Company Filing History:
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1 out of 1 Years Active: 1984-1985
Title: Innovations by Noboru Tomuro: Pioneering Dielectric Ceramics
Introduction
Noboru Tomuro, an accomplished inventor based in Yokoze, Japan, has made significant contributions to the field of dielectric ceramics. With a total of two patents to his name, Tomuro's innovations have advanced the technology surrounding ceramic capacitors, enhancing their performance and applicability in various electronic devices.
Latest Patents
Among his latest patents, the first is a dielectric ceramic composition characterized by a unique formulation. This innovative composition promises to enhance the efficiency and effectiveness of dielectric materials in electrical components. The second patent details a ceramic capacitor that consists of a polycrystalline ceramic dielectric material. This material is strategically placed between conductive electrodes, and it is designed to have a thickness of no more than 30 micrometers, with particle sizes not exceeding one-fifth of the dielectric thickness. These innovations help in improving the overall functionality of electronic devices that utilize ceramic capacitors.
Career Highlights
Throughout his career, Noboru Tomuro has worked with several prominent organizations, including Mitsubishi Mining and Cement Co. Ltd., where he developed crucial technologies in ceramic materials. His work with Mitsubishi Mining allowed him to advance his expertise in electrical components, leading to the innovative patents he holds today.
Collaborations
During his professional journey, Tomuro collaborated with esteemed colleagues such as Masao Kashima and Isao Ishiguchi. These partnerships have played a significant role in driving forward the research and development of his patented technologies, fostering an environment of innovation and creativity.
Conclusion
Noboru Tomuro’s contributions to dielectric ceramics and capacitors mark a notable impact in electrical engineering. His two patents reflect his dedication to innovation and his commitment to improving technological processes within the industry. As advancements in materials science continue to evolve, Tomuro's work remains influential and relevant in the ongoing development of electronic components.