Ritsuo Masaki

Title: Ritsuo Masaki: Innovator in Engine Control Technologies

Introduction

Ritsuo Masaki is a notable inventor based in Susono, Japan. He has made significant contributions to the field of automotive technology, particularly in engine control systems. With a total of 3 patents to his name, Masaki's work focuses on enhancing engine performance and efficiency.

Latest Patents

One of Masaki's latest patents is a fuel injection control device for engines. This innovative device includes a cylinder injector and an air intake passage injector. It changes the fuel injection style from a compression stroke cylinder injection during the cold start of the engine to a combination of various injection methods after a predetermined period. This approach improves combustion stability and reduces hydrocarbon emissions, promoting the warming-up of the catalyst.

Another significant patent is an apparatus for controlling a heater for heating an oxygen sensor in an internal combustion engine. This apparatus features a detection circuit, a decision circuit, and a power supply control circuit. It monitors driving conditions and adjusts the power supplied to the heater, ensuring optimal performance under varying conditions.

Career Highlights

Ritsuo Masaki is currently employed at Toyota Jidosha Kabushiki Kaisha, a leading automotive manufacturer. His work at Toyota has allowed him to develop and implement innovative technologies that enhance vehicle performance and environmental sustainability.

Collaborations

Masaki has collaborated with several talented individuals in his field, including Masaru Goudo and Mitsuhiro Suzuki. These collaborations have contributed to the advancement of automotive technologies and the successful development of his patented inventions.

Conclusion

Ritsuo Masaki's contributions to engine control technologies demonstrate his commitment to innovation in the automotive industry. His patents reflect a deep understanding of engine dynamics and a dedication to improving vehicle efficiency and performance.