Purpose This project focused on designing and developing a modular charging station to provide a universal solution for powering multiple electronic devices. The aim was to create a compact, customizable, and user-friendly system that reduces the need for numerous chargers while ensuring safe and efficient power delivery. Method Existing charging solutions and technical standards were reviewed to determine engineering requirements. A hexagonal enclosure was designed using computer-aided design software and produced through FDM 3D printing with PLA material. Interchangeable modules were developed for wired and wireless charging, supported by magnetic connectors for easy assembly. A central power supply and control module distributed energy across the system. The prototype was assembled and tested for charging performance, thermal stability, and user convenience. Results The modular charging station successfully charged smartphones, tablets, and wearable devices simultaneously. Magnetic connectors ensured stable connections and simplified module replacement, while the geometric design allowed efficient use of space and easy scalability. Testing confirmed stable performance under load, safe temperature levels, and overall reliability. Conclusion The project demonstrated that a modular, magnetically connected charging system is a practical and cost-effective alternative to multiple standalone chargers. The combination of modularity, environmental safety, and ease of customization highlights the potential for further innovation. Future plans include securing a utility model patent and launching small-scale production to transition the modular charging station from prototype to market-ready product, ensuring accessibility and validating its practicality.