Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnetic generators. This paper introduces an analytical study for the voltage amplification obtained from these techniques. The analytical study is experimentally validated using a macro model of piezoelectric generator. Moreover, the integration influences on these techniques is studied. Through all the obtained results, a suitable structure for autonomous microsystems is proposed
Energy harvesting from ambient energy aims at realizing electromechanical miniaturized generators to...
This paper aims at providing an up-to-date review of nonlinear electronic interfaces for energy harv...
The advancement of technology of portable electronics and devices has increased the need for self-su...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
ABSTRACT: An analytical electromechanical model is proposed to predict the deflection, voltage, and ...
This paper compares the performances of a vibrationpowered electrical generators using PZT piezoelec...
This paper presents analysis and characterization of a piezoelectric micro-generator for energy harv...
International audienceResearch on energy harvesting and related technologies have attracted attentio...
This paper compares the performances of a vibration-powered electrical generators using PZT piezoele...
Vibration energy harvesting is one the hottest topics addressed by a big part of the scientific comm...
International audienceProvides a guide to nonlinearity in energy harvesting systems, implemented in ...
The market growth of microsystems, having integrated active components, such as pumps, valves or sma...
Methods are examined for deriving energy from vibrations naturally present around sensor systems. De...
A nonlinear micro-piezoelectric–electrostatic energy harvester is designed and studied using mathema...
Energy harvesting from ambient energy aims at realizing electromechanical miniaturized generators to...
This paper aims at providing an up-to-date review of nonlinear electronic interfaces for energy harv...
The advancement of technology of portable electronics and devices has increased the need for self-su...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
ABSTRACT: An analytical electromechanical model is proposed to predict the deflection, voltage, and ...
This paper compares the performances of a vibrationpowered electrical generators using PZT piezoelec...
This paper presents analysis and characterization of a piezoelectric micro-generator for energy harv...
International audienceResearch on energy harvesting and related technologies have attracted attentio...
This paper compares the performances of a vibration-powered electrical generators using PZT piezoele...
Vibration energy harvesting is one the hottest topics addressed by a big part of the scientific comm...
International audienceProvides a guide to nonlinearity in energy harvesting systems, implemented in ...
The market growth of microsystems, having integrated active components, such as pumps, valves or sma...
Methods are examined for deriving energy from vibrations naturally present around sensor systems. De...
A nonlinear micro-piezoelectric–electrostatic energy harvester is designed and studied using mathema...
Energy harvesting from ambient energy aims at realizing electromechanical miniaturized generators to...
This paper aims at providing an up-to-date review of nonlinear electronic interfaces for energy harv...
The advancement of technology of portable electronics and devices has increased the need for self-su...