Company Filing History:
Years Active: 1994
Title: Shuji Shukuri: Innovator in Semiconductor Memory Technology
Introduction
Shuji Shukuri is a prominent inventor based in Koganei, Japan. He is known for his significant contributions to semiconductor memory technology. His innovative work has led to the development of advanced memory cell structures that enhance the performance of electronic devices.
Latest Patents
Shukuri holds a patent for a semiconductor memory that features a self-amplifying cell structure. This invention utilizes a writing transistor and a reading transistor with a floating gate as a charge storage node for each memory cell. The writing transistor and reading transistor are of opposite conductivity types, with the writing transistor being a P-channel MOS transistor and the reading transistor an N-channel MOS transistor. The design allows for efficient operation, as the floating gate of the reading transistor is connected to a single bit line through the source-drain path of the writing transistor. This innovative approach improves the functionality and reliability of semiconductor memory.
Career Highlights
Shuji Shukuri has made significant strides in the field of semiconductor technology during his career. He is currently associated with Hitachi, Ltd., where he continues to work on cutting-edge innovations in memory technology. His expertise and dedication have positioned him as a key figure in the advancement of semiconductor applications.
Collaborations
Shukuri has collaborated with notable colleagues, including Toru Koga and Shinichiro Kimura. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas in the field of semiconductor research.
Conclusion
Shuji Shukuri's contributions to semiconductor memory technology have made a lasting impact on the industry. His innovative patent and collaborative efforts highlight his commitment to advancing electronic memory solutions. His work continues to influence the development of more efficient and reliable memory systems.