Company Filing History:
Years Active: 2020
Title: **Nobuyuki Koide: Innovator in Multilayer Ceramic Electronic Devices**
Introduction
Nobuyuki Koide is a notable inventor based in Tokyo, Japan, recognized for his contributions to the field of electronic materials. With a focus on multilayer ceramic electronic devices, Koide has made significant strides in enhancing electronic performance through innovative designs.
Latest Patents
Koide holds one patent for a multilayer ceramic electronic device, which is designed to include a laminated body composed of alternating internal electrode layers and dielectric layers. Notably, the dielectric layer in this device boasts a thickness of 0.5 micrometers or less. The internal electrode layers are enriched with ceramic particles, where the content ratio of these particles ranges from 2 to 15% relative to the cross-sectional area. This innovative approach allows for improved efficiency and performance in electronic applications.
Career Highlights
Nobuyuki Koide has developed his career at TDK Corporation, a leading company in the electronics sector. His expertise and innovative mindset have propelled him to the forefront of research and development within the organization, contributing significantly to advancements in electronic component technologies.
Collaborations
Throughout his career, Koide has collaborated with esteemed colleagues such as Toshihiko Kaneko and Yasushi Tanaka. These partnerships have fostered an environment of creativity and innovation, allowing for further advancements in the field of multilayer ceramic electronic devices.
Conclusion
In conclusion, Nobuyuki Koide is a significant figure in the realm of electronics, bringing forward innovative solutions that enhance the functionality of devices. His patent for multilayer ceramic electronic devices underscores his commitment to innovation and his role at TDK Corporation is a testament to his contributions along with his collaborators. As technology continues to evolve, inventors like Koide play a crucial role in shaping the future of electronic materials.