Company Filing History:
Years Active: 1999
Title: Paul T. Fisher: Innovator in Radar Measurement Technology
Introduction
Paul T. Fisher is a notable inventor based in Scottsdale, Arizona, recognized for his contributions to radar measurement technology. With a total of three patents to his name, Fisher has made significant advancements in the field, particularly in the design of measurement chambers that enhance the accuracy of radar cross-section (RCS) measurements.
Latest Patents
Fisher's latest patents include innovative designs for low radar cross-section (RCS) measurement chambers. One of his patents describes a measurement chamber that surrounds a target of interest, utilizing a unique interior defined by the rotation of a nonlinear curve. This design effectively separates and extracts scattered signals, incorporating first and second focusing elements to couple these signals out of the chamber. Additionally, the chamber features sections made of absorbing materials to minimize unwanted signal interference. Another patent focuses on a support member for the measurement chamber, which is designed to attach to the target of interest and includes a sting element that is coaxial with the line defined by the chamber's focal points. These inventions collectively contribute to the development of low RCS measurement systems.
Career Highlights
Paul T. Fisher has spent a significant portion of his career at McDonnell Douglas Corporation, where he has been instrumental in advancing radar measurement technologies. His work has not only enhanced the capabilities of measurement systems but has also contributed to the broader field of radar technology.
Collaborations
Fisher has collaborated with notable colleagues, including Donald J. Berg and Carl A. Mentzer. These partnerships have fostered innovation and have played a crucial role in the development of his patented technologies.
Conclusion
Paul T. Fisher's contributions to radar measurement technology through his innovative patents and collaborations highlight his significant impact in the field. His work continues to influence advancements in radar systems and measurement techniques.