Company Filing History:
Years Active: 2009-2019
Title: Innovations of Chun-Huei Bair
Introduction
Chun-Huei Bair is an accomplished inventor based in Silver Spring, MD (US). He has made significant contributions to the field of optical technology and antenna systems. With a total of 3 patents, Bair's work showcases his expertise and innovative spirit.
Latest Patents
One of Bair's latest patents is for a Fiber Optic Circuit Breaker. This invention includes a main optical transmission path with an optical coupler, a delay line, and a protection device. The circuit breaker is designed to prevent overpower conditions by utilizing a reference signal that is generated from a tapped portion of the main signal. The delay line is configured to have a longer delay than the time it takes for the protection device to be triggered, ensuring effective operation.
Another notable patent is for a System and Method for Impedance Matching in Antennas. This system works in conjunction with a transmitter and an antenna, featuring a radio frequency power detection portion, a tunable matching network, and a phase lock loop. The tunable matching network adjusts its impedance to address any mismatch between the transmitter and the antenna, enhancing overall performance.
Career Highlights
Chun-Huei Bair has worked with prestigious organizations such as Johns Hopkins University and Symbol Technologies, LLC. His experience in these institutions has allowed him to develop and refine his innovative ideas, contributing to advancements in technology.
Collaborations
Bair has collaborated with notable colleagues, including Randall Allen Drago and Ming-Hao Sun. These partnerships have fostered a creative environment that has led to the development of groundbreaking technologies.
Conclusion
Chun-Huei Bair's contributions to the fields of optical technology and antenna systems are noteworthy. His innovative patents reflect his dedication to advancing technology and improving system performance. Bair's work continues to inspire future innovations in these critical areas.