WEEK NINE

During this week, our team focused extensively on finalizing the system architecture and core technical design of the Wireless Inductive Energy Transfer project. The electrical and electromechanical team worked closely on defining the transmitter and receiver layouts, ensuring proper coil alignment, efficient power transfer, and safe mechanical arrangement. Particular attention was given to optimizing the inductive coil design, oscillator circuitry, and MOSFET switching stages to achieve stable and efficient wireless energy transfer.

In addition, we focused on integrating the power transfer system with the monitoring and control architecture. This included planning the interaction between the inductive charging unit, Arduino-based control system, sensors, and IoT monitoring modules. The goal of this phase was to ensure seamless integration between hardware and control logic, enabling efficient energy management, real-time monitoring, and safe operation of the prototype. This work marks an important step toward building a reliable, energy-efficient, and well-coordinated wireless inductive charging system.