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001433526 001__ 1433526
001433526 003__ OCoLC
001433526 005__ 20230309003610.0
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001433526 007__ cr\cn\nnnunnun
001433526 008__ 210123s2021\\\\si\\\\\\ob\\\\001\0\eng\d
001433526 019__ $$a1232140866$$a1238203428$$a1239997563
001433526 020__ $$a9789813344488$$q(electronic bk.)
001433526 020__ $$a9813344482$$q(electronic bk.)
001433526 020__ $$z9813344474
001433526 020__ $$z9789813344471
001433526 0247_ $$a10.1007/978-981-33-4448-8$$2doi
001433526 035__ $$aSP(OCoLC)1232279525
001433526 040__ $$aEBLCP$$beng$$erda$$epn$$cEBLCP$$dYDX$$dDCT$$dOCLCF$$dGW5XE$$dOCLCO$$dUKAHL$$dOCL$$dOCLCQ$$dOCLCO$$dCOM$$dOCLCQ
001433526 049__ $$aISEA
001433526 050_4 $$aTK2897
001433526 08204 $$a621.042$$223
001433526 1001_ $$aYlli, Klevis,$$eauthor.
001433526 24510 $$aEnergy harvesting for wearable sensor systems :$$binductive architectures for the swing excitation of the leg /$$cKlevis Ylli, Yiannos Manoli.
001433526 264_1 $$aSingapore :$$bSpringer,$$c[2021]
001433526 300__ $$a1 online resource (167 pages)
001433526 336__ $$atext$$btxt$$2rdacontent
001433526 337__ $$acomputer$$bc$$2rdamedia
001433526 338__ $$aonline resource$$bcr$$2rdacarrier
001433526 4901_ $$aSpringer series in advanced microelectronics ;$$vvolume 62
001433526 504__ $$aIncludes bibliographical references and index.
001433526 5050_ $$aAbstract -- 1. Introduction -- 2. Theory and Modeling -- 3. Geometrical Parameter Optimization -- 4. Experimental Evaluation of Fabricated Architectures -- 5. Second Optimization Run -- 6. Second Generation HAC Experimental Results -- 7. Applications -- 8. Conclusion and Outlook -- A. Appendix -- B. List of Publications -- Bibliography -- Nomenclature.
001433526 506__ $$aAccess limited to authorized users.
001433526 520__ $$aThis book investigates several non-resonant inductive harvester architectures in order to find the magnet coil arrangement that generates the largest power output. The book is useful as a step-by-step guide for readers unfamiliar with this form of energy harvesting, but who want to build their own system models to calculate the magnet motion and, from that, the power generation available for body-worn sensor systems. The detailed description of system model development will greatly facilitate experimental work with the aim of fabricating the design with the highest predicted power output. Based on the simulated optimal geometry, fabricated devices achieve an average power output of up to 43 mW during walking, an amount of power that can supply modern low-power, body-worn systems. Experiments were also carried out in industrial applications with power outputs up to 15 mW. In sum, researchers and engineers will find a step-by-step introduction to inductive harvesting and its modeling aspects for achieving optimal harvester designs in an efficient manner.
001433526 588__ $$aDescription based on print version record.
001433526 650_0 $$aEnergy harvesting.
001433526 650_0 $$aWearable technology.
001433526 650_0 $$aMicroelectronics.
001433526 650_0 $$aOptics.
001433526 650_0 $$aElectrodynamics.
001433526 650_0 $$aBiomedical engineering.
001433526 650_0 $$aPower electronics.
001433526 650_6 $$aRécupération d'énergie.
001433526 650_6 $$aTechnologie prêt-à-porter.
001433526 650_6 $$aMicroélectronique.
001433526 650_6 $$aOptique.
001433526 650_6 $$aÉlectrodynamique.
001433526 650_6 $$aGénie biomédical.
001433526 650_6 $$aÉlectronique de puissance.
001433526 655_0 $$aElectronic books.
001433526 7001_ $$aManoli, Yiannos,$$eauthor.
001433526 77608 $$iPrint version:$$aYlli, Klevis.$$tEnergy Harvesting for Wearable Sensor Systems.$$dSingapore : Springer Singapore Pte. Limited, ©2021$$z9789813344471
001433526 830_0 $$aSpringer series in advanced microelectronics ;$$v62.
001433526 852__ $$bebk
001433526 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-33-4448-8$$zOnline Access$$91397441.1
001433526 909CO $$ooai:library.usi.edu:1433526$$pGLOBAL_SET
001433526 980__ $$aBIB
001433526 980__ $$aEBOOK
001433526 982__ $$aEbook
001433526 983__ $$aOnline
001433526 994__ $$a92$$bISE