Company Filing History:
Years Active: 2005
Title: David P. Machewirth: Innovator of Optical Fiber Technology
Introduction
David P. Machewirth, based in Ellington, CT, is a notable inventor in the field of optical fiber technology. His innovative work has led to the development of a patent that addresses a significant challenge in fiber optics: multi-path interference.
Latest Patents
David holds a patent for an "Optical fiber module having reduced multi-path interference." This invention involves a fiber optic module that includes one or more optical fibers with an attenuator at the output end. The purpose of the attenuator is to filter out unwanted higher order modes. The optical fibers utilized in this module are typically gain fibers or dispersion compensating fibers. The design of the attenuator features a coil or a series of bends, crafted in a way that effectively reduces higher order modes below a desired level. This innovative solution significantly enhances the performance of fiber optic communications.
Career Highlights
David is currently associated with Corning Incorporated, a leading company in the development of advanced material sciences and optical communications. His work at Corning has allowed him to contribute meaningful advancements to the field of fiber optics, strengthening the company’s position as an innovator in optical technology.
Collaborations
Within Corning, David collaborates with a talented team that includes notable colleagues such as Eric John Mozdy and Rachel S. Mozdy. These collaborations have undoubtedly enriched the innovative environment at Corning, driving forward the creative processes that lead to groundbreaking inventions.
Conclusion
David P. Machewirth exemplifies the spirit of innovation that drives progress in technology. His patent for an optical fiber module that minimizes multi-path interference stands as a testament to his expertise and commitment to enhancing optical communication systems. As he continues to work with Corning Incorporated and collaborate with his colleagues, the potential for future innovations in the field remains promising.