Company Filing History:
Years Active: 2013
Title: Yutaka Ota - Innovator in Semiconductor Memory Technology
Introduction
Yutaka Ota is a prominent inventor based in Ota, Japan. He has made significant contributions to the field of semiconductor technology, particularly in the development of memory devices. His innovative work has led to advancements that enhance the performance and efficiency of electronic devices.
Latest Patents
Yutaka Ota holds 1 patent for a semiconductor memory device. This invention features a switching resistance RAM that is highly integrated and reduces read-out time. The design includes an NPN type bipolar transistor composed of a collector layer made of an N-well, a base layer made of a P+ type silicon layer formed on the surface of the N-well, and an emitter layer made of an N+ type silicon layer on the surface of the P+ type silicon layer. Additionally, the device incorporates a word line electrically connected to the N+ type silicon layer and bit lines intersecting with the word line. A plurality of switching layers is formed on the surface of the P+ type silicon layer, each connected to corresponding bit lines, allowing for switching between an ON state and an OFF state. An electric potential fixing line is also included to maintain the P+ type silicon layer at a predetermined electric potential.
Career Highlights
Yutaka Ota is affiliated with the Tokyo University of Agriculture and Technology, where he continues to engage in research and development in semiconductor technologies. His work has been instrumental in pushing the boundaries of what is possible in memory device design.
Collaborations
Yutaka Ota has collaborated with fellow researcher Yoshiyuki Suda, contributing to advancements in their field through shared expertise and innovative ideas.
Conclusion
Yutaka Ota's contributions to semiconductor memory technology exemplify the impact of innovative thinking in the electronics industry. His patent for a highly integrated switching resistance RAM showcases his commitment to enhancing device performance.