Company Filing History:
Years Active: 2003
Title: Innovations of Jung Hye Chae
Introduction
Jung Hye Chae is a prominent inventor based in Kwangju, South Korea. She has made significant contributions to the field of optical technology, particularly in the development of advanced systems for measuring chromatic dispersion and phased array antennas. With a total of two patents to her name, her work reflects a commitment to innovation and practical applications in optical engineering.
Latest Patents
One of her latest patents is titled "Phased array antenna using gain switched multimode Fabry-Perot laser diode and high-dispersion fiber." This invention focuses on techniques that enable compact and cost-effective implementations of phased array antennas. It utilizes optical control to allow continuous time delays for each antenna in the array, inducing phase differences essential for effective operation.
Another notable patent is "System and method for measuring chromatic dispersion in optical fiber." This system employs a multimode laser diode to generate optical pulses through gain switching. It includes a highly dispersive optical fiber that separates each mode of the laser diode to create a reference signal. The system is designed to measure the chromatic dispersion characteristics of test optical fibers, utilizing a high-speed photodetector and RF spectrum analyzer to detect variations in the optical pulse train.
Career Highlights
Jung Hye Chae is affiliated with the Kwangju Institute of Science and Technology, where she conducts her research and development activities. Her work has garnered attention for its innovative approach to optical systems, contributing to advancements in telecommunications and fiber optics.
Collaborations
Some of her notable coworkers include Yong Tak Lee and Yong-Tak Lee, who have collaborated with her on various projects within the institute.
Conclusion
Jung Hye Chae's contributions to optical technology through her patents demonstrate her expertise and innovative spirit. Her work continues to influence the field, paving the way for future advancements in optical systems.