Performance Analysis of Three-Phase Inverter using Different Techniques for the grid-connected PV system. In: Performance Analysis of Three-Phase Inverter using Different Techniques for the grid-connected PV system, vol. 1, iss. 1, pp. 18-24, 2022.
Abstract
The model of a three-phase a voltage source inverter is examined based on space vector theory. SVPWM offers a improved outcome with the inverter as compared to the conservative SPWM technique for inverter. There is 15.5% upsurge in the line voltage of the inverter. SVPWM better exploit the available DC link power with SVPWM inverter. It has been revealed that the SVPWM method utilizes DC bus voltage extra competently and produces a smaller amount of harmonic distortion and easier digital realization in a three-phase voltage-source inverter. Results are verified by MATLAB/Simulink
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@article{IJEMT_115, title = {Performance Analysis of Three-Phase Inverter using Different Techniques for the grid-connected PV system}, author = {Gouraw Kumar Rai*, Mohit Tyagi}, url = {https://ijemt.com/wp-content/uploads/2022/04/IJEMT_115-1-1.pdf}, year = {2022}, date = {2022-03-17}, urldate = {2022-03-17}, journal = {Performance Analysis of Three-Phase Inverter using Different Techniques for the grid-connected PV system}, volume = {1}, issue = {1}, pages = {18-24}, abstract = {The model of a three-phase a voltage source inverter is examined based on space vector theory. SVPWM offers a improved outcome with the inverter as compared to the conservative SPWM technique for inverter. There is 15.5% upsurge in the line voltage of the inverter. SVPWM better exploit the available DC link power with SVPWM inverter. It has been revealed that the SVPWM method utilizes DC bus voltage extra competently and produces a smaller amount of harmonic distortion and easier digital realization in a three-phase voltage-source inverter. Results are verified by MATLAB/Simulink}, keywords = {Volume1 Issue1 March 2022}, pubstate = {published}, tppubtype = {article} }