Company Filing History:
Years Active: 2015-2022
Title: Innovations of Yih-Chyun Hwang
Introduction
Yih-Chyun Hwang is a notable inventor based in Taichung, Taiwan. He has made significant contributions to the field of machine systems, holding a total of seven patents. His work focuses on enhancing the efficiency and functionality of machine components through innovative methods.
Latest Patents
One of Hwang's latest patents is a warm-up method for machine systems. This method includes a machine component and a machine sensor that senses the temperature of the machine component. The process involves activating the machine component to execute a warm-up operation, determining if the component has reached the target temperature, and ceasing the warm-up operation once the desired temperature is achieved.
Another significant patent is a method for determining lubricant consumption by a transmission mechanism. This method involves estimating operational quantities based on speed and predictive models, calculating operational counts, and determining the ratio of lubricant consumption over time. These innovations reflect Hwang's commitment to improving machine performance and reliability.
Career Highlights
Yih-Chyun Hwang is currently employed at Hiwin Technologies Corporation, where he applies his expertise in machine systems. His work has been instrumental in developing advanced technologies that enhance operational efficiency. Hwang's contributions have positioned him as a key figure in the field of machine innovation.
Collaborations
Hwang collaborates with talented coworkers, including Yi-Jun Feng and Yi Haung. Their combined efforts contribute to the innovative projects at Hiwin Technologies Corporation, fostering a collaborative environment that drives technological advancements.
Conclusion
Yih-Chyun Hwang's innovative patents and contributions to machine systems demonstrate his expertise and commitment to advancing technology. His work continues to influence the industry, making significant strides in machine efficiency and performance.