Company Filing History:
Years Active: 2022-2023
Title: The Innovations of Daniel Lewis Farr
Introduction
Daniel Lewis Farr is an accomplished inventor based in Minden, NV (US). He has made significant contributions to the field of sensor technology, particularly in the area of stress sensing systems. With a total of two patents to his name, Farr's work demonstrates a commitment to advancing innovative solutions in engineering.
Latest Patents
Farr's latest patent focuses on a gap compensated stress sensing system, which includes a reference signal compensation for magnetostrictive sensors. This system is designed to enhance the accuracy of stress measurements applied to a target by utilizing a sensor head in communication with a controller. The sensor head generates a stress signal based on the measurement of magnetic fluxes passing through the target. Additionally, the system features a drive circuit that provides current for generating magnetic fluxes and measures signals that characterize the gap between the sensor head and the target. The controller analyzes these signals to determine a gap-dependent reference signal that is relatively insensitive to electrical runout. This innovative approach allows for adjustments to the stress signal based on the gap-dependent reference signal, resulting in an improved stress signal with reduced sensitivity to gap changes.
Career Highlights
Farr is currently employed at Bently Nevada Corporation, where he continues to develop and refine his innovative technologies. His work at the company has positioned him as a key player in the advancement of sensor technology.
Collaborations
Farr collaborates with Lysle R Turnbeaugh, a fellow innovator in the field. Their partnership exemplifies the importance of teamwork in driving technological advancements.
Conclusion
Daniel Lewis Farr's contributions to sensor technology through his patents and work at Bently Nevada Corporation highlight his role as a significant inventor in the industry. His innovative approaches continue to pave the way for advancements in stress sensing systems.