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Years Active: 2010-2022
Title: Inventor Gururaj Ghorpade: Pioneering Low Voltage Innovations in Ethernet Technology
Introduction
Gururaj Ghorpade is a distinguished inventor based in Bengaluru, India, with a remarkable portfolio of 7 patents. His contributions to the field of electronics have significantly impacted the efficiency and performance of Ethernet technology, making him a noteworthy figure in the realm of modern innovations.
Latest Patents
One of Gururaj's latest patents is the "Low Voltage Feedforward Current Assist Ethernet Line Driver." This invention encompasses Ethernet physical layer (PHY) interface integrated circuits that facilitate data transmission through a magnetic interface. His work includes the integration of a voltage mode first amplifier that generates a first voltage signal from a supply voltage, responding to a data input signal. Additionally, the transmit interface circuit features a feedforward second amplifier circuit that enhances the peak voltage at the output, allowing for higher peak signal voltage swings while operating on low voltage levels, such as 2.5 volts, ideal for 10Base-T applications.
Career Highlights
Gururaj Ghorpade has demonstrated remarkable expertise through his tenure at renowned companies, including National Semiconductor Corporation and Texas Instruments Corporation. His innovative approach has positioned him as a key player in driving advancements in electronic circuit design and functionality.
Collaborations
Throughout his career, Gururaj has worked alongside esteemed colleagues, including Theertham Srinivas and DVJ Ravi Kumar. Their collaborative efforts have undoubtedly contributed to the development of groundbreaking technologies in the field of integrated circuit design and communication systems.
Conclusion
Gururaj Ghorpade's contributions to the industry highlight the importance of innovation in enhancing technological advancements. With a focus on low voltage applications and Ethernet technology, his work continues to inspire future developments in the field, ensuring that he remains a vital component of modern electronics and communications.