Loss Reduction by Social Spider Optimization in Contactless Power Transformer

Authors

  • H. Shree kumar, Dr.A.Jagadeeshwaran, Dr.B.karthik

Abstract

Certain electrical attributes of the contactless transformer utilizing the coupled inductor hypothesis with the mutual inductance and the self-inductance are presented in this paper. The core area of the work is loss minimization. Here, the losses include eddy current, winding, and hysteresis loss. Those all includes together to form the core loss and it is minimized through the novel algorithm of social spider optimization algorithm. The transformer winding or turn ratio is near to one which is said to be coupling ratio. In previous, such a transformer can obtain the large leakage inductance, poor coupling coefficient, and small magnetizing inductance. In contactless power transformer, the small modules of the transformer are Series, and parallel. The performance of voltage, current, and power is generated from the transformer and it is added in the result section. The proposed work is simulated in the MATLAB R2016a, and SIMULINIK. Finally the efficiency of the proposed work is differentiated from the recent relevant techniques.

Published

2020-11-01

Issue

Section

Articles