Short Circuit Synchronized Electric Charge Extraction (SC-SECE): a tunable interface for wideband vibration energy harvesting

TL;DR

This paper introduces SC-SECE, a tunable interface for piezoelectric vibration energy harvesters that significantly enhances power output and bandwidth through adjustable short-circuit timing.

Contribution

The paper presents a novel, tunable energy harvesting interface, SC-SECE, with theoretical analysis and validation demonstrating improved power and bandwidth in piezoelectric harvesters.

Findings

Enhanced harvested power with tunable parameters

Significant bandwidth extension demonstrated

Validated through numerical simulations

Abstract

In this paper, we present a new harvesting interface, called Short Circuit Synchronous Electric Charge Extraction (SC-SECE). The SC-SECE strategy includes a tunable short-circuit time thanks to two tuning parameters, $\phi_S$ and $\Delta\phi$. $\phi_S$ stands for the phase between the mechanical displacement extrema and the energy harvesting event. $\Delta\phi$ stands for the angular time spent in the short-circuit phase. The theoretical analysis and modelling of this short-circuit influences are derived in this paper. When associated with highly coupled harvesters, it is shown that both the harvested power and bandwidth are greatly improved. These results have been numerically validated and they demonstrate the potential of this strategy for extending the bandwidth of piezoelectric vibration energy harvesters.