Mitsuhiro Fujita

Title: Mitsuhiro Fujita: Innovator in Capacitor Technology

Introduction

Mitsuhiro Fujita is a notable inventor based in Osaka, Japan. He has made significant contributions to the field of capacitor technology, holding a total of 3 patents. His work focuses on enhancing the reliability and performance of capacitors, which are essential components in various electronic devices.

Latest Patents

Fujita's latest patents include innovative designs aimed at improving capacitor efficiency. One of his patents describes a capacitor that excels in reliability, with charge-discharge characteristics that are minimally affected over time. This capacitor features a design that includes a capacitor element with both positive and negative electrodes, and a case that houses the element along with an electrolytic solution. Notably, at least one of the electrodes contains activated carbon, which enhances its performance. Another patent details a capacitor electrode that consists of a substrate with electrical conductivity, a conductive layer made from flake graphite, and an electrode layer that can adsorb and desorb ions. This design aims to optimize the density and particle size of the conductive layer for better functionality.

Career Highlights

Mitsuhiro Fujita is currently associated with Panasonic Intellectual Property Management Co., Ltd. His role at the company allows him to leverage his expertise in capacitor technology to drive innovation and development in electronic components. His contributions have been instrumental in advancing the capabilities of capacitors in modern applications.

Collaborations

Fujita has worked alongside talented colleagues such as Eri Hirose and Hiroyuki Yanagisawa. Their collaborative efforts have fostered an environment of innovation, leading to the development of cutting-edge technologies in the field of capacitors.

Conclusion

Mitsuhiro Fujita's work in capacitor technology exemplifies the importance of innovation in the electronics industry. His patents reflect a commitment to enhancing the reliability and efficiency of capacitors, which play a crucial role in powering modern devices. His contributions continue to influence the field and inspire future advancements.