Company Filing History:
Years Active: 2006
Title: Yijian Chen: Innovator in Microactuator Technology
Introduction
Yijian Chen is a prominent inventor based in Berkeley, CA. He has made significant contributions to the field of microactuator technology, particularly in the development of devices that enhance the functionality of phase mirror arrays. His innovative work has led to the granting of a patent that showcases his expertise and creativity.
Latest Patents
Yijian Chen holds a patent for a "Double hidden flexure microactuator for phase mirror array." This invention discloses an actuator designed for a phase mirror array, which includes a first support member extending perpendicularly from a mirror's surface. The actuator features a plurality of flexures that engage the first support member, remaining generally parallel to the mirror's surface. Additionally, the design incorporates second and third support members that engage opposing ends of the flexures, with at least one functioning as a first electrode. A second electrode is positioned in a spaced parallel relationship with the flexures, allowing for voltage application that causes displacement of the supported mirror on the support structure. Notably, the second electrode and one of the flexures can have undulating surfaces that mate in a comb relationship, enhancing the actuator's performance.
Career Highlights
Yijian Chen is affiliated with the University of California, where he continues to advance research in microactuator technology. His work is characterized by a commitment to innovation and excellence, contributing to the academic and technological landscape.
Collaborations
Yijian has collaborated with notable colleagues, including William G Oldham and Yashesh Shroff. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and advancements in their respective fields.
Conclusion
Yijian Chen's contributions to microactuator technology exemplify the spirit of innovation and creativity in engineering. His patent for the double hidden flexure microactuator represents a significant advancement in the field, showcasing his dedication to enhancing technological capabilities.