Company Filing History:
Years Active: 1981
Title: Inventor Ronald R. McKinley: Innovating in Optical Fibers
Introduction
Ronald R. McKinley, an innovative inventor based in Lawrence, Massachusetts, has made significant contributions to the field of optical fibers. With one patent to his name, McKinley has established himself as a key figure in advancing optical technology, which plays a critical role in modern communication systems and lighting applications.
Latest Patents
McKinley's notable patent focuses on an inventive optical fiber design. The patent describes a unique configuration where free parallel ends of optical fibers are spaced apart between a one-way viewing window, which features an inner reflective surface and a rear-facing mirror. This innovative setup allows light of constantly changing colors to be directed at bundled fibers, creating a visually captivating effect. Some filament ends may remain stationary while others can be displaced, giving the appearance of pinpoints of light moving in space. This invention has the potential to enhance various applications, from decorative lighting to advanced communication systems.
Career Highlights
Throughout his career, Ronald McKinley has worked at Dolan-Jenner Industries, Inc., a company renowned for its advancements in the imaging and lighting technology sectors. His contributions to research and development have solidified his reputation as an accomplished inventor.
Collaborations
In his journey of innovation, McKinley has collaborated with esteemed colleagues such as Robert E. Hamel, Jr. and Bernard J. Dolan. These partnerships have fostered a dynamic exchange of ideas, pushing the boundaries of technology in their respective fields.
Conclusion
Ronald R. McKinley exemplifies the spirit of innovation with his dedication to advancing optical fiber technology. His patent not only showcases his inventiveness but also highlights the collaborative nature of technological advancement. As McKinley continues to explore new avenues in his field, the impact of his work remains significant in shaping the future of optical applications.