Digamber Sahu

Dedicated and detail-oriented Mechanical Engineer with a strong background in electric vehicle technology and a passion for sustainable engineering solutions. Proficient in MATLAB, SolidWorks, and ANSYS with hands-on experience in powertrain development, battery management systems, and circuit design. Eager to contribute to innovative projects and optimize electric propulsion systems to drive advancements in the EV industry. Committed

This updated resume section provides a comprehensive overview of your projects and skills, showcasing your expertise and experience in various aspects of electric vehicle technology and related fields.

Electric Vehicle Certification, Internshala, 08/2023 - 05/2024, Trained in electric vehicle technology, engineering data analytics, electrical & automotive engineering, electronics systems, and embedded technology, engineering business management, battery & powertrain technology, modeling & simulation, dynamic analysis & FEA, and mechanical assembly and modeling.

https://drive.google.com/drive/folders/16uPNRh0y7LwWdpQtDNV9GizH9WL1p8l2

EV Powertrain Modeling: Modeled and analyzed EV powertrain components using MATLAB, SolidWorks, and ANSYS, ensuring robustness and efficiency under operating conditions.

Battery Management System (BMS): Developed a MATLAB model for BMS focusing on SOC estimation using Coulomb counting and Extended Kalman Filtering, validated with real-world data.

Li-Ion Battery Simulation: Modeled Li-Ion battery packs in MATLAB and Simulink, conducting dynamic simulations to analyze SOC, voltage, and current characteristics.

Electric Vehicle Design: Designed and simulated an EV using MATLAB's QSS Toolbox, covering battery, power electronics, motor drive, and control systems.

Regulated Power Supply: Designed a circuit converting 230V AC to +5V DC using Proteus for simulation, highlighting circuit design skills.

EV Battery and Range Calculations: Developed a battery system achieving a 250-mile range on a single charge, optimizing performance and efficiency.

Rectifiers and Converters: Designed and simulated full-wave and half-wave rectifiers, and buck and boost converters using MATLAB, optimizing for various load conditions.

Solar PV Charger: Engineered a solar PV-based charger using MATLAB, integrating battery thermal modeling for efficient energy conversion and storage.

SolidWorks and ANSYS Modeling: Modeled differential mountings, chain sprockets, and bearing adaptors in SolidWorks and performed dynamic analysis in ANSYS.