Company Filing History:
Years Active: 1976
Title: The Innovations of Norman C. Miller
Introduction
Norman C. Miller is a notable inventor based in Woodland Hills, CA (US). He has made significant contributions to the field of thermoelectric materials, particularly through his innovative patent. His work has implications for various applications in electronics and energy efficiency.
Latest Patents
Miller holds a patent for a "Bonded electrical contact for thermoelectric semiconductor element." This invention involves a bonded electrical contact and method for a thermoelectric element. The design features a thin layer of a ductile diffusion barrier that is non-poisonous to thermoelectric materials, such as iron, tungsten, molybdenum, or niobium. This barrier is strategically placed between the thermoelectric material and a contacting shoe, such as stainless steel, which may contain poisonous alloy constituents. The thermal expansion coefficient of the diffusion barrier does not match that of the thermoelectric material, but it is overridden by that of the shoe, which corresponds with high expansion thermoelectrics like tellurides. Miller's innovative approach enhances the performance and reliability of thermoelectric devices.
Career Highlights
Miller is associated with Rockwell International Corporation, where he has contributed to various projects and advancements in technology. His work has been instrumental in developing solutions that improve the efficiency and effectiveness of thermoelectric applications.
Collaborations
Miller has collaborated with Richard C. Saunders, a fellow innovator, to further enhance their research and development efforts in the field of thermoelectrics. Their partnership has led to advancements that benefit both their careers and the industry.
Conclusion
Norman C. Miller's contributions to thermoelectric materials through his patent demonstrate his innovative spirit and dedication to advancing technology. His work continues to influence the field and pave the way for future developments in energy-efficient solutions.