This paper presents a piezoelectric power harvesting model including both the mechanical and electrical domain. It includes a mechanical system, electrical interface, storage capacitor and load. Bridge rectifier, Parallel Synchronized Switch Harvesting on Inductor (P-SSHI) and Synchronous Electric Charge Extraction (SECE) circuits are analyzed as electrical interface. A mechanical system and control signals are implemented in VHDL-AMS and electronics components in SPICE. Simulation results and experimental data are compared to show the accuracy of the proposed model
Harvesting energy with piezoelectric materials has been a process of many practical applications in ...
Piezoelectric energy harvesters are electromechanical systems, capable to convert ambient dispersed ...
AbstractThis paper presents a fast and reliable model identification technique for piezoelectric tra...
ISBN: 978-1-4244-1567-0International audienceIn this paper, we describe a novel top/down methodology...
International audienceIn this paper, we propose a VHDL-AMS implementation of a physical model of a m...
This paper discusses the multisource input from the piezoelectric (PZT) generators to the power mana...
The paper presents a fast and reliable model identification technique for piezoelectric transducers ...
Last decade has seen growing research interest in vibration energy harvesting using piezoelectric ma...
ABSTRACT: Last decade has seen growing research interest in vibration energy harvesting using piezoe...
This paper presents a complete optimization of a piezoelectric vibration energy harvesting system, i...
International audienceThis paper presents a functional design and modeling of smart conditioning cir...
This paper presents the results of modeling of a mixed non-linear, strongly coupled and multidomain ...
Abstract-In this study, we developed a top/down methodology for behavioral and structural modeling o...
This paper discusses a proof of concept for a piezoelectric energy harvesting system using synchroni...
ABSTRACT: Power harvesting devices are designed to convert the ambient energy surround-ing a system ...
Harvesting energy with piezoelectric materials has been a process of many practical applications in ...
Piezoelectric energy harvesters are electromechanical systems, capable to convert ambient dispersed ...
AbstractThis paper presents a fast and reliable model identification technique for piezoelectric tra...
ISBN: 978-1-4244-1567-0International audienceIn this paper, we describe a novel top/down methodology...
International audienceIn this paper, we propose a VHDL-AMS implementation of a physical model of a m...
This paper discusses the multisource input from the piezoelectric (PZT) generators to the power mana...
The paper presents a fast and reliable model identification technique for piezoelectric transducers ...
Last decade has seen growing research interest in vibration energy harvesting using piezoelectric ma...
ABSTRACT: Last decade has seen growing research interest in vibration energy harvesting using piezoe...
This paper presents a complete optimization of a piezoelectric vibration energy harvesting system, i...
International audienceThis paper presents a functional design and modeling of smart conditioning cir...
This paper presents the results of modeling of a mixed non-linear, strongly coupled and multidomain ...
Abstract-In this study, we developed a top/down methodology for behavioral and structural modeling o...
This paper discusses a proof of concept for a piezoelectric energy harvesting system using synchroni...
ABSTRACT: Power harvesting devices are designed to convert the ambient energy surround-ing a system ...
Harvesting energy with piezoelectric materials has been a process of many practical applications in ...
Piezoelectric energy harvesters are electromechanical systems, capable to convert ambient dispersed ...
AbstractThis paper presents a fast and reliable model identification technique for piezoelectric tra...