Developing an ESP32-Based VAR Comp ensator Board for Practical Modules: Enhancing Power Stability Education through Innovative Implementation

This research presents the design and implementation of an ESP32-based Var Compensator Board for use as a practicum module in power stability education. The board aims to provide a cost-effective, efficient, and user-friendly tool for understanding and analyzing power stability in electrical systems. Utilizing the robust processing capabilities and wireless communication features of the ESP32 microcontroller, the board simulates various power stability scenarios by adjusting reactive power (Var) compensation in real-time. Extensive testing has demonstrated the board^s accuracy and reliability, with interactive features such as real-time data monitoring and wireless control enhancing the practical learning experience. Additionally, the board is designed to be easily modifiable, allowing for customization and further development to suit specific electrical system needs. This innovative module bridges the gap between theoretical knowledge and practical application, preparing students for industry challenges and contributing to the advancement of electrical engineering education. The efficiency of Var compensation has been tested across varying load conditions, demonstrating its effectiveness in maintaining power stability.