Company Filing History:
Years Active: 1987-1989
Title: Innovations by Dale E. Ihnat in Optical Motion Sensing
Introduction
Dale E. Ihnat, an accomplished inventor based in Woonsocket, Rhode Island, is renowned for her contributions to the field of optical motion sensing. With two patents to her name, Ihnat's innovations reflect a commitment to advancing technology and enhancing measurement techniques.
Latest Patents
Dale E. Ihnat's most recent patents include "Aligning Optical and Mechanical Elements for Optical Motion Sensing" and "Method and Apparatus for Sensing a Measurand". The first patent presents a unique technique for aligning optical fibers with mechanical components, enabling precision in the measurement of physical parameters. This involves using radiant energy to alter a wavelength-sensitive surface on the mechanical component, thereafter allowing for positional sensing of the member relative to the fiber optic.
The second patent focuses on the excitation of vibrating resonant mechanical structures through photokinetic energy transfer, wherein a tuning fork sensor is employed. This innovative approach facilitates the optical detection of oscillation frequencies, providing a means to measure various physical parameters efficiently.
Career Highlights
Dale E. Ihnat works with The Foxboro Company, where her expertise enhances the development of high-tech measurement solutions. Her commitment to technological advancements is evident through her pioneering work in optical sensing technologies.
Collaborations
In her innovative journey, Dale has collaborated with esteemed colleagues such as Anthony C. Gilby and Richard A. Anderson. These partnerships have undoubtedly contributed to her success and the growth of new technologies within their domain.
Conclusion
Dale E. Ihnat's work exemplifies the spirit of innovation in the field of optical motion sensing. With her contributions, she has not only advanced measurement techniques but has also inspired future developments in this essential area of technology. As her career progresses, it will be exciting to see how her further innovations will reshape our understanding and application of optical sensing technologies.