Company Filing History:
Years Active: 2025
Title: **Atsuki Kyuhata: Innovating Motor Control Technologies**
Introduction
Atsuki Kyuhata is a distinguished inventor based in Osaka, Japan, recognized for his significant contributions to motor control technologies. With one patent to his name, Kyuhata has made a notable impact in the field through his innovative designs and methodologies.
Latest Patents
Kyuhata's recent patent, titled "Motor control device, motor control method, and non-transitory computer-readable recording medium," showcases his expertise in engineering. The motor control device includes a control unit and a generation-method changer. The control unit is responsible for generating a driving signal to control the motor based on a command signal and encoder signal, ensuring the precise positioning of a moving part. This invention represents a critical advancement in motor control systems, improving efficiency and reliability in various applications.
Career Highlights
Atsuki Kyuhata is currently affiliated with Panasonic Intellectual Property Management Co., Ltd., where he continues to develop cutting-edge technologies related to motor control. His role at Panasonic allows him to collaborate with top experts in the field and to explore innovative solutions that advance the state of technology.
Collaborations
Kyuhata has worked alongside talented colleagues, including Kenta Murakami and Kento Yoshino. Together, they contribute to a collaborative environment at Panasonic, fostering creativity and innovation. Their combined expertise enhances the quality and scope of their projects, leading to successful advancements in motor control technology.
Conclusion
Atsuki Kyuhata is a noteworthy inventor whose work in motor control devices is paving the way for future innovations in the field. With his patent and contributions at Panasonic Intellectual Property Management Co., Ltd., his influence on technology will likely continue to grow. As he collaborates with talented engineers, the possibilities for new inventions remain endless.