Embedded Hardware & Firmware Engineer | PCB Design | IoT & Sensor-Based Product Prototyping
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I am an Electrical Engineer specializing in embedded systems, PCB design, circuit design, firmware development, and IoT-based product prototyping. I have hands-on experience with ESP32, STM32, sensors, BLE/Wi-Fi, battery-powered devices, schematic design, PCB layout, component selection, and hardware debugging.
My work focuses on turning ideas into working electronic prototypes, from circuit design and PCB development to firmware integration and testing. I have worked on wearable health monitoring systems, multi-sensor IoT devices, power electronics circuits, USB-C/PD-based designs, and embedded sensor platforms.
I am passionate about building reliable hardware products and solving real-world engineering problems through embedded electronics, firmware, and intelligent sensor systems.
Embedded Systems & Hardware Engineer — RISETech
Worked on embedded hardware, firmware, PCB design, and IoT-based product development. Designed and tested circuits, integrated sensors with microcontrollers, developed firmware for ESP32/STM32-based systems, and supported hardware debugging and prototype validation.
Embedded Systems Internship Supervisor — RISETech
Supervised and guided interns working on STM32, ESP32, IoT, AQI monitoring, LoRa-based devices, and wearable health monitoring projects. Planned technical tasks, reviewed progress, and supported debugging, testing, and final project demonstrations.
Electronics / Embedded Systems Intern — RIMS
Worked on industrial electronics, embedded systems, hardware testing, and system-level troubleshooting. Gained practical experience in circuit analysis, debugging, and technical documentation.
Final Year Project — IoT-Enabled Underground Vehicle Classification System
Designed and developed a multi-sensor embedded system for real-time vehicle classification using ESP32-S3, Raspberry Pi, accelerometer, magnetometer, microphone, environmental sensor, SD card logging, and edge ML processing.
Developed a wrist-based wearable system using MAX30102, MPU6050, EMG input, BLE communication, signal filtering, and heart-rate/HRV algorithm development.
College of Electrical and Mechanical Engineering, NUST, Pakistan
Relevant areas of study and practical work include:
Embedded Systems, PCB Design, Circuit Design, Power Electronics, Digital Logic Design, Microcontrollers, Signal Processing, Communication Systems, Control Systems, RF/Microwave Engineering, and Electronics Design.
Additional practical training and tools:
STM32CubeIDE, ESP-IDF, Arduino IDE, Altium Designer, EasyEDA Pro, KiCad, MATLAB/Simulink, LTspice, Proteus, PSpice, Python, Git, and technical documentation.
