Location History:
- Aichi, JP (1985 - 2011)
- Nagoya, JP (1999 - 2013)
Company Filing History:
Years Active: 1985-2013
Title: Masahiko Okuyama: Innovator in Ceramic Capacitor Technology
Introduction
Masahiko Okuyama, based in Nagoya, Japan, is a prominent inventor known for his contributions to the field of ceramic capacitor technology. With a prolific record of 23 patents to his name, Okuyama has significantly influenced modern electronic components through his innovative designs.
Latest Patents
Among Okuyama's latest patents are advancements in ceramic capacitors and wiring boards. One notable invention details a ceramic capacitor that includes a capacitor body with a metal layer on its outer surface. This design incorporates a first and second major surface, along with a lateral surface, enhancing the structural integrity of the capacitor body composed of alternating ceramic dielectric layers and internal electrodes. Another major patent focuses on a capacitor with a tough surface portion aimed at preventing cracking during assembly on a wiring board. This innovation includes a laminated structure of ceramic layers and electrodes, providing improved durability and performance.
Career Highlights
Okuyama has showcased his expertise while working with notable companies like NGK Spark Plug Company, Limited and NGK Spark Co., Ltd. His career reflects a dedicated pursuit of excellence in the design and functionality of electronic components, particularly capacitors.
Collaborations
Throughout his career, Okuyama has had the opportunity to collaborate with esteemed colleagues such as Takenori Sawamura and Masateru Hattori. Their cooperative efforts have contributed to the advancement of technology within the capacitor domain, helping drive innovation forward.
Conclusion
Masahiko Okuyama's work and patents represent significant strides in the field of ceramic capacitors. His innovative approach continues to impact the electronics industry, reflecting his role as a key inventor in advancing capacitor technology. As he continues to develop new solutions, Okuyama's contributions will likely influence the future of electronic component design and functionality.