Company Filing History:
Years Active: 2002-2003
Title: Byung Kim: Innovator in Fiber Optic Technology
Introduction
Byung Kim is a notable inventor based in Chicago, IL, recognized for his contributions to fiber optic technology. With a total of three patents to his name, Kim has made significant advancements in the design and functionality of fiber optic connectors.
Latest Patents
Among his latest patents, Kim has developed innovative fiber optic connectors that enhance the efficiency and usability of fiber optic cables. One of his patents describes a fanout connector designed for a fiber optic cable that includes multiple optical fibers. This connector features a housing with a passage for receiving the fiber optic cable transversely along an axis. A fanout member within the housing spreads the individual optical fibers transversely, while a frangible mounting member allows for easy attachment to support structures. Another patent outlines a connector that includes a base housing with a through passage for the cable and fibers. This design incorporates a receptacle that communicates with the passage and is open-sided transversely. A fanout insert is used to spread the fibers, and a cover is slidably mounted on the base housing, ensuring a secure fit.
Career Highlights
Byung Kim has established himself as a key figure in the field of fiber optics through his work at Molex Corporation. His innovative designs have contributed to the advancement of fiber optic technology, making it more accessible and efficient for various applications.
Collaborations
Throughout his career, Kim has collaborated with talented individuals such as Igor Grois and Thomas R Marrapode. These partnerships have fostered a creative environment that encourages innovation and the development of cutting-edge technology.
Conclusion
Byung Kim's work in fiber optic technology exemplifies the spirit of innovation and dedication to improving connectivity solutions. His patents reflect a commitment to advancing the field and enhancing the functionality of fiber optic systems.