Company Filing History:
Years Active: 2007
Title: Laima Katarziene: Innovator in Fiber Optic Technology
Introduction
Laima Katarziene is a notable inventor based in Lockport, IL (US). She has made significant contributions to the field of fiber optic technology, particularly through her innovative patent that addresses the complexities of high count fiber optic cables.
Latest Patents
Katarziene holds a patent for "Breakout and connector assemblies for use with high count fiber optic cables." This invention features an adapter assembly that includes a cable ferrule designed to terminate environmental and strength members of a high count fiber optic cable while allowing multiple optical fibers to pass through. The design incorporates a flange on the cable ferrule that mates with a corresponding groove of a breakout body. Additionally, a breakout body cover is provided to enclose an open longitudinal channel of the breakout body. The invention also includes flexible jacketing that can be coupled to the end of the breakout body, encasing a traversing plurality of optical fibers. Furthermore, the modular connector assembly can be configured in both a pulling configuration for installation and a connector configuration for fiber termination, allowing for a more flexible approach to handling high count fiber optic cables.
Career Highlights
Laima Katarziene is currently employed at Molex Corporation, where she continues to develop innovative solutions in fiber optic technology. Her work has been instrumental in advancing the capabilities of fiber optic systems, making them more adaptable and cost-effective.
Collaborations
Katarziene has collaborated with notable colleagues such as B Daniel Szilagyi and Malcolm R Phifer, contributing to a dynamic team focused on innovation in the field.
Conclusion
Laima Katarziene's contributions to fiber optic technology exemplify her commitment to innovation and excellence. Her patent for breakout and connector assemblies showcases her ability to solve complex challenges in the industry. Through her work at Molex Corporation, she continues to pave the way for advancements in fiber optic systems.