Company Filing History:
Years Active: 2012-2015
Title: Megumi Morita: Innovator in Dielectric Ceramics
Introduction
Megumi Morita is a prominent inventor based in Nagaokakyo, Japan. She has made significant contributions to the field of dielectric ceramics, particularly in applications for laminated ceramic capacitors. With a total of 2 patents, her work is recognized for its innovative approach to high-temperature environments.
Latest Patents
Morita's latest patents focus on the development of dielectric ceramics suitable for use in laminated ceramic capacitors. One of her notable inventions is a dielectric ceramic composition that can withstand high temperatures, which is essential for automotive applications. The composition is represented by the formula: (1−x)(BaCa)TiO + xCaTiO + aReO + bMgO + cMnO + dVO + eSiO, where Re includes elements such as Gd, Dy, Y, Ho, and/or Er. This invention allows for the creation of dielectric ceramic layers that maintain stability under extreme conditions. Another patent involves a dielectric ceramic that exhibits stable insulation properties even after calcination in a reducing atmosphere, which is preferred for laminated ceramic capacitors. This composition is primarily based on CaTiO and includes Sn as a significant component.
Career Highlights
Megumi Morita is currently employed at Murata Manufacturing Co., Ltd., a leading company in the electronics industry. Her work at Murata has allowed her to focus on advancing technologies related to ceramic capacitors, contributing to the company's reputation for innovation and quality.
Collaborations
Throughout her career, Morita has collaborated with notable colleagues, including Shoichiro Suzuki and Toshikazu Takeda. These collaborations have further enhanced her research and development efforts in the field of dielectric ceramics.
Conclusion
Megumi Morita's contributions to the field of dielectric ceramics and her innovative patents have positioned her as a key figure in the industry. Her work continues to influence the development of advanced materials for electronic applications.