Osama Habib

• Working with mechanical engineers to decide PCB size and other constraints. Validating design for reliability and robustness.
• Working with R & D Engineers to design Schematics.
• Understanding key hardware requirements from Product requirements.
• Experience working with design constraints for high speed routing.
• Component selection detailed design.
• Understanding of modular designing techniques.

• Understanding of electrical engineering principles, including circuits, power distribution, electrical loads, and system design
• Proficiency in AutoCAD for creating detailed electrical drawings, schematics, and layouts.
• Ability to design electrical systems for buildings, including lighting, power distribution, grounding, and low-voltage systems such as fire alarm and security systems
• Understanding of energy-efficient design principles and familiarity with renewable energy technologies such as solar power and energy storage systems.

• Advance circuit simulation using LTSpice.
• Switching Power Supply design experience.
• Analyzed test results to determine the causes of malfunction.
• Develop MATLAB scripts to display and anlyze system performance data Validating design for reliability and robustness.
• Working with R & D Engineers to design Schematics.
• Understanding key hardware requirements from Product requirements.

• Optimized existing designs, reducing production costs and enhancing overall performance.
• Streamlined the design process for increased efficiency by utilizing advanced CAD software tools.
• Managed multiple projects simultaneously while adhering to strict deadlines and maintaining a high level of attention to detail.
• Addressed design challenges and evaluated alternative design models to meet project requirements.

Design and Development of IoT home: Interacted with controller through actuators and communication modules. Gathered real- time data using different sensors.

Design and Development of Mobile Controlled Robot: Used mobile application to send signals to controller. Used bluetooth sensors to establish communication between controller and mobile phone. Incorporated DC motors, ESCs, servos and some other electronics components into the system.

Design and Development of Smart Irrigation System: Used ESP32 controller for collection of sensor data, processing information, and controlling irrigation actuators. Processed data from weather, soil moisture, light and water level sensors in real-time to make intelligent decisions regarding irrigation scheduling and water distribution.

Design and Development of Mobile controlled Camera Drone: Used flight controller unit equipped with a microcontroller and sensors, such as accelerometers, gyroscopes, and GPS modules. Regulated the power supply to the drone’s motors and ensured stable flight performance using motor controllers, electronic speed controllers, and power distribution circuits.

• Conducted root cause analysis on recurring issues, developing targeted solutions for long-term resolution.
• Led brainstorming sessions during conceptualization phase, fostering creativity in product ideation.
• Produced technical documentation such as user manuals and assembly instructions for clear communication between teams.
• Contributed to patent applications, showcasing novel design features and innovative approaches to problem solving.
• Design and Development of Robotics, IoT and microcontrollers related projects.
• Testing of all electronic components and designing of circuits for these projects.
• Participated in design discussions regarding architecture and feature implementation.
• Collaborated with team to implement new features

Developed a functional IoT home project:

Interfaced the controller with sensors including temperature sensors, humidity sensors, motion sensors, and light sensors, to gather real-time data on environmental conditions within the home. Interacted with control home appliances remotely through actuators and communication modules.

Developed Biometric Attendance System:

Enabled user interaction and data management through electronics components such as the display interface and storage module. Interfaced fingerprint scanner for capturing and processing fingerprint data. Used signal processing techniques to extract unique fingerprint features for authentication.

Developed a smart vehicle tracking system:

Interfaced controller with a GPS module and electronic components such as GSM/GPRS modules for cellular communication, accelerometers for detecting vehicle motion, and storage modules for storing historical tracking data.

Working on automation of an industrial arm:

Using microcontroller unit (MCU) specifically designed for real- time control tasks. Integrating motor drivers, power supplies, actuators and communication modules to provide power and control signals and to facilitate communication with external devices or systems.

Working on smart driving system for cars:

Using controller to control real-time tasks. Integrating electronics components such as motor drivers, power supplies, servo motors, potentiometers and communication modules into

the system to provide power and control signals to the controller.

Design and development of Self Driving Robot:

Used microcontroller to process sensor data and execute control algorithms in real-time. Incorporated motor controllers, ultrasonic sensors, LiDAR sensors, Inertial Measurement Units, power management circuits, and communication modules into the system to drive motors.