Company Filing History:
Years Active: 2010-2011
Title: Martin M Chang: Innovator in Power Control Technology
Introduction
Martin M Chang is a notable inventor based in Beaverton, OR (US). He has made significant contributions to the field of power control technology, holding 2 patents that showcase his innovative approach to voltage regulation for processors. His work is particularly relevant in today's technology-driven world, where efficient power management is crucial.
Latest Patents
Chang's latest patents focus on a power control unit that utilizes digitally supplied system parameters. These methods and apparatuses provide voltage regulation for a processor. Control or configuration parameters for a voltage regulator (VR) are supplied digitally over a configuration bus to a VR controller. The parameters may be sourced directly from a storage element or through a processing element or processor core. Based on these parameters, the VR controller generates an output control signal to manage the power output from a power converter to the processing element. Notably, in one embodiment, the VR controller is integrated onto the same integrated circuit (IC) as the processing element.
Career Highlights
Martin M Chang is currently employed at Intel Corporation, a leading technology company known for its innovations in semiconductor manufacturing and computing solutions. His role at Intel allows him to work on cutting-edge technologies that impact various industries.
Collaborations
Throughout his career, Chang has collaborated with esteemed colleagues, including Edward Allyn Burton and Robert J Greiner. These collaborations have likely contributed to the advancement of his projects and the successful development of his patents.
Conclusion
Martin M Chang is a distinguished inventor whose work in power control technology has made a significant impact on the efficiency of voltage regulation for processors. His contributions at Intel Corporation and his innovative patents reflect his dedication to advancing technology in this critical area.