Paper Info
Title
Power density driven design methodology of power converters for photovoltaic applications
Abstract
Considering the ongoing paradigm shift of large scale solar plants from central inverters to multistring inverters, new associated logistic requirements have highlighted the need to lower the weight of power converters without compromising efficiency and reliability. To meet this need, Silicon carbide based semiconductors are considered an enabling technology as they allow weight reduction in power converters while improving efficiency thanks to the ability to switch faster with lower losses, alongside with outstanding thermal characteristics. Nonetheless, although it is well known that the use of Silicon carbide improves converters power density, it is not an easy task to assess or estimate the reduction quantitatively. To tackle this problem, a design methodology considering grid connected PV converters, and with special focus on weight, efficiency and rated power is presented. Simulations have been programmed in Matlab and the corresponding results are provided.
Year
DOI
Venue
2017
10.1109/ICIT.2017.7913274
2017 IEEE International Conference on Industrial Technology (ICIT)
Keywords
Field
DocType
power density-driven design methodology,power converters,photovoltaic application,large-scale solar plants,central inverters,multistring inverters,associated logistic requirements,silicon carbide-based semiconductors,thermal characteristics,grid-connected PV converters,Matlab
MATLAB,Silicon carbide,Inductor,Electronic engineering,Power density,Converters,Control engineering,Engineering,Photovoltaic system,Power rating,Grid
Conference
ISBN
Citations 
PageRank 
978-1-5090-5321-6
0
0.34
References 
Authors
0
4
Name
Order
Citations
PageRank
Fuentes, C.1111.96
Renaudineau, H.222.80
Samir Kouro386583.42
Steffen Bernet437583.25