Company Filing History:
Years Active: 2003-2004
Title: Innovations of Paul Antony Fawkes
Introduction
Paul Antony Fawkes is a notable inventor based in Coventry, GB. He has made significant contributions to the field of vehicle technology, particularly in traction control and braking systems. With a total of two patents to his name, Fawkes has demonstrated his expertise and innovative spirit in automotive engineering.
Latest Patents
Fawkes' latest patents include a traction control system designed for vehicles. This system features a method of operation that utilizes wheel speed sensors, an engine torque demand sensor, and an engine torque output monitor. The brake system controller applies brakes to equalize the rotational speed of the wheels when the engine torque output is less than the desired torque output for a given demand.
Another significant patent by Fawkes pertains to vehicle braking systems with electronic brake distribution. This innovation increases the threshold level of slip of the rear wheels when the front brake temperature is estimated to rise to a level where brake fade may occur. This adjustment allows for more braking torque to be applied to the rear wheels, counteracting potential brake fade at the front. However, this increase in threshold slip is overridden during cornering to maintain vehicle stability.
Career Highlights
Fawkes is currently employed at Land Rover, where he continues to develop and refine automotive technologies. His work has contributed to enhancing vehicle safety and performance, making him a valuable asset to the company.
Collaborations
Fawkes collaborates with Simon Michael Dunning, a fellow innovator in the automotive field. Their partnership has likely fostered a creative environment that encourages the development of cutting-edge technologies.
Conclusion
Paul Antony Fawkes is a distinguished inventor whose work in traction control and vehicle braking systems has made a significant impact on automotive engineering. His patents reflect a commitment to innovation and safety in vehicle design.