Company Filing History:
1 out of 832,912 Years Active: 2001
Title: The Innovative Contributions of Shinichi Sasaqawa
Introduction
Shinichi Sasaqawa, hailing from Miyagi-ken, Japan, is an esteemed inventor recognized for his significant contributions to the field of magneto-impedance technology. With a focus on enhancing sensor capabilities, he has developed a patented innovation that has potential applications across various technologies.
Latest Patents
Sasaqawa holds a patent for a "Magneto-impedance element and azimuth sensor, autocanceler, and magnetic head using the same." This inventive magneto-impedance element comprises an alloy made from at least one of iron (Fe), cobalt (Co), and nickel (Ni). Notably, the alloy demonstrates a unique mixed texture of an amorphous phase alongside a fine crystalline phase, with an average crystal grain size of 50 nm or less. The element exhibits a change in impedance in response to an external magnetic field when alternating current is applied, making it suitable for use in an azimuth sensor, an autocanceler, or a magnetic head.
Career Highlights
Throughout his career, Sasaqawa has dedicated himself to advancing technology in the magneto-impedance realm. His innovative spirit has led to the successful development of this advanced element, which has been pivotal in enhancing the precision and efficiency of various devices that rely on magnetic field detection.
Collaborations
Sasaqawa's work is often complemented by collaborations with skilled professionals in the field. Notable colleagues such as Yutaka Naitoh and Teruo Bitoh have contributed to his projects, showcasing a collaborative approach to innovation that enriches the development process and fosters new ideas.
Conclusion
Shinichi Sasaqawa stands as a notable figure in the world of invention, with a patent that encapsulates his dedication to enhancing technology through innovative materials and designs. His work not only showcases individual ingenuity but also highlights the importance of collaboration in driving technological advancements. As industries continue to evolve, Sasaqawa's contributions will likely pave the way for further innovations in magneto-impedance applications.