Ryo Niide

Title: Ryo Niide: Innovator in Semiconductor Technology

Introduction

Ryo Niide is a prominent inventor based in Kanagawa, Japan. He has made significant contributions to the field of semiconductor technology, holding 2 patents that showcase his innovative approach to simplifying manufacturing processes.

Latest Patents

Niide's latest patents focus on semiconductor devices designed to enhance efficiency and reliability. One of his notable inventions is a semiconductor device that includes a protective chip featuring a surface Zener diode. This design protects a light-emitting chip with an LED from surge voltage. The protective chip is strategically mounted over wiring that is electrically coupled through a metal wire to an anode electrode. This electrode is linked to a p-type semiconductor region, which shares the same conductivity type as the semiconductor substrate of the chip. Notably, the anode electrode of the protective chip is electrically connected to the back surface of the chip without a PN junction. This innovative design ensures that even if the back surface contacts the wiring, the electrical characteristics of the Zener diode remain unaffected. Consequently, this eliminates the need for an insulating film on the back surface, thereby simplifying the manufacturing process.

Career Highlights

Ryo Niide is currently employed at Renesas Electronics Corporation, where he continues to develop cutting-edge semiconductor technologies. His work has significantly impacted the efficiency of semiconductor manufacturing, making processes more streamlined and cost-effective.

Collaborations

Throughout his career, Niide has collaborated with esteemed colleagues, including Shinichi Yamada and Yasuharu Ichinose. These partnerships have fostered a creative environment that encourages innovation and the development of advanced technologies.

Conclusion

Ryo Niide's contributions to semiconductor technology exemplify his commitment to innovation and efficiency. His patents reflect a deep understanding of the complexities involved in semiconductor manufacturing, paving the way for future advancements in the field.