Work Experience / Internship
HCL TechnologiesAutomotive Engineer · Electrical and Electronics Engineering Chennai, Tamil Nadu, IndiaFrom : 2017 December 07CAN protocol
BHELIntern · Electrical and Electronics Engineering Hyderabad, Telangana, IndiaFrom : 2014 December 15 Till : 2015 March 15Electrical machines Dept
VIT UniversityVelloreM.Tech . Electrical and Electronics Engineering .From : 2015 August 07 Till : 2017 May 06Power Electronics and Drives
Asymmetric 15-level multilevel inverter with fuzzy controller using super imposed carrier PWMhttp://ieeexplore.ieee.org/document/8244937/Published By: IEEEPublished On: 2018-01-04Multilevel inverters (MLI) are aligned with lower commutation losses and lower harmonics offer high power capacity. Requiring a more number of switches, their fundamental disadvantage is their circuit complexion, utilizing a H-bridge output. This exertion starts another multilevel inverter topology to organize with modular sort structure. To execute a multilevel output, the quantity of power devices for the new topology and voltage sources required to a given critical declination. Ti comprises of two fundamental parts in the proposed multilevel inverter structure. Delegated level and H-bridge module are the parts. Its simplicity of augmentation is the most unprecedented element of the framework. The inverter structure can prolong the quantity of level modules and integrate the cascaded efficiency expanded by expanding the number of voltage levels. The level module of diode and a dc source contains the semi conductor switches. The proposed MLI gives the unequal Dc sources of higher yield voltage and desired outcome. The proposed MLI demonstrating and simulation is done by utilizing MATLAB simulink. Super imposed carries pulse width modulations (SICPWM) are used by PWM techniques. In this closed control is accomplished for the topology utilizing fuzzy control. The rms voltage control is executed in the paper.