Company Filing History:
Years Active: 2016
Title: Masataka Yamanashi: Innovator in Thermoelectric Technology
Introduction
Masataka Yamanashi is a notable inventor based in Hiratsuka, Japan. He has made significant contributions to the field of thermoelectric technology, particularly in the development of Peltier modules for laser diodes. His innovative work has led to the filing of a patent that showcases his expertise and creativity in this area.
Latest Patents
Masataka Yamanashi holds a patent for a Peltier module designed for laser diodes. This module can be mounted using high melting point solder, which enhances its durability and performance. The patent details a sophisticated design that includes a heat dissipation-side substrate, a heat dissipation-side electrode, and both p-type and n-type thermoelectric conversion elements. The solder joint layer, which is crucial for the module's functionality, is composed of a Ni intermetallic compound containing Au and Sn, along with a eutectic composition that optimizes thermal management. This innovative design allows for improved efficiency and reliability in laser diode applications.
Career Highlights
Masataka Yamanashi has been associated with Kelk Ltd., where he has contributed to various projects that leverage his expertise in thermoelectric devices. His work has not only advanced the technology but has also positioned Kelk Ltd. as a leader in this specialized field. With a patent count of 1 patent, Yamanashi's contributions are recognized within the industry.
Collaborations
Throughout his career, Masataka has collaborated with talented individuals such as Kousuke Terauchi and Hideyuki Ishikawa. These collaborations have fostered an environment of innovation and have led to the successful development of advanced technologies in thermoelectric applications.
Conclusion
Masataka Yamanashi's work in the field of thermoelectric technology, particularly with his patented Peltier module for laser diodes, exemplifies his innovative spirit and technical expertise. His contributions continue to influence the industry and pave the way for future advancements in thermoelectric devices.