Company Filing History:
Years Active: 2004
Title: Sachie Morita: Innovator in Optical Fiber Technology
Introduction
Sachie Morita is a prominent inventor based in Chiba, Japan. She has made significant contributions to the field of optical fiber technology, holding 2 patents that showcase her innovative spirit and technical expertise.
Latest Patents
Her latest patents include a fusion splicing method and device for optical fibers. In this invention, bare fibers of ribbon optical fibers are arranged in opposite directions on a fiber setup stage. The interval of a pair of discharge electrode rods is adjusted according to the number of bare fibers, ensuring that all fibers are set into a uniform temperature area during the fusion splicing process. This method optimizes the splicing process based on the fiber number, enhancing the efficiency and quality of the fusion.
Another notable patent by Morita is a fusion splicing method and device specifically for ribbon optical fibers. In this design, bare fibers are also arranged in opposite directions on a fiber setup stage equipped with V-grooves. A discharge occurs between the electrode rods, and an electric field is applied to fiber clamps made of conductive material. This setup extends the uniform temperature area, allowing for a consistent and effective fusing and splicing process.
Career Highlights
Sachie Morita is currently employed at Fujikura Limited, a company known for its advancements in optical fiber technology. Her work has significantly impacted the industry, leading to improved methods for splicing optical fibers.
Collaborations
Throughout her career, Morita has collaborated with notable colleagues, including Hiroshi Sato and Hiroshi Sugawara. These collaborations have further enriched her work and contributed to the development of innovative solutions in optical fiber technology.
Conclusion
Sachie Morita's contributions to optical fiber technology through her patents and work at Fujikura Limited highlight her role as a leading inventor in this field. Her innovative methods for fusion splicing are paving the way for advancements in optical communication.