Licheng Gu

Title: Innovations by Licheng Gu in Fault-Tolerant Control Methods

Introduction

Licheng Gu is an accomplished inventor based in Zhenjiang, China. He has made significant contributions to the field of electrical engineering, particularly in the development of control methods for permanent magnet motors. His innovative approach addresses critical challenges in motor operation during fault conditions.

Latest Patents

Licheng Gu holds a patent for a "Short-circuit fault-tolerant control method based on deadbeat current tracking for five-phase permanent magnet motor with sinusoidal back-electromotive force or trapezoidal back-electromotive force." This method enhances the performance of five-phase permanent magnet motors by utilizing the third harmonic space during fault conditions. It proposes a fault-tolerant control strategy that improves torque output and operational efficiency in the event of a single-phase short-circuit fault. The method achieves desirable fault-tolerant performance and dynamic response, expanding the speed range of the motor during fault-tolerant operation.

Career Highlights

Licheng Gu is affiliated with Jiangsu University, where he contributes to research and development in electrical engineering. His work focuses on innovative control methods that enhance the reliability and efficiency of motor systems. His expertise in this area has positioned him as a key figure in advancing motor technology.

Collaborations

Licheng Gu has collaborated with notable colleagues, including Qian Chen and Yuhang Xia. Their joint efforts have furthered research in fault-tolerant control methods and have contributed to the academic community's understanding of motor performance under fault conditions.

Conclusion

Licheng Gu's innovative work in fault-tolerant control methods for permanent magnet motors showcases his commitment to advancing electrical engineering. His contributions not only improve motor efficiency but also enhance operational reliability in critical applications.