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Title Power Systems Computer Engineering
Target Location US-WI-Madison
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Candidate's Name
Street Address -239-3672 # EMAIL AVAILABLE  https://LINKEDIN LINK AVAILABLE EducationUniversity of Wisconsin  Madison September 2023  December 2024 Master of Science (MS - Professional) - Electrical and Computer Engineering CGPA: 3.298/4.0 Vellore Institute of Technology, Chennai, India July 2019  August 2023 Bachelor of Technology  Electrical and Electronics Engineering CGPA: 8.96/10.0 SkillsFrameworks: NodeJS, Arduino, PSCAD, MATLAB/Simulink, LTSpice, Altium, Eagle, EasyEda. Programming: C, C++, Microsoft Office Suite, Python and Julia. Soft skills: Communication, Team player, Problem solving, Interpersonal skills Work ExperienceNational Institute of Wind Energy (NIWE), Chennai, India Summer 2022 Research Intern Conducted extensive analysis of HVDC, HVAC, and LVAC systems, power electronics systems for offshore wind farms. Designed an efficient and cost-effective offshore wind farm model for Zone B1 off the coast of Tamil Nadu, India, improving project cost efficiency by 15%.Vellore Institute of Technology, Chennai, India August 2022 - July 2023 Undergraduate Research Associate Led research on DRM-based PWM algorithms to reduce total harmonic distortion a reduced switch topology of a five-level inverter for renewable energy systems. Achieved a 58.3% reduction in harmonic distortion through the developed algorithm and demonstrated real-time working hardware of the VSI, designed using Altium.ProjectsDesign of PMSM for wind turbine application Incorporated machine and drive sizing for the control of torque and speed using MATLAB and Simulink. Developed a PMSM model with synchronous frame regulator and implemented field oriented control to observe steady state capability curves and tested the validity of the model in two different wind speed test conditions. DC Drive for half bridge inverter system Designed a Arduino Due based DC drive (PCB designed using ALTIUM) for a half-bridge inverter system to implement speed control on DC motor and also performed thermal analysis. Performance Analysis of Induction Machine with Two-Level and Three-Level VSIs Developed a comprehensive mathematical model for an induction machine paired with a voltage source inverter, delivering in-depth analysis of performance impacts under two-level and three-level PWM control schemes. Incorporated V/Hz control and leveraged 20% increased output voltage and analyzed machine effects under different PWM schemes.DRM based Five-level Inverter with reduced switch topology : Capstone Project Developed and simulated an Arduino based PWM algorithm using DRM technique for a reduced-switch topology of a five-level inverter with a focus on THD reduction. The software and hardware implementation was done using MATLAB-Simulink and Altium PCB respectively.IoT based single level inverter system Developed an IoT-based single-phase inverter designed for rural school electrification in India, a project that was published in the IEEE Power Engineering Computing and Control (PECCON) comprising of a sophisticated remote monitoring dashboard using NodeJS and MQTT for precise real-time monitoring of vital parameters, such as the State of Charge (SoC) with a 40% increase in energy reliability and efficiency. DOI: 10.1109/PECCONPHONE NUMBER AVAILABLE Bidirectional DC-DC converter for battery charging in EVs Engineered a bidirectional DC-DC converter with Zero Voltage Switching (ZVS) technology, enhancing charging efficiency by 25% and reducing power loss by 30%. Achieved seamless battery charging and discharging, contributing to improved performance and extended battery life for electric vehicles.Extra CurricularsMember: Wisconsin Electric Machines and Power Electronics Consortium (WEMPEC)

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