Company Filing History:
Years Active: 2022-2024
Title: Hailing Wu: Innovator in Motor Controller Electronics
Introduction
Hailing Wu is a notable inventor based in Glastonbury, Connecticut, recognized for his contributions to motor controller electronics. With a total of three patents to his name, Wu has made significant advancements in the field of electrical systems, particularly in cooling technologies for feeder cables.
Latest Patents
Wu's latest patents include innovative designs aimed at improving the efficiency and thermal management of motor controllers. One of his patents, titled "Motor controller electronics arrangements with actively cooled feeder cables," describes an electronics assembly that features a housing enclosing a solid-state switch array and a cold plate. This design incorporates a feeder cable with a coolant jacket, which is in liquid communication with the cold plate to effectively limit heat transfer into the housing. Another patent, "Motor controller electronics arrangements with passively cooled feeder cables," presents an assembly that utilizes a phase change material body to manage heat generated by resistive heating of the feeder cable, thereby enhancing the performance of the motor controller.
Career Highlights
Hailing Wu is currently employed at Hamilton Sundstrand Corporation, where he continues to develop cutting-edge technologies in the field of motor control. His work focuses on creating efficient electrical systems that address the challenges of heat management in electronic assemblies.
Collaborations
Wu collaborates with talented colleagues, including Aritra Sur and Xin Wu, who contribute to the innovative projects at Hamilton Sundstrand Corporation. Their teamwork fosters a creative environment that drives technological advancements.
Conclusion
Hailing Wu's contributions to motor controller electronics exemplify the importance of innovation in electrical systems. His patents reflect a commitment to improving efficiency and performance in the industry. Wu's work continues to influence the future of motor control technologies.