Company Filing History:
Years Active: 2015
Title: Innovation in UDSM Processes - The Contributions of Arakali Abhijith
Introduction
Arakali Abhijith, an innovative inventor based in Mysore, India, has made significant contributions to the field of ultra-deep sub-micron processes. With a focus on enhancing USB On-the-Go (OTG) session requests, his innovative architecture has garnered attention for its practical applications in modern electronics.
Latest Patents
Abhijith holds a notable patent titled "Architecture for VBUS pulsing in UDSM processes." This patent outlines a unique architecture designed for implementing VBUS pulsing within Ultra Deep Sub Micron processes. The architecture ensures the reliable function of the USB-OTG session request protocol, utilizing a charging circuit that incorporates diode means organized in a forward path. The design potentially includes a diode-divider connected from VBUS, emphasizing the importance of both charging and discharging circuits, which utilize PMOS and NMOS transistors to optimize performance.
Career Highlights
Currently affiliated with Texas Instruments Corporation, Abhijith's work reflects a commitment to advancing electronic designs that cater to evolving technology needs. His patent exemplifies his expertise in UDSM processes and serves as a valuable resource for engineers and designers striving for efficient solutions in portable electronics.
Collaborations
Throughout his career, Abhijith has had the opportunity to collaborate with esteemed colleagues such as Sumantra Seth and Somasunder Kattepura Sreenath. Their combined expertise has contributed to the innovative developments at Texas Instruments Corporation, fostering a collaborative environment that prioritizes technological advancement.
Conclusion
Arakali Abhijith stands out as a dedicated inventor making strides in the domain of UDSM processes. His patented architecture not only enhances the performance of USB-OTG protocols but also exemplifies a commitment to innovation in the rapidly evolving electronics landscape. The impact of his work will undoubtedly influence future advancements in this critical field.