Add to ORKGResonant-based vibration harvesters have conventionally relied upon accessing the fundamental mode of resonance to maximise the conversion efficiency of mechanical-to-electrical power transduction. This paper explores the use of parametric resonance, which is not limited by linear damping and can potentially offer higher and broader nonlinear peaks. Despite the promising potential, a damping-dependent initiation threshold amplitude has to be overcome first. Design approaches have been explored to resolve this limitation. A numerical model has been constructed to analysis the improvements over the convention. An out-of-plane (to accommodate large displacements) electrostatic MEMS prototype (~ 0.147 mm3), driven at 4.2 ms-2, has demonstrated ...
AbstractParametric resonance, as a resonant amplification phenomenon, is a superior mechanical ampli...
Despite many recent advances, the wide-spread adoption of vibrational energy harvesting has been lim...
This paper reports for the first time the achievement of autoparametric resonance in a piezoelectric...
Resonant-based vibration harvesters have conventionally relied upon accessing the fundamental mode o...
Resonant-based vibration harvesters have conventionally relied upon accessing the fundamental mode o...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
In the arena of vibration energy harvesting, the key technical challenges continue to be low power d...
A vibration energy harvester designed to access parametric resonance can potentially outperform the ...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
This paper contends to be the first to report the experimental observation of up to 28 orders of par...
Parametric resonance, as a resonant amplification phenomenon, is a superior mechanical amplifier tha...
AbstractParametric resonance, as a resonant amplification phenomenon, is a superior mechanical ampli...
Despite many recent advances, the wide-spread adoption of vibrational energy harvesting has been lim...
This paper reports for the first time the achievement of autoparametric resonance in a piezoelectric...
Resonant-based vibration harvesters have conventionally relied upon accessing the fundamental mode o...
Resonant-based vibration harvesters have conventionally relied upon accessing the fundamental mode o...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
In the arena of vibration energy harvesting, the key technical challenges continue to be low power d...
A vibration energy harvester designed to access parametric resonance can potentially outperform the ...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
The mechanical amplification effect of parametric resonance has the potential to outperform direct r...
This paper contends to be the first to report the experimental observation of up to 28 orders of par...
Parametric resonance, as a resonant amplification phenomenon, is a superior mechanical amplifier tha...
AbstractParametric resonance, as a resonant amplification phenomenon, is a superior mechanical ampli...
Despite many recent advances, the wide-spread adoption of vibrational energy harvesting has been lim...
This paper reports for the first time the achievement of autoparametric resonance in a piezoelectric...