Company Filing History:
Years Active: 1999
Title: Innovations by Atsushi Masuda in Vehicle Battery Control Systems
Introduction
Atsushi Masuda is a notable inventor based in Kiyose, Japan, recognized for his contributions to vehicle battery control systems. With a total of two patents to his name, Masuda has made significant advancements in the efficiency and longevity of batteries used in hybrid vehicles.
Latest Patents
Masuda's latest patents include a "Control System for a Vehicle-Mounted Battery" and a "Control System for On-Vehicle Battery." The first patent describes a control system that optimizes the performance of a vehicle-mounted battery by managing the interaction between the battery and a polyphase alternating current rotating machine. This system enhances the driving experience by allowing the battery to assist the internal combustion engine or charge itself based on its state. The second patent focuses on improving the efficiency of battery charging and discharging while monitoring the battery's condition. It utilizes a program control circuit that adjusts the charging current during regenerative braking and the discharge current while driving, ultimately extending the battery's lifespan and reducing energy loss.
Career Highlights
Atsushi Masuda is currently employed at Hino Jidosha Kogyo Kabushiki Kaisha, a company known for its innovations in the automotive industry. His work has been instrumental in developing advanced battery management systems that contribute to the overall performance of hybrid vehicles.
Collaborations
Masuda has collaborated with notable colleagues such as Tetsuo Koike and Isao Joko, who have also contributed to the field of automotive technology. Their combined expertise has led to significant advancements in vehicle battery systems.
Conclusion
Atsushi Masuda's innovative work in vehicle battery control systems showcases his commitment to enhancing the efficiency and longevity of hybrid vehicle batteries. His patents reflect a deep understanding of battery management, which is crucial for the future of sustainable transportation.