Bidirectional Soft Switched LCLC based Solid State Transformer for Smart Grid Infrastructure

Abstract

Since the last decade day by day, there is a revolution in an existing power grid network due to an increase in demand for the convenient electric power supply required for the smart component in the power grid network. So this is a time for the power grid to become smart in accordance with all components which are actively participated in his network which is nothing but Smart Grid network. A different component in a Smart grid network required variable AC/DC power supply at the different amplitudes and different frequencies. Power electronics converters are required to meet all these requirements. Solid State Transformer (SST) is one of the key components in a smart grid network. This paper presents the Bidirectional Soft Switched Solid-State Transformer for a Smart Grid Network. A proposed circuit presents in this paper used a LCLC type resonant network to achieved soft switching action. An analysis of the resonant network and it's effect on the performance indices are presents in this paper. A front end bidirectional boost rectifier is used in a proposed circuit to achieved bidirectional power flow feature and desired voltage gain at the output. A proposed circuit is designed for power level 10KW and is simulated in a PSIM/Simulink co-environment. The results were obtained at an input voltage of Three-phase 440V, 50 Hz, and provide the output of 800V, 12.5A and is verified for desired features in the proposed converter.