Hello, This is Promit Biswas
Engineer, Teacher, Researcher
My research interests focus on power electronics and renewable energy, specifically in the design of advanced energy conversion systems and the optimization of renewable energy integration for improved efficiency and sustainability.
Contact Me
Apr 2019 - Jul 2024
Bangladesh University of Engineering and Technology (BUET)
Electrical & Electronic Engineering (EEE)
Studying at BUET was a transformative experience that honed my analytical skills and technical expertise. Its innovative culture and emphasis on practical learning shaped my approach to tackling complex engineering challenges.
Jun 2016 - Apr 2018
St. Joseph Higher Secondary School
Saint Joseph Higher Secondary School provided a nurturing environment that fostered both academic and personal growth. Its focus on discipline, values, and intellectual curiosity laid a strong foundation for my future studies at BUET.
Jan 2011 - Feb 2016
Manikganj Government High School
Manikganj Government High School was a formative period where I sharpened my academic skills and engaged in diverse extracurricular activities. Its focus on holistic development fostered my confidence, resilience, and passion for learning.
My research is driven by a deep exploration of cutting-edge power electronics and the seamless integration of renewable energy into contemporary power grids. Focused on optimizing energy conversion systems, smart grid technologies, and sustainable energy solutions, I am committed to advancing these transformative fields with a drive for innovation and impact.
Design and Development of
Fast Charging System for Electric Vehicles
For my thesis, I developed a fast-charging system for electric vehicles, optimizing charging speed and enabling both fast and float charging modes. I focused on efficient battery management and thermal control to ensure safe, reliable, and high-performance charging.
Project Demonstration
Project Features
Implemented Switch Mode Power Supply (SMPS) flyback topology, minimizing energy loss during AC to DC conversion & ensuring controlled output DC power.
Enhanced high-current charging via Buck Converter’s fine tuning of voltage levels, coupled with MPPT algorithm.
Introduced Cell Balancing System to enhance the SOC and longevity of the Battery Pack.
Utilized thermal protection devices, i.e., temperature sensors, heat sinks, cooling fan, and thermal fuses to control the charging speed, maintaining safe operating conditions.
My diverse skill set enhances my technical proficiency and innovative thinking, enabling me to tackle challenges with creativity. These abilities equip me to drive impactful research and contribute to advancements in engineering.
Programming Languages
Verilog
AssemblySimulation and Design
AutoCad
PSAF
Proteus
PSpiceOther Software
MS Office
macOS
LaTexDuring my undergraduate studies, I worked on projects in IoT, machine learning, power electronics, and advanced simulations with MATLAB and Simulink. These experiences broadened my technical expertise and enhanced my problem-solving versatility across engineering domains.
IoT-Based Solar Panel Monitoring and Solar Tracker System (2023)
• Executed the design of an IoT system for real-time solar panel monitoring.
• Implemented a solar tracking mechanism to enhance energy generation.
• Monitored output voltage, temperature, and weather conditions by combining IoT and solar technology for efficient energy production.
EEE 416 - Microprocessor and Embedded Systems Laboratory
Prediction of Solar Energy by Machine Learning (2023)
• Used ANN and LSTM, Machine Learning models to forecast the solar power generation based on the Weather and Global Horizontal Irradiation data.
• Designed a small-scale Battery Management System consisting of PV integration, distribution system, and loads by Simulink.
EEE 412 - Power System II Laboratory
Simulation and Steady State Analyses of VSC Based HVDC Transmission System (2022)
• Implemented a modeling and simulation approach for a voltage source converter-based HVDC transmission system.
• Performed various types of DC links, e.g., monopolar, bipolar, homopolar links.
• Predicted various aspects and challenges of HVDC transmission systems for achieving high accuracy and precision.
EEE 306 - Power System I Laboratory
Teaching 200K+ Students for 4 Years
As the founder and CEO of Physics of Stupid, I have had the privilege of mentoring over 200,000 students, empowering them to excel in physics and beyond. My role extends beyond teaching-fostering a dynamic learning environment where l inspire students to develop critical thinking, enhance problem-solving abilities, and approach challenges with confidence. Through strong leadership and a passion for motivating others, I guide students to reach their full potential while nurturing a culture of excellence.
During my undergraduate studies and internship, I gained valuable insights into advanced technologies through visits to top engineering companies and power plants. These experiences enhanced my technical expertise and fueled my passion for innovation and problem-solving.