Company Filing History:
Years Active: 2024
Title: Nathaniel Patrick Richards: Innovator in Flexible Heating Systems
Introduction
Nathaniel Patrick Richards is a notable inventor based in St. Petersburg, FL (US). He has made significant contributions to the field of flexible heating systems, holding a total of 2 patents. His work focuses on innovative solutions that enhance the functionality and efficiency of heating technologies.
Latest Patents
Richards' latest patents include an "Apparatus, system and method of providing a conformable heater system." This invention encompasses a flexible heater sensor designed for use with fluid bags. The system features a conformable substrate positioned on the opposite side of a printed flexible heater. It utilizes a matched function ink set that forms conductive and dielectric layers, creating a sensing circuit capable of monitoring the temperature of the fluid within the bag.
Another significant patent is "Printing of multilayer circuits on graphics." This invention outlines a method for printing multilayer circuits that can be used in electronic human-machine interfaces, sensor readouts, or driver circuits. The process involves successively printing functional ink layers on a substrate, curing each layer with ultraviolet light, and ensuring the integrity of the printed circuits.
Career Highlights
Nathaniel Patrick Richards is currently employed at Jabil Inc., where he continues to develop innovative technologies. His work at Jabil has allowed him to explore new frontiers in the field of printed electronics and flexible heating systems.
Collaborations
Richards collaborates with talented individuals such as Sai Guruva Reddy Avuthu and Nabel M Ghalib. These partnerships enhance the creative process and contribute to the successful development of his inventions.
Conclusion
Nathaniel Patrick Richards is a pioneering inventor whose work in flexible heating systems and printed electronics showcases his commitment to innovation. His patents reflect a deep understanding of technology and its applications in real-world scenarios.