@article{Nagarajan_Kalidass_Renugadevi_Poompavai_Vignesh Kumar_2022, title={Performance Investigation on Buck Boost Converter with Induction Drive Using SVPWM Controller}, volume={11}, url={https://ojs.trp.org.in/index.php/ajes/article/view/3213}, DOI={10.51983/ajes-2022.11.1.3213}, abstractNote={<p>This article presents a SVPWM technique for inverter with two levels to operate the IM drive (induction motor) with Buck Boost converter. SVPWM are increasingly gained importance in high power industrial drive applications. SVPWM technique is preferred in order to decrease the THD value, switching losses and ripples. If any fault occurs in the main supply, the Buck Boost converter which acts as a battery storage device is used as supply to continuously drive the induction without any interruption. The main advantage of Buck Boost converter is it has continuous flow of input current. In the proposed scheme, the two-level SVPWM technique strategy fed IM has been modeled and simulated using MATLAB/SIMULINK software.</p>}, number={1}, journal={Asian Journal of Electrical Sciences}, author={Nagarajan, C. and Kalidass, D. and Renugadevi, S. and Poompavai, M. and Vignesh Kumar, P. C.}, year={2022}, month={Mar.}, pages={21–28} }