Michael J Burkett

Title: Michael J Burkett: Innovator in Hydraulic Systems

Introduction

Michael J Burkett is a notable inventor based in Shelby, NC (US). He has made significant contributions to the field of hydraulic systems, holding a total of 3 patents. His work focuses on innovative solutions that enhance the functionality and efficiency of vehicle engine components.

Latest Patents

One of Burkett's latest patents is for a hydraulic apparatus, system, and method for positioning an engine exhaust flow control valve. This invention involves a hydraulic assembly designed to control the flow to at least one intake supply. The assembly features an actuator, such as a spring return piston cylinder, which positions the control valve. The system includes an inlet passage for supplying hydraulic fluid and a drain for removing it, allowing for adjustable pressure on the actuator to control the valve's movement.

Another significant patent is for an exhaust gas recirculation system using an absolute micromachined pressure sense die. This invention includes multiple pressure sense dies and a hermetically sealed cover. The design allows for precise calibration and temperature compensation, enhancing the performance of the absolute pressure sensor.

Career Highlights

Michael J Burkett is currently employed at Honeywell International Inc., where he continues to develop innovative technologies. His work has contributed to advancements in hydraulic systems and pressure sensing technologies, making a lasting impact in the industry.

Collaborations

Throughout his career, Burkett has collaborated with notable colleagues, including Philip J Marcus and Phillip L Lane. These partnerships have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.

Conclusion

Michael J Burkett is a distinguished inventor whose work in hydraulic systems and pressure sensing has led to multiple patents. His contributions continue to influence the automotive industry and enhance the efficiency of engine components.