Company Filing History:
Years Active: 2006
Title: The Innovations of James William Carpenter in Fiber Optic Technology
Introduction
James William Carpenter is an inventive mind hailing from Indialantic, FL, who has contributed significantly to the field of fiber optics. With a strong foundation in engineering and technology, Carpenter has developed a patented solution that addresses the challenges of fiber optic interconnects.
Latest Patents
Carpenter holds a patent for a "Ruggedized module for securely retaining multi-optical fiber interconnect ferrules." This innovative module features a rugged, snap-together design that effectively retains a pair of mutually abutting fiber optic interconnect MT ferrules. The structure employs a ferrule aligning pin clamp assembly, ensuring that the MT ferrules are maintained in their intended face-to-face alignment. The design incorporates a rectangular base member with a retention cavity and a cover that firmly secures the ferrules, along with a bias compression spring that facilitates easy access when maintenance or adjustments are necessary.
Career Highlights
Currently, James William Carpenter is associated with Harris Corporation, where he has been instrumental in advancing fiber optic technologies. His work has not only improved efficiency in optical connections but has also enhanced the reliability of such systems in various applications.
Collaborations
Throughout his career, Carpenter has collaborated with esteemed colleagues such as Joseph B Brief and Ying-Ming Lee. Their combined expertise has fostered an environment of innovation and creativity, leading to significant advancements in their respective fields.
Conclusion
James William Carpenter's contributions to fiber optic technology through his patents illustrate the importance of innovation in enhancing communication systems. His ruggedized module stands as a testament to his dedication and creativity, providing a solution that is both efficient and reliable. As he continues to work with Harris Corporation, the future holds great promise for further advancements in this essential field.