Years Active: 2025
Title: Kenta Kikuchi - Innovator in Connector Production Methods
Introduction
Kenta Kikuchi is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of electronic components through his innovative approaches to connector production methods. His work focuses on enhancing the efficiency and effectiveness of electronic connections.
Latest Patents
Kikuchi holds a patent for a "Connector production method and adhesive film." This patent describes a method of producing a connected body by disposing an adhesive film between a first electronic member with a first electronic electrode and a second electronic member with a second electrode. The process involves pressure-bonding the second electronic member to the first via the adhesive film, ensuring electrical connectivity between the electrodes. The first electronic member features an indented surface, with the first electrode located in a depressed portion. The second electrode has a flat surface larger than the first electrode, and the adhesive film contains first conductive particles that are dendritic and second conductive particles with a non-conductive core and a conductive layer. The second conductive particles have an average particle diameter that meets specific depth requirements of the depressed portion.
Career Highlights
Kenta Kikuchi's career is marked by his dedication to advancing electronic component technology. His innovative methods have the potential to improve the reliability and performance of electronic devices. His patent reflects a deep understanding of materials and their applications in modern electronics.
Collaborations
Kikuchi has collaborated with notable colleagues, including Tetsuyuki Shirakawa and Hiroyuki Izawa. These partnerships have likely contributed to the development and refinement of his innovative ideas.
Conclusion
Kenta Kikuchi is a prominent figure in the field of connector production methods, with a patent that showcases his innovative approach to electronic connectivity. His work continues to influence the development of advanced electronic components.