Company Filing History:
Years Active: 2010-2012
Title: Innovations by Madhav Datta in Thermal Management Technologies
Introduction
Madhav Datta is an accomplished inventor based in Milpitas, CA (US). He has made significant contributions to the field of thermal management technologies, holding a total of 3 patents. His work focuses on enhancing the efficiency of optical and electronic devices through innovative ceramic assemblies.
Latest Patents
Madhav's latest patents include groundbreaking inventions such as "Bonded metal and ceramic plates for thermal management of optical and electronic devices." This invention features a ceramic assembly that incorporates electrically and thermally conductive pads, which are thermally coupled to heat-generating devices while maintaining electrical isolation. The ceramic layer used in this assembly boasts high thermal conductivity and high electrical resistivity, ensuring optimal performance.
Another notable patent is the "Microheat exchanger for laser diode cooling." This microheat exchanging assembly is designed to cool heat-generating devices, including integrated circuits and laser diodes. It consists of ceramic assemblies that are thermally coupled to the surfaces of these devices, utilizing a similar approach to the aforementioned patent for effective thermal management.
Career Highlights
Madhav Datta is currently employed at Cooligy, Inc., where he continues to develop innovative solutions for thermal management. His expertise in ceramic technology and thermal systems has positioned him as a key player in the industry.
Collaborations
Madhav has collaborated with notable colleagues such as Mark McMaster and Rick Brewer. Their combined efforts have contributed to the advancement of thermal management technologies and the successful development of innovative products.
Conclusion
Madhav Datta's contributions to thermal management through his patents and work at Cooligy, Inc. highlight his role as a leading inventor in this field. His innovative approaches continue to influence the efficiency of electronic and optical devices.