Modified Single Phase Matrix Converter with Z-Source for Renewable Energy Systems
Titus Sigamani, Ram Prakash Ponraj, Vijay Ravindran
Abstract
This article terms the use of a buck-boost z-source conversion approach for renewable energy applications with a modified matrix converter topology (MMCT). This system removes the intermediate DC link and offers direct conversion. The z-source matrix converter (MC) is used to switch the basic frequency and lower the magnetic additive essentials. Within the system provided, the FPGA controller is used to manipulate the excessive-pace control loops for gate pulse generation rather than for the PWM controller. The power converter's total harmonic distortion (THD) is minimized by the use of appropriate filters and techniques that improve the output power quality. As an alternative to the AC-DC-AC converter method, this article addresses the significance of an AC-AC matrix converter as an interface power converter between the variable load and the wind energy network. The new system is related to a conventional system and observed that the proposed topology for the converter that provides better output power in the conversion system for wind energy. MATLAB/S imulink was used to simulate the proposed device, and the tests were checked and analyzed with hardware setup.