Company Filing History:
Years Active: 2019-2021
Title: The Innovative Contributions of Stephen Bayne
Introduction
Stephen Bayne is a notable inventor based in Lubbock, TX (US). He has made significant contributions to the field of technology through his innovative patents. With a total of 2 patents, Bayne's work focuses on advanced systems for measuring and imaging electrical and magnetic phenomena.
Latest Patents
One of Bayne's latest patents is the "Wide injection range open circuit voltage decay system." This invention involves a system, method, and apparatus for measuring the carrier lifetime of a device. It comprises subjecting a test device to a voltage via a voltage source, disconnecting the test device from the voltage source, and measuring the voltage and current as functions of time. The carrier lifetime is then determined according to the slope of the measured voltage and current.
Another significant patent is the "Magnetic field vector imaging array." This invention provides methods and systems for imaging a magnetic field as vectors or scalars in two or three dimensions. It eliminates the need for rastering or relative motion between the sensors and the magnetic field being viewed. Additionally, it can image electric current flow as vectors, and its embodiments can be scaled for both large and small applications using discreet devices or MEMS technologies.
Career Highlights
Stephen Bayne is affiliated with the Texas Tech University System, where he contributes to research and development in his field. His work has garnered attention for its practical applications and innovative approaches to complex problems.
Collaborations
Bayne collaborates with talented individuals such as Shelby Lacouture and Argenis Bilbao. Their combined expertise enhances the research and development efforts within their projects.
Conclusion
Stephen Bayne's contributions to technology through his patents demonstrate his innovative spirit and commitment to advancing the field. His work continues to influence the way we understand and interact with electrical and magnetic systems.