Design Analysis of SVPWM Technique to CSI and VSI
Abstract
During the previous three decades, power electronics has undergone significant technological advancements. It has recently been used in a variety of commercial, industrial, residential, and aeronautical applications. Power electronics appear polarized in 2 directions: low–power high–frequency electronics, which must cater to demand switching–mode power supply and high–power low–frequency electronics, which must cater to switching–mode power supply.
The fundamental purpose of this thesis is to develop SVPWM Model in a systematic manner, apply it to Voltage Source Inverters (VSI) and Current Source Inverters (CSI), and compare and contrast them on many aspects. A three-phase VSI and CSI model is based on space vector theory. For efficiency, the simulation results are discovered using MATLAB/Simulink.
The SVPWM system is proposed for three-phase inverters. This modulation approach is crucial in VSI and CSI modulation. We'll concentrate on carefully creating the SVPWM Model, applying it to VSI and CSI, and comparing them on a variety of factors, including load parameters, switching frequency, and modulation index