Mathew Salazar

Title: Mathew Salazar: Innovator in Power Management Technologies

Introduction

Mathew Salazar is a prominent inventor based in Mountain View, California. He has made significant contributions to the field of power management technologies, particularly in the area of integrated circuits. With a total of two patents to his name, Salazar's work focuses on enhancing power efficiency in electronic systems.

Latest Patents

Salazar's latest patents include innovative mechanisms for true power shedding. The first patent describes methods for blocking the propagation of signals to Integrated Circuit (IC) components that have been power gated. This approach aims to prevent leakage through signals that may not be in a low state. By utilizing switches that block current flow in such signals, it becomes possible to turn off power to any IC component, thereby increasing power savings. This technology allows more portions of a system in an idle state to be power gated, reducing or eliminating leakage in signals on the boundaries of blocks being power gated.

The second patent, titled "Apparatus for True Power Shedding via Switchable Electrical Connections," reiterates similar mechanisms and methods for blocking signal propagation to power-gated IC components. This patent emphasizes the advantages of enabling power savings by allowing various parts of a system to be power gated effectively.

Career Highlights

Throughout his career, Mathew Salazar has worked with notable companies in the technology sector. He has been associated with Shenzhen Chipuller Chip Technology Co., Ltd and North Sea Investment Company Ltd. His experience in these organizations has contributed to his expertise in developing innovative solutions for power management.

Collaborations

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Conclusion

Mathew Salazar's contributions to power management technologies through his patents demonstrate his commitment to innovation in the field of integrated circuits. His work not only enhances power efficiency but also paves the way for advancements in electronic systems.