Topics
scavengerPerson function
microcontrollerInformation appliance
A vibration energy scavenger, manufactured entirely by thick-film construction, has been developed to power autonomous subsystems in an embedded health and useage system. The device is constrained to a 2mm thickness and has been designed for a specific helicopter application. The resulting power output is capable of powering an ‘off-the-shelf’ microcontroller based system
Methods are examined for deriving energy from vibrations naturally present around sensor systems. De...
Due to the fact that the ambient vibration sources are random and unpredictable, the design of energ...
International audienceThis paper reports the design, fabrication and testing of a piezoelectric ener...
This paper presents a piezoelectric vibration energy harvester fabricated using screen printing. The...
In this paper, free-standing structures in the form of cantilevers, fabricated by using a combinatio...
Piezoelectric materials have many desirable characteristics for use in vibration energy harvesting a...
In this paper, free-standing structures in the form of cantilevers, fabricated by using a combinatio...
Research on energy harvesting from ambient vibration sources has been attracting tremendous attentio...
Research into energy harvesting from ambient vibration sources has attracted great interest over the...
AbstractEnergy harvesting, known also as energy scavenging, covers a great body of technologies and ...
This paper reviews work at the University of Southampton and its spin-out company Perpetuum towards ...
Thick-film piezoelectric free-standing structures fabricated with a combination of conventional thic...
International audienceThis paper describes a new way of manufacturing efficient vibration energy har...
This paper reports a self powered smart tag consisting of a vibration energy harvester, the power co...
AbstractA micro power generator harvesting vibration energy by resonant inertial oscillation of a pi...
Methods are examined for deriving energy from vibrations naturally present around sensor systems. De...
Due to the fact that the ambient vibration sources are random and unpredictable, the design of energ...
International audienceThis paper reports the design, fabrication and testing of a piezoelectric ener...
This paper presents a piezoelectric vibration energy harvester fabricated using screen printing. The...
In this paper, free-standing structures in the form of cantilevers, fabricated by using a combinatio...
Piezoelectric materials have many desirable characteristics for use in vibration energy harvesting a...
In this paper, free-standing structures in the form of cantilevers, fabricated by using a combinatio...
Research on energy harvesting from ambient vibration sources has been attracting tremendous attentio...
Research into energy harvesting from ambient vibration sources has attracted great interest over the...
AbstractEnergy harvesting, known also as energy scavenging, covers a great body of technologies and ...
This paper reviews work at the University of Southampton and its spin-out company Perpetuum towards ...
Thick-film piezoelectric free-standing structures fabricated with a combination of conventional thic...
International audienceThis paper describes a new way of manufacturing efficient vibration energy har...
This paper reports a self powered smart tag consisting of a vibration energy harvester, the power co...
AbstractA micro power generator harvesting vibration energy by resonant inertial oscillation of a pi...
Methods are examined for deriving energy from vibrations naturally present around sensor systems. De...
Due to the fact that the ambient vibration sources are random and unpredictable, the design of energ...
International audienceThis paper reports the design, fabrication and testing of a piezoelectric ener...
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