통합 검색
통합 검색
Advancing Next-Generation Power Conversion Innovations
Our laboratory explores next-generation power conversion technologies for modern energy systems, which are becoming increasingly complex and performance-driven. We employ data-driven optimization techniques such as model-free current control and symbolic regression-based MPPT control to implement adaptive and intelligent control across various applications. For advanced speed regulation of spindle motors and interior permanent magnet synchronous motors (IPMSMs), we apply precise encoder signal processing and nonlinear control strategies to enhance system responsiveness and stability. Through these innovations, we aim to redefine the scalability, flexibility, and autonomy of power electronic systems.
Exploring High-Efficiency and High-Performance Power Conversion
Our laboratory focuses on optimizing power conversion systems with the goal of improving energy efficiency and maximizing performance. We have developed various technologies that reduce power loss and enhance control precision to realize high-efficiency, high-reliability, and high-responsiveness systems. These technologies can be applied in a wide range of fields, including industrial automation, distribution management systems, CNC machine tools, and actuators. We are committed to developing practical and advanced power conversion solutions that deliver excellent performance even in real-world operating environments.
Nurturing the Next Generation of Power Electronics Engineers
Our laboratory is dedicated to nurturing creative and competent individuals who will lead the future of the power electronics field. Students gain hands-on experience by participating in real research projects involving design, simulation, and experimentation, allowing them to develop strong problem-solving skills. Through opportunities to present research outcomes and engage in collaborative projects both domestically and internationally, they grow into professionals equipped with both theoretical knowledge and practical expertise. Through a balanced emphasis on education and research, we aim to cultivate the next generation of engineers who possess not only technical ability but also the mindset and insight essential for leadership.
