Modeling of Power Electronic Controller Using Incremental Conductance Algorithm for Solar - Cell Based Distributed Generation

Abstract

M.R. Thansekhar and N. Balaji (Eds.): ICIET’14 ABSTRACT— Nowadays power demand is high for utilizing more amount of power for various types of loads in the distribution system. This paper deals with implementation of solar power for standalone distributed generation system for commercial loads. The optimal placement of solar array is essential for standalone distributed generation (DG) system. The proposed system focuses on the design of the solar array with boost converter for achieving high power for standalone system. It uses suitable power electronic devices for improving the power quality, voltage regulation and reducing the ripple voltage and current. The electricity can be generated from solar energy and that can be supplied to the commercial loads. The power quality problems will be reduced with the help of Suitable control algorithm (Incremental conductance algorithm). The presented scheme portrays modeling of solar cell and experimental results have been demonstrated achieving high performance and reliability. The proposed system topology and its control strategy are designed and analyzed by using MATLAB/Simulink tool.

6 Figures and Tables

Cite this paper

@inproceedings{Rajalingam2015ModelingOP, title={Modeling of Power Electronic Controller Using Incremental Conductance Algorithm for Solar - Cell Based Distributed Generation}, author={S. Rajalingam and V . Karelmarx}, year={2015} }