Company Filing History:
Years Active: 1998
Title: The Innovations of Shoichi Ote in Vacuum Circuit Breaker Technology
Introduction
Shoichi Ote, an accomplished inventor based in Saitama, Japan, is recognized for his significant contributions to the field of electrical engineering. He has earned a patent for his innovative work in improving the performance of contact materials used in vacuum circuit breakers. His dedication to advancing technology is evident in his unique approach to enhancing the properties of Cu–Cr contact alloys.
Latest Patents
Ote holds a patent for a "Contact material for a vacuum circuit breaker and a method for improving interruption and chopping characteristics." This invention focuses on enhancing the electrical properties of Cu–Cr contact alloys by rounding chromium (Cr) particles to a spherical shape within the alloy. The innovative process involves sintering raw Cr powder particles at varying temperatures to achieve this desired morphology, thereby optimizing the circuit breaker's performance.
Career Highlights
Throughout his career, Shoichi Ote has been associated with Fuji Electric Co., Ltd., a prominent company known for its advancements in electrical equipment and systems. His work has had a substantial impact on the efficiency and reliability of vacuum circuit breakers, which are crucial in various applications across industrial and utility sectors.
Collaborations
In his professional journey, Ote has collaborated with notable colleagues, including Masayuki Furusawa and Hisaji Shinohara. These collaborations reflect a shared commitment to innovation and the development of cutting-edge technologies within the electrical engineering domain.
Conclusion
Shoichi Ote's contributions to the field of circuit breaker technology demonstrate the importance of innovation in enhancing electrical components. His patent not only showcases his inventive spirit but also highlights the potential for improved safety and efficiency in electrical systems. As the industry continues to evolve, Ote's work will undoubtedly influence future advancements in the field.