Company Filing History:
Years Active: 1992
Title: Shigenobu Ohtsu: Innovator in Coaxial Cable Technology
Introduction
Shigenobu Ohtsu, an inventive mind based in Kobe, Japan, is recognized for his contributions to the field of coaxial cable technology. With a single patent to his name, Ohtsu has demonstrated exceptional innovation, particularly in enhancing the performance and structure of coaxial cables used in electronic devices.
Latest Patents
Ohtsu holds a patent titled "Coaxial cable having thin strong noble metal plated inner conductor." This patent describes a coaxial cable equipped with an inner conductor made of a very fine metal wire, which has a diameter of 120 µm or less and a tensile strength of 100 kg/mm² or greater. The design incorporates a plated noble metal layer, providing robust electrical properties alongside a compact size. The special structure allows high-frequency signals to be transmitted effectively through the inner conductor, mitigating disruptions typically caused by inferior materials. The advancements outlined in this patent support the cable's application in high-performance electronic equipment like IC chip testers and high-speed computers.
Career Highlights
Ohtsu is affiliated with Kabushiki Kaisha Kobe Seiko Sho, a company renowned for its dedication to precision engineering and innovation in electrical components. His role within the company highlights his commitment to advancing technology in the telecommunications sector.
Collaborations
Throughout his career, Shigenobu Ohtsu has collaborated with Toshiaki Yutori, an esteemed coworker who shares a passion for innovation in the field of electronics. Their combined efforts contribute to the ongoing advancement of cable technology, pushing the boundaries of what is achievable in high-frequency signal transmission.
Conclusion
Shigenobu Ohtsu's pioneering work in coaxial cable technology showcases his dedication to improving electronic components for the modern age. With his innovative approach and strong collaborative spirit, he continues to influence the field significantly, paving the way for future advancements in electronic communication.