Atsushi Miyamoto

Title: Innovations of Atsushi Miyamoto

Introduction

Atsushi Miyamoto is a notable inventor based in Nagakute, Japan. He has made significant contributions to the field of discharge detection technology. With a total of four patents to his name, his work focuses on enhancing the reliability and efficiency of electrical systems.

Latest Patents

Miyamoto's latest patents include a "Discharge detector with learning mode for resetting settings to detecting occurrence of discharge." This invention features a filter circuit that passes noise superimposed on current or voltage within a specific frequency range. An amplifier amplifies the noise level, while a processor detects discharge occurrences based on the amplified noise level. The processor can operate in either a discharge detection mode or a learning mode, allowing it to sample noise and adjust settings accordingly.

Another significant patent is the "Discharge detection system," which comprises multiple filter circuits connected to various electrical circuits. These circuits pass noise, which is then amplified by corresponding amplifiers. The processor detects discharge occurrences based on the amplified noise levels and can adjust the amplification factors when necessary. This innovative approach enhances the accuracy of discharge detection in electrical systems.

Career Highlights

Atsushi Miyamoto is currently employed at Nitto Kogyo Corporation, where he continues to develop cutting-edge technologies. His work has been instrumental in advancing the field of electrical engineering, particularly in discharge detection systems.

Collaborations

Miyamoto collaborates with his coworker, Hiroyuki Ito, to further enhance their research and development efforts. Their combined expertise contributes to the innovative solutions being developed at Nitto Kogyo Corporation.

Conclusion

Atsushi Miyamoto's contributions to discharge detection technology exemplify the importance of innovation in electrical engineering. His patents reflect a commitment to improving system reliability and efficiency. Through his work, he continues to make a significant impact in his field.