random vibration Resonant frequency Structural beams Temperature measurement Tires Vibrations White noise
title	Large power amplification of a piezoelectric energy harvester excited by random vibrations
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