Company Filing History:
Years Active: 2011
Title: Edwin Mitchell Sayers, III: Innovator in Automotive Lighting Technology
Introduction
Edwin Mitchell Sayers, III is a notable inventor based in Stuttgart, Germany. He has made significant contributions to the field of automotive lighting technology. With a focus on innovative cooling systems, Sayers has been instrumental in enhancing the performance and longevity of automotive headlamp assemblies.
Latest Patents
Sayers holds 2 patents that showcase his expertise in heat dissipation systems. His latest patents include a system and method for heat dissipation from an automotive lighting assembly featuring a liquid cooling circuit. This innovative headlamp assembly incorporates a closed-loop cooling circuit, which includes a housing that cooperates with a transparent lens cover to define a chamber. Within this chamber, at least one light source is strategically located. The cooling circuit is designed with at least one cold plate that is thermally coupled to the light source. A radiator is fluidly connected to the cold plate through a series of tubes. These tubes are oriented partially upward and are configured to circulate fluid through the cooling circuit, utilizing the heating and cooling of the fluid to maintain optimal temperatures.
Career Highlights
Sayers is currently employed at Visteon Global Technologies, Inc., where he continues to develop cutting-edge automotive technologies. His work focuses on improving the efficiency and effectiveness of automotive lighting systems, ensuring that they meet the demands of modern vehicles.
Collaborations
One of Sayers' notable collaborators is Ajmal Imran Ansari. Together, they have worked on various projects aimed at advancing automotive lighting solutions.
Conclusion
Edwin Mitchell Sayers, III is a prominent figure in the automotive lighting industry, known for his innovative patents and contributions to heat dissipation technology. His work at Visteon Global Technologies, Inc. continues to influence the future of automotive design and functionality.