Company Filing History:
Years Active: 2019
Title: Abhisek Dey: Innovator in Low Energy Circuit Design
Introduction
Abhisek Dey is a notable inventor based in Santa Clara, CA, who has made significant contributions to the field of low energy circuit design. His innovative approach has led to the development of a unique patent that addresses the challenges associated with power management in low energy integrated circuits.
Latest Patents
Abhisek Dey holds a patent titled "Low inrush circuit for power up and deep power down exit." This patent encompasses systems, methods, and devices designed to provide power to low energy circuits. The invention includes an inrush circuit that features a regulator with at least one driver device, which generates a first current associated with a load comprising a low energy integrated circuit. Additionally, it incorporates a bias generator that produces a second current to charge a load capacitor connected to the power terminal of the low energy integrated circuit. The design also includes an enable circuit that manages the operation of the bias generator and regulator based on the load voltage, ensuring efficient power management.
Career Highlights
Abhisek Dey is currently employed at Cypress Semiconductor Corporation, where he continues to innovate in the field of semiconductor technology. His work focuses on enhancing the efficiency and performance of low energy circuits, contributing to advancements in various electronic applications.
Collaborations
Throughout his career, Abhisek has collaborated with talented professionals, including Mohandas Sivadasan and Jayant Ashokkumar. These collaborations have fostered a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Abhisek Dey's contributions to low energy circuit design exemplify the impact of innovative thinking in the semiconductor industry. His patent and ongoing work at Cypress Semiconductor Corporation highlight his commitment to advancing technology for efficient power management.