Modeling and Simulation of Dynamic Voltage Restorer with Improved Power Quality Features

  • B. Dhana Laxmi, Dr. V. Chandra Jagan Mohan

Abstract

DVR gives three-stage offset voltage through a three-stage power siphon transformer or three single-stage infusion transformers. The sifted VSI yield voltage is expanded to the ideal level utilizing an infusion transformer. The transformer likewise isolates the DVR circuit from the circulation framework. The limit of the VSI (Voltage Source Inverter) and the worth of the connection channel associated between the infusion transformer and the inverter assume an unequivocal part in the plan of the DVR. In this exploration project, unique voltage recuperation (DVR) geography has been proposed. Low voltage power inverter (VSI) power and coupling channel esteems further develop voltage consonant pay and decrease overvoltage's and under voltages under different issue conditions. New RLC channel can wipe out exchanging sounds. The capacitance of a consistent voltage source diminishes when the worth of inductance is low. The new geography of the DVR has elements to further develop voltage productivity and quality. The overall engineering of RLC channel boundaries for a specific model is introduced. The new advanced video recorder with the proposed DRM control geography is displayed and demonstrated utilizing MATLAB. The control circuit has amazing control elements with negligible transient leaps. The aftereffects of transient reproductions are great.

Published
2022-05-09
How to Cite
B. Dhana Laxmi, Dr. V. Chandra Jagan Mohan. (2022). Modeling and Simulation of Dynamic Voltage Restorer with Improved Power Quality Features. Design Engineering, (1), 3247 - 3259. Retrieved from http://www.thedesignengineering.com/index.php/DE/article/view/9413
Section
Articles