Company Filing History:
Years Active: 1989
Title: Yuuichi Masaki: Innovator in Photodiode Technology
Introduction
Yuuichi Masaki is an esteemed inventor based in Tokyo, Japan, recognized for his contributions to photodiode technology. With a focus on innovation, he has successfully secured a patent, showcasing his expertise in the field.
Latest Patents
Yuuichi Masaki holds a patent for a "Pin photodiode and method of fabrication of the same." His invention involves a PIN photodiode that consists of a lower electrode deposited on a substrate, a photoelectric transducer constructed in a PIN configuration, and an upper electrode placed on the photoelectric transducer. The method of fabricating this PIN photodiode is also outlined in the patent. This device functions by generating electron-and-hole pairs in response to light exposure, which are effectively biased by the lower and upper electrodes, allowing for rapid current detection between the electrodes. This technology is crucial for applications that demand efficient light detection.
Career Highlights
Yuuichi Masaki has made significant strides in his career at Oki Electric Industry Co., Ltd., where he has been able to leverage his innovative capabilities. His work emphasizes not only the development of cutting-edge technology, but also the practical applications of his inventions in the industry.
Collaborations
Throughout his career, Masaki has collaborated with notable colleagues, including Akira Uchiyama and Toshiyuki Iwabuchi. These partnerships have fostered an environment of shared knowledge and innovation, contributing to the advancement of technologies within the organization.
Conclusion
Yuuichi Masaki's inventiveness and dedication to improving photodiode technology distinguish him as a prominent figure in the field. His patent is a testament to his skills and highlights the importance of innovation in enhancing technological capabilities. As he continues to work with Oki Electric Industry Co., Ltd., the future holds great potential for further advancements in photodiode applications and beyond.