Company Filing History:
Years Active: 2009
Title: The Innovative Contributions of Michael Lee
Introduction
Michael Lee, an accomplished inventor based in High Wycombe, GB, has made significant strides in the field of material science. With a patented invention to his name, Lee is contributing to advancements that promise to enhance electronic applications through improved thin film compositions.
Latest Patents
Michael Lee holds a patent titled "High Resistivity Thin Film Composition and Fabrication Method." This innovation involves a thin film composition created from silicon, an insulator such as alumina or silicon dioxide, along with additional materials like chromium, nickel, boron, and carbon. The unique combination of these materials results in a thin film with a resistivity of at least 0.02 Ω-cm, often ranging from 0.02 to 1.0 Ω-cm. Additionally, it boasts a temperature coefficient of resistance (TCR) of less than ±1000 ppm/°C, typically under ±300 ppm/°C, and can achieve a sheet resistance of at least 20 kΩ/□. Notably, the thickness of the thin film is designed to be at least 200 nm to minimize surface scattering conduction currents.
Career Highlights
Michael has established himself as a valuable asset at Analog Devices, Inc., where he actively participates in research and development initiatives. His work focuses on creating innovative materials that can be used in a variety of electronic applications.
Collaborations
Throughout his career, Michael has had the privilege of working alongside talented professionals such as Steven Wright and Philip Judge. Their collaborative efforts further enhance the innovative capabilities within Analog Devices, Inc.
Conclusion
In summary, Michael Lee's contributions through his patent in high resistivity thin film compositions highlight the intersection of creativity and technical expertise. His work at Analog Devices, Inc., along with collaborations with esteemed coworkers, positions him as an influential inventor in the field of material science. As the demand for advanced electronic materials continues to grow, talents like Michael Lee are paving the way for future innovations.