Powering Innovation Through Power Systems, Embedded Systems, and IoT Solutions
Electrical Engineer with professional experience in substation operations, power systems analysis, and embedded systems development. Graduated First Division (CGPA: 8.71/10) in Electrical & Electronics Engineering.
Currently pursuing a Master of Engineering in Electrical Engineering at Western Sydney University, I bring a unique blend of strong academic foundation and hands-on industrial experience. My background includes managing 11kV/33kV distribution systems at BSES Rajdhani Power and developing innovative IoT solutions with microcontrollers.
My passion lies in bridging traditional power engineering with cutting-edge embedded systems and renewable energy technologies. From power system operation and HVDC transmissions to advanced control systems and VLSI design, I thrive on technical challenges that integrate multiple engineering disciplines to create practical, innovative solutions.
11kV/33kV substation O&M, HVDC transmission, power quality analysis
Diagnosing electrical faults, creating engineering drawings, electromechanical systems
Arduino, ESP32, VLSI design, microcontroller programming, PCB fabrication
Two-axis autonomous tracking controller for Space-Based Solar Power reception from LEO satellites. Features PID control, sensor fusion (IMU + encoders), and predictive orbital algorithms (Skyfield).
Off-grid electrolysis system for clean hydrogen production using solar energy. Features custom HHO cell with stacked electrode design, water reservoir with gas separation, and solar panel integration for autonomous operation.
High-voltage electrohydrodynamic propulsion system demonstrating the "Biefeld-Brown effect." Features custom 30kV+ power supply with voltage multiplier cascade and asymmetric capacitor design for ionic thrust generation.
Custom-built high-frequency inverter generating 15V AC square wave output from DC input. Features toroidal inductors for filtering, MOSFET switching, and transformer-based voltage conversion.
High-voltage resonant transformer system demonstrating wireless power transmission. Built both full-size and miniature prototypes featuring hand-wound secondary coils, resonant LC circuits, and MOSFET-driven primary.
Multi-stage analog signal processing system for optical communications. Features differential amplifier for noise rejection, active/passive bandpass filters (5Hz-200Hz), and dual-LDR configuration with LED modulation.
Advanced AI assistant with voice recognition, natural language processing, task automation, and image generation. Integrates multiple AI APIs (Groq, Cohere, Hugging Face) with speech-to-text, text-to-speech, and intelligent decision-making.
View my complete machine portfolio with detailed timeline → View Detailed Experience Page
Advanced studies in power systems, renewable energy integration, and smart grid technologies. Building on strong undergraduate foundation with focus on research and innovation.
Graduated First Division (July 2023) with comprehensive education in power systems, control systems, power electronics, and embedded systems. Specialized coursework in renewable energy, VLSI design, microprocessors, and advanced control systems. Completed major projects in electrical drives, power system operation, and communication systems.
Looking for an electrical engineer with expertise in power systems and embedded development? Let's discuss how I can contribute to your next project.