Instrumented electromagnetic generator: Optimized performance by automatic self-adaptation of the generator structure

Electromagnetic generators are widely used to power both small-scale and large-scale devices. They are suitable to operate as self-powering technologies, allowing customizable upscaling and downscaling, ensuring low production and maintenance costs, and even able to integrate into hybrid solutions....

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Veröffentlicht in:	Mechanical systems and signal processing 2022-05, Vol.171, p.108898, Article 108898
Hauptverfasser:	Carneiro, Pedro M.R., Vidal, João V., Rolo, Pedro, Peres, Inês, Ferreira, Jorge A.F., Kholkin, Andrei L., Soares dos Santos, Marco P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accelerometers Adaptive generator Amplitudes Electromagnetic generator Energy generation Energy harvesting Excitation Generators Magnetic levitation Maintenance costs Optimization Power consumption Power management Resonance tuning Self-powering Stepping motors
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container_title	Mechanical systems and signal processing
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creator	Carneiro, Pedro M.R. Vidal, João V. Rolo, Pedro Peres, Inês Ferreira, Jorge A.F. Kholkin, Andrei L. Soares dos Santos, Marco P.
description	Electromagnetic generators are widely used to power both small-scale and large-scale devices. They are suitable to operate as self-powering technologies, allowing customizable upscaling and downscaling, ensuring low production and maintenance costs, and even able to integrate into hybrid solutions. As their architectures are well-suited to power a broad range of multifunctional devices, their performance optimization is a research topic of utmost importance. Their performance, strongly dependent on the frequency and amplitude of mechanical excitations and hysteretic behaviors, still needs to be improved. In this paper, a theoretical and experimental study is provided to demonstrate the effectiveness of a new concept of self-adaptive electromagnetic generator. An instrumented generator using a magnetic levitation architecture was implemented using a stepper motor, an accelerometer and a processing system. Self-adaptability was realized by changing the generator’s effective length and resonance frequency as a function of the mechanical excitation characteristics. Considering the power consumption of instrumentation, output power gains around 30% were achieved under conditions of harmonic inputs with time changing frequencies and amplitudes. These are very promising results that highlight the potential of self-adaptive energy harvesting technologies for opening new research directions towards the emerging of a new line of highly sophisticated autonomous generators.
doi_str_mv	10.1016/j.ymssp.2022.108898
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subjects	Accelerometers Adaptive generator Amplitudes Electromagnetic generator Energy generation Energy harvesting Excitation Generators Magnetic levitation Maintenance costs Optimization Power consumption Power management Resonance tuning Self-powering Stepping motors
title	Instrumented electromagnetic generator: Optimized performance by automatic self-adaptation of the generator structure
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