Company Filing History:
Years Active: 1995
Title: Steven A Upson: Innovator in Antenna Technology
Introduction
Steven A Upson is a notable inventor based in Amherst, NH (US), recognized for his contributions to antenna technology. He holds 2 patents that showcase his innovative approach to enhancing radio frequency connectivity in high-temperature environments. Upson's work is primarily associated with Raytheon Company, where he has made significant advancements in antenna design.
Latest Patents
Upson's latest patents include a "Patch Coupled Aperture Array Antenna" and a "Radio Frequency Connector for a Patch Coupled Aperture Array Antenna." The first patent describes an antenna that incorporates strip conductor circuitry to interconnect multiple patch radiator elements to a common feed. This design features four-port quadrature couplers with an isolation port, radio frequency terminating loads, and a technique for capacitively coupling loads to the couplers. This innovative arrangement allows for a cost-effective antenna capable of withstanding high temperatures. The second patent details a radio frequency connector that includes a coaxial connector with an outer shield and an inner conductive member. This design also features a dielectric substrate and a coupling conductive member with a protruding pin, ensuring durability in high-temperature conditions.
Career Highlights
Throughout his career, Upson has demonstrated a commitment to advancing antenna technology. His work at Raytheon Company has positioned him as a key player in the field, contributing to the development of reliable and efficient communication systems.
Collaborations
Upson has collaborated with notable colleagues, including Joseph S Pleva and Norbert Sa. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Steven A Upson's contributions to antenna technology through his patents and work at Raytheon Company highlight his role as an influential inventor. His innovative designs continue to impact the field of radio frequency connectivity, ensuring reliable communication in challenging environments.