Company Filing History:
Years Active: 2017
Title: Innovations of Peter O'Shea in Viscosity Measurement
Introduction
Peter O'Shea is an accomplished inventor based in Medford, MA (US). He is known for his significant contributions to the field of viscosity measurement technology. With a focus on precision and accuracy, O'Shea has developed innovative solutions that enhance the understanding of fluid and gas properties.
Latest Patents
O'Shea holds a patent for a high precision reciprocating bob viscometer. This advanced device features two coils, A and B, that encircle a reciprocating bob. Coil A is energized with a combined sinusoidal and DC signal, while coil B is responsible for sensing the position of the reciprocating bob. The functions of the coils are reversed to optimize performance. By utilizing a digitally-generated near resonance frequency sinusoidal signal, O'Shea's design minimizes noise without the need for amplification. The amplitude measurement is conducted in the digital time domain, further reducing signal noise. These advancements enable faster, highly accurate, low noise measurements of bob position and velocity, which are essential for determining fluid and gas viscosity and related properties.
Career Highlights
O'Shea's career is marked by his dedication to innovation in viscosity measurement. His work has led to significant advancements in the field, particularly in the accuracy and efficiency of viscosity measurements. He is currently employed at Cambridge Viscosity, Inc., where he continues to develop cutting-edge technologies.
Collaborations
O'Shea collaborates with talented individuals such as Janusz Tabis and Daniel Airey. Their combined expertise contributes to the ongoing development of innovative solutions in viscosity measurement.
Conclusion
Peter O'Shea's contributions to viscosity measurement technology exemplify the impact of innovation in scientific research. His patented high precision reciprocating bob viscometer represents a significant advancement in the field, providing valuable insights into fluid and gas properties.