Add to ORKGAC-DC converters employed for harvesting power from piezoelectric transducers can be divided into linear (i.e. diode bridge) and non-linear techniques (i.e. synchronized switch harvesting on inductor, SSHI). Depending on the piezoelectric element, a non-linear technique can improve a significant percentage the power harvested. This paper presents an analytical technique based on the measurement of the impedance circle of the piezoelectric element to determine whether the diode bridge harvests a considerable percentage of the available power
The rise in popularity of harvesting energy from ambient vibrations has made compact, energy dense p...
Abstract—This paper describes an approach to harvesting elec-trical energy from a mechanically excit...
This paper describes optimum values of an electrical circuit for energy harvesting using a beam and ...
AC-DC converters employed for harvesting power from piezoelectric transducers can be divided into li...
In the modern world, many portable devices are battery operated and would be a hassle to replace the...
International audienceMost often, piezoelectric generators are connected to a AC-DC converter, also ...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
In Resonant Piezoelectric Vibration Energy Harvesters (RPVEHs) applications the maximization of the ...
Piezoelectric transducers are used for harvesting electrical power from mechanical vibrations and su...
Piezoelectric cantilever generated a voltage particularly dependent on the magnitude of vibration so...
For a conventional monolithic piezoelectric transducer (PT) using a full-bridge rectifier, there is ...
In this study, we report a power management circuit for a combined piezoelectric- electrodynamic gen...
Power harvesting refers to the practice of acquiring energy from the environment which would be othe...
Vibration energy harvesting with piezoelectric materials is of practical interest because of the dem...
This study discloses the diode’s influences on the piezoelectric energy harvesting performance. The ...
The rise in popularity of harvesting energy from ambient vibrations has made compact, energy dense p...
Abstract—This paper describes an approach to harvesting elec-trical energy from a mechanically excit...
This paper describes optimum values of an electrical circuit for energy harvesting using a beam and ...
AC-DC converters employed for harvesting power from piezoelectric transducers can be divided into li...
In the modern world, many portable devices are battery operated and would be a hassle to replace the...
International audienceMost often, piezoelectric generators are connected to a AC-DC converter, also ...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
In Resonant Piezoelectric Vibration Energy Harvesters (RPVEHs) applications the maximization of the ...
Piezoelectric transducers are used for harvesting electrical power from mechanical vibrations and su...
Piezoelectric cantilever generated a voltage particularly dependent on the magnitude of vibration so...
For a conventional monolithic piezoelectric transducer (PT) using a full-bridge rectifier, there is ...
In this study, we report a power management circuit for a combined piezoelectric- electrodynamic gen...
Power harvesting refers to the practice of acquiring energy from the environment which would be othe...
Vibration energy harvesting with piezoelectric materials is of practical interest because of the dem...
This study discloses the diode’s influences on the piezoelectric energy harvesting performance. The ...
The rise in popularity of harvesting energy from ambient vibrations has made compact, energy dense p...
Abstract—This paper describes an approach to harvesting elec-trical energy from a mechanically excit...
This paper describes optimum values of an electrical circuit for energy harvesting using a beam and ...