Atsushi Kamiyama

Title: Atsushi Kamiyama: Innovator in Piezoelectric Technology

Introduction

Atsushi Kamiyama is a notable inventor based in Chiba, Japan. He has made significant contributions to the field of piezoelectric technology, holding a total of 2 patents. His work focuses on enhancing the functionality and efficiency of surface mount-type piezoelectric vibrators.

Latest Patents

Kamiyama's latest patents include a lead frame for surface mount-type piezoelectric vibrators. This innovative lead frame features a pair of side frames, each equipped with multiple positioning holes and spaced apart in the width direction. The design includes at least one section bar that extends between the side frames, with first lead sections arranged at predetermined intervals. Additionally, second lead sections are positioned in a confronting and spaced-apart relation to the first lead sections, creating a defined frame area.

Another significant patent involves a surface mount-type piezoelectric vibrator that comprises a piezoelectric vibrating piece bonded to an airtight terminal. This terminal is sealed within a cylindrical bottomed metal sealing tube. The design ensures that the electrode terminal is aligned with the lead terminal, enhancing the overall performance of the device. The piezoelectric vibrator is also coated with a mold resin for added durability.

Career Highlights

Throughout his career, Kamiyama has worked with prominent companies such as Seiko Instruments Inc. and Seiko Instruments Inc. His experience in these organizations has allowed him to refine his skills and contribute to various innovative projects.

Collaborations

Kamiyama has collaborated with notable colleagues, including Masayuki Sato and Sadao Oku. These partnerships have fostered a creative environment that has led to advancements in piezoelectric technology.

Conclusion

Atsushi Kamiyama's contributions to the field of piezoelectric technology are noteworthy. His innovative patents and collaborations reflect his commitment to advancing this area of research. His work continues to influence the development of electronic devices that rely on piezoelectric vibrators.