OWAIS AHMAD

Electrical Engineer specializing in energy systems, focusing on power movement, production, and protection. Hands-on experience in grid operations and protective system design. Skilled in control systems and reliability-focused problem-solving. Passionate about leveraging IoT and smart grids to innovate efficient, modern energy solutions.

Volunteered as a teacher in a free education program run by Umeed e Subha UET Taxila, mentoring underprivileged students where I developed strong communication, leadership, and problem-solving skills through interactive teaching.

• Research
• Reading

• MATLAB & Simulink
• Multisim
• ETAP & PSS/E
• Helioscope
• AutoCAD Electrical

Semester Projects

• 230V to 110V Step-Down Transformer Design

Designed and developed a step-down transformer to convert 230V AC to 110V AC, focusing on core selection, winding ratios, insulation, and efficiency for safe voltage conversion.

• Electric Braking of DC motor by Rheostat method

Implemented a rheostatic braking system for DC motors using external resistors to dissipate kinetic energy, enabling smooth and efficient deceleration. Focused on motor control, energy dissipation, and circuit design.

• Load Flow and Fault Analysis

Performed load flow and fault analysis using methods like Newton-Raphson and Gauss-Seidel. Simulated power system behavior under normal and fault conditions using MATLAB/PSS-E to enhance reliability and protection design.

• Designing model of electrical power transmission (EPT) lines

Designed a scaled model to simulate transmission line behavior, focusing on voltage regulation, line losses, and system efficiency.

• Design a Cockcroft Walton Voltage Multiplier Circuit

Designed and implemented a Cockcroft-Walton circuit to generate high DC voltage from low AC input using cascading capacitor-diode stages; focused on voltage multiplication, ripple reduction, and circuit efficiency.

• House Wiring Layout Design

Planned and designed electrical wiring layout for a residential building, including circuit distribution, load estimation, safety measures, and compliance with electrical standards.

Final Year Project

Solar Energy-Based Water Purification System

Designed and developed a water purification system powered entirely by solar energy

to provide clean and safe drinking water in off-grid or rural areas. The system utilizes photovoltaic panels to harness solar power, which is used to drive the purification

process integrating methods such as solar distillation, UV purification, and/or filtration depending on the design. Focused on sustainability, affordability, and minimal maintenance. The project involved system design, component selection (solar panels, batteries, filters), circuit integration, and performance analysis under different environmental conditions. Demonstrated effective renewable energy utilization and practical engineering for real-world applications.