Add to ORKGThe growing demand of portable electronic devices has created the demand of long lasting recharged source of power. Non-environmental friendly conventional batteries with limited lifetimes are no longer a feasible option. This paper proposes a piezoelectric, vibration based energy harvester. The design and simulation of a MEMS piezoelectric cantilever beam with interdigitated electrodes is described. The micro-energy harvester is formed using a silicon substrate, ZnO piezoelectric layer, Pt electrodes and nickel proof mass. Finite element simulation was conducted using CoventorWare #x00A9; to obtain the device at resonance frequency, output voltage and optimum dimensions
Abstract—A piezoelectric MEMS energy harvester (EH) with low resonant frequency and wide operation b...
AbstractA MEMS vibration energy harvester using an Aluminium Nitride (AlN) piezoelectric layer was d...
Design considerations for piezoelectric-based energy harvesters for MEMS-scale sen-sors are presente...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
Energy harvesting devices, capable of converting wasted ambient energy to electrical power are rapid...
Vibration energy harvesting has been progressively developed in the advancement of technology and wi...
This paper presents the design and fabrication of a piezoelectric MEMS cantilever harvester of optim...
This paper presents the design and fabrication of a piezoelectric MEMS cantilever harvester of optim...
This paper presents a micro-electro-mechanical system (MEMS) piezoelectric power generator array for...
AbstractThe ambient vibration-based micro electromechanical systems (MEMS) piezoelectric harvester h...
In today’s world, piezoelectric materials find applications in almost every field of cutting edge te...
The growing demand of wireless sensor networks has created the necessity of miniature, portable, lon...
International audiencePiezoelectric generators designed for harvesting vibratory energy are usually ...
Abstract—A piezoelectric MEMS energy harvester (EH) with low resonant frequency and wide operation b...
AbstractA MEMS vibration energy harvester using an Aluminium Nitride (AlN) piezoelectric layer was d...
Design considerations for piezoelectric-based energy harvesters for MEMS-scale sen-sors are presente...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
The growing demand of portable electronic devices has created the demand of long lasting recharged s...
Energy harvesting devices, capable of converting wasted ambient energy to electrical power are rapid...
Vibration energy harvesting has been progressively developed in the advancement of technology and wi...
This paper presents the design and fabrication of a piezoelectric MEMS cantilever harvester of optim...
This paper presents the design and fabrication of a piezoelectric MEMS cantilever harvester of optim...
This paper presents a micro-electro-mechanical system (MEMS) piezoelectric power generator array for...
AbstractThe ambient vibration-based micro electromechanical systems (MEMS) piezoelectric harvester h...
In today’s world, piezoelectric materials find applications in almost every field of cutting edge te...
The growing demand of wireless sensor networks has created the necessity of miniature, portable, lon...
International audiencePiezoelectric generators designed for harvesting vibratory energy are usually ...
Abstract—A piezoelectric MEMS energy harvester (EH) with low resonant frequency and wide operation b...
AbstractA MEMS vibration energy harvester using an Aluminium Nitride (AlN) piezoelectric layer was d...
Design considerations for piezoelectric-based energy harvesters for MEMS-scale sen-sors are presente...