An Electronics Engineering enthusiast with a passion for blending technology and mathematical concepts. Possesses a strong foundation in circuit design, signal processing, and embedded systems, with proficiency in Python, MATLAB, and C++. Skills honed through courses like Harvard's CS50 and hands-on hardware prototyping include analytical thinking, research, and teamwork. Dedicated to driving innovation by creating impactful solutions and advancing expertise in the field.
- Exploratory Data Analysis in Python
DC Power Supply
Developed a basic DC power supply to convert AC mains power into a stable DC voltage for powering small electronic devices. The project involved a transformer, bridge rectifier, filter capacitor, and voltage regulator, demonstrating foundational knowledge of power supply circuits and their practical applications in electronics.
Audio Amplifier with MOSFET
Designed an audio amplifier to handle 50 mV peak-to-peak input signals for applications like home theaters and healthcare devices. Using an IRFZ44 MOSFET, we enhanced weak audio signals, demonstrating a strong understanding of amplifier design principles.
EMG (electromyography) system
Designed an EMG (electromyography) system using a PCB and Arduino to measure muscle activity. The project included an EMG sensor, an amplification stage with an instrumentation amplifier, and a connection to the Arduino for data acquisition and processing, showcasing expertise in signal conditioning and embedded systems.
Function Generator
Designed a function generator capable of producing sine, square, and sawtooth waveforms for testing and analysis in electronic circuits. This project demonstrated expertise in signal generation, circuit design, and practical application of waveform synthesis techniques.
Sentiment Analysis
Implemented a sentiment analysis project using C++, focusing on analyzing text data to determine sentiment. The project involved developing algorithms for natural language processing and classification, showcasing proficiency in C++ programming and data analysis techniques.
Line Following Robot
Developed a Line Following Robot that autonomously detects and follows a path using sensors. The project involved designing the control system, integrating sensors, and programming the robot's movement, demonstrating skills in robotics, sensor integration, and algorithm development for autonomous systems.
Printed Circuit Board (PCB) Designing
Designed a PCB for a specific electronic circuit, focusing on optimizing component placement and routing for efficiency and reliability. The project involved creating the schematic, laying out the PCB, and ensuring signal integrity, demonstrating skills in circuit design and PCB fabrication.