Abstract This research presents the development of a versatile programmable three-phase motor system tailored to the specific needs of both industrial and agricultural sectors. The system's core advantages, encompassing precise scheduling, automation, and programmable control, result in substantial operational efficiency and adaptability enhancements, effectively addressing the distinct requirements of these diverse applications. The study follows a comprehensive structure, covering introductory, rationale, objectives, literature review, methodology, results, and discussion sections, culminating in valuable findings with broad implications. The research contributions underscore its potential to optimize motor-driven processes in industrial and agricultural contexts, offering a promising solution to evolving motor control demands. Furthermore, as we peer into the future, it becomes evident that the industrial landscape is transforming by integrating automation, IoT, and AI technologies in Nigeria. This evolution extends to the system, with the time switch component poised for expanded programmable settings, enhanced utility through the UNL2003 MOTOR DRIVER, and advanced security features. The envisioned addition of Bluetooth and Wi-Fi capabilities for remote machinery shutdown and scalability for various industrial motor capacities will redefine industrial operations and safety protocols, positioning Nigeria at the forefront of industrial automation and efficiency. Keywords: programmable logic controllers, three-phase motor, industrial, and agricultural use