@article{MAKHILLRJAS20171219998,
    title = {Investigation on Power Conditioning Electronic Interface Circuit for
Piezoelectric Vibration Based Energy Harvesting System},
    journal = {Research Journal of Applied Sciences},
    volume = {12},
    number = {1},
    pages = {78-89},
    year = {2017},
    issn = {1815-932x},
    doi = {rjasci.2017.78.89},
    url = {https://makhillpublications.co/view-article.php?issn=1815-932x&doi=rjasci.2017.78.89},
    author = {Shafii A.,Shabiul,M.S.,S. and},
    keywords = {Nature,resources,battery,switch,harvester},
    abstract = {The development of wireless sensor network has been driven by recent new advance technologies
in low-power energy integrated micro devices. The scattered nature of the sensor topologies requires its own
power but the main obstacle to the battery power operation is limited resources. As a result, it must be replaced
when it is exhausted. Moreover, it is difficult if the sensor is embedded in a particular object and its environment
are harmful for the battery replacement and also require higher cost. To overcome the problem, natural resources
known as wind energy, vibration, temperature and solar, etc., can be considered as input sources. However,
vibration is the best energy source because it can be found anywhere and according to the use of piezoelectric
materials that have the ability to convert mechanical energy into electrical energy. The proposed research work
on power conditioning circuit will be investigated, modelled and designed using synchronized switch
harvesting on inductortechnique from piezoelectric vibration. In this regards, the power conditioning
circuitenergy harvester can generate more energy and then stores the generated power into large reservoir
capacitance, followed by combination of a charge pump-type circuit and etc. The development of the power
conditioning circuit energy harvester will be modelled and simulated using PSPICE Software. Later on, the
power conditioning circuit harvester will be implemented into printed circuit board layout. Finally, the
comparison will be given by the power conditioning circuit performance between the simulated results in
PSPICE and the validated hardware implementation into printed circuit board layout. The developed power
conditioning circuit harvester can be used to replace the external battery for powering-up the low-power micro
devices.}
    }