Add to ORKG© 2017, The Author(s). In this paper we examine in detail the multiple responses of a novel vibrational energy harvester composed of a vertical bistable beam whose complex non-linear behavior is tuned via magnetic interaction. The beam was excited horizontally by a harmonic inertial force while mechanical vibrational energy is converted to electrical power through a piezoelectric element. The bistable laminate beam coupled to the piezoelectric transducer showed a variety of complex responses in terms of the beam displacement and harvested power output. The range of vibration patterns in this non-linear system included single-well oscillations and snap-through vibrations of periodic and chaotic character. Harvested power was found to be stro...
A vibration-based electromagnetic bistable energy harvesting system coupled to a directly excited pr...
International audienceThe technological breakthroughs of the last decade have given rise to a series...
We examine the energy harvesting system consisted of two different masses (magnets) attached to piez...
© 2017, The Author(s). In this paper we examine in detail the multiple responses of a novel vibratio...
© 2017, The Author(s). In this paper we examine in detail the multiple responses of a novel vibratio...
The continuing need for reduced power requirements for small electronic components, such as wireless...
We examine regular and chaotic responses of a vibrational energy harvester composed of a vertical be...
A bistable nonlinear electromagnetic energy harvester coupled to an impulsively excited primary line...
We examine multiple responses of a vibrational energy harvester composed of a vertical beam and a ti...
Bistable vibration energy harvesters have been used to achieve strong energy harvesting performance ...
Vibration harvesters typically are linear mass-spring devices working at resonance. A different appr...
Piezoelectric vibration-based energy harvesting systems have been used as an interesting alternative...
Linear cantilevered piezoelectric energy harvesters do not typically operate efficiently through a l...
The field of vibrational energy harvesting aims to transform ambient mechanical energy into electric...
Chaotic behavior presents intrinsic richness due to the existence of an infinity number of unstable ...
A vibration-based electromagnetic bistable energy harvesting system coupled to a directly excited pr...
International audienceThe technological breakthroughs of the last decade have given rise to a series...
We examine the energy harvesting system consisted of two different masses (magnets) attached to piez...
© 2017, The Author(s). In this paper we examine in detail the multiple responses of a novel vibratio...
© 2017, The Author(s). In this paper we examine in detail the multiple responses of a novel vibratio...
The continuing need for reduced power requirements for small electronic components, such as wireless...
We examine regular and chaotic responses of a vibrational energy harvester composed of a vertical be...
A bistable nonlinear electromagnetic energy harvester coupled to an impulsively excited primary line...
We examine multiple responses of a vibrational energy harvester composed of a vertical beam and a ti...
Bistable vibration energy harvesters have been used to achieve strong energy harvesting performance ...
Vibration harvesters typically are linear mass-spring devices working at resonance. A different appr...
Piezoelectric vibration-based energy harvesting systems have been used as an interesting alternative...
Linear cantilevered piezoelectric energy harvesters do not typically operate efficiently through a l...
The field of vibrational energy harvesting aims to transform ambient mechanical energy into electric...
Chaotic behavior presents intrinsic richness due to the existence of an infinity number of unstable ...
A vibration-based electromagnetic bistable energy harvesting system coupled to a directly excited pr...
International audienceThe technological breakthroughs of the last decade have given rise to a series...
We examine the energy harvesting system consisted of two different masses (magnets) attached to piez...