Joe Zhang

Detail-oriented Electrical Engineering graduate with practical warehouse administration and technical management experience. Proficient in system troubleshooting, process improvement, and maintaining safety protocols. Adept at leveraging technical knowledge and analytical skills to contribute to innovative electrical design and project management. Eager to apply technical expertise in a challenging Electrical Engineering role.

Real-time implementation of the output feedback control system designed for water-tank process

This individual project focused on developing a real-time control system for a water tank using dynamic feedback linearization. The primary objective was to design and implement a controller capable of maintaining precise water levels in the tank. The system was modeled and verified through MATLAB and Simulink environments, where a mathematical model was employed to simulate the control dynamics. The results demonstrated high accuracy in achieving the desired water levels across all set points, with minimal overshoot or undershoot, indicating the effectiveness and robustness of the control system.

Power Electronics for Renewable and Distributed Generation

This individual project involved the design and development of a power converter, including the specification of all parameters and the design of the magnetic components. The converter was modeled and simulated using PSIM software to evaluate its performance. The simulation results were in perfect alignment with theoretical predictions, demonstrating the accuracy and validity of the design.

The modelling and simulation of Converters for a Three-phased Power System

This project involved the design, modeling, and simulation of converters for a three-phase power system. My specific responsibility was to design and implement the three-phase power system and its corresponding converter using MATLAB and Simulink. I designed the power converter, focusing on its efficiency, robustness, and ability to handle the power fluctuations typical in three-phase systems. This involved selecting suitable components and defining key parameters for optimal performance. With MATLAB and Simulink, I modeled the system to simulate its real-world behavior. Special attention was given to analyzing the output voltage and current to verify system efficiency under different operational scenarios.

The final system demonstrated high efficiency, with the output closely aligning with theoretical expectations. The successful completion of this project earned our team a Distinction, with my contributions to the design and validation phase being a critical factor in the project's success.