Location History:
- Brooklyn Park, MN (US) (1981 - 1984)
- Minneapolis, MN (US) (1984)
Company Filing History:
Years Active: 1981-1984
Title: Martin J Van Dyke: Innovator in Liquid Gaging Systems and Magnetoresistive Transducers
Introduction
Martin J Van Dyke is a notable inventor based in Brooklyn Park, MN (US). He holds a total of 9 patents that showcase his contributions to the fields of liquid measurement and magnetoresistive technology. His innovative work has significantly impacted various applications in these areas.
Latest Patents
One of his latest patents is the "Liquid Gaging System Multiplexing." This invention comprises a plurality of sensors, each providing a liquid measurement signal related to the liquid depth at a specific location in a tank. The system includes apparatus for selectively monitoring individual sensors one at a time, enhancing the efficiency of liquid measurement.
Another significant patent is the "Magnetoresistive Transducer Apparatus." This invention operates a magnetoresistive transducer bridge in saturation mode using an AC signal from an adjacent conductor. The design allows the bridge elements to magnetically saturate during most of each half cycle of the AC signal. This unique response characteristic is utilized in circuitry for current-presence detection, signal amplitude detection, and power-factor detection.
Career Highlights
Martin J Van Dyke is currently associated with Honeywell GmbH, where he continues to innovate and develop advanced technologies. His work at Honeywell has allowed him to apply his expertise in practical applications, contributing to the company's reputation for technological excellence.
Collaborations
Throughout his career, Martin has collaborated with notable colleagues, including William R Dougherty and Dwight D Colby. These partnerships have fostered a creative environment that encourages innovation and the development of groundbreaking technologies.
Conclusion
Martin J Van Dyke is a distinguished inventor whose work in liquid gaging systems and magnetoresistive transducers has made a significant impact in his field. His contributions continue to influence technology and inspire future innovations.