The response of a bistable energy harvester to different excitations: the harvesting efficiency and links with stochastic and vibrational resonances

TL;DR

This paper analyzes how a bistable energy harvester responds to various ambient vibrations, including harmonic noise, and explores the links between its efficiency and phenomena like stochastic and vibrational resonance.

Contribution

It provides a detailed analysis of the response of bistable harvesters to different vibration types and links these responses to stochastic and vibrational resonance effects.

Findings

Bistable harvesters can operate efficiently over a wider frequency band.

Harmonic noise influences the energy harvesting performance.

Resonance phenomena enhance energy extraction under certain conditions.

Abstract

Energy harvesting of ambient vibrations using a combination of a mechanical structure (oscillator) and an electrical transducer has become a valuable technique for powering small wireless sensors. Bistable mechanical oscillators have recently attracted the attention of researchers as they can be used to harvest energy within a wider band of frequencies. In this manuscript, the response of a bistable harvester to different forms of ambient vibration is analysed. In particular, harmonic noise, which has a narrow spectrum, similarly to harmonic signals, yet is stochastic, like broad-spectrum white noise, is considered. Links between bistable harvester responses and stochastic and vibrational resonance are explored.