Company Filing History:
Years Active: 2013
Title: Innovations of Arun Rachamadugu
Introduction
Arun Rachamadugu is a notable inventor based in Atlanta, GA. He has made significant contributions to the field of high-speed data transmission through his innovative patent. His work focuses on advanced filtering systems that enhance data communication efficiency.
Latest Patents
Arun Rachamadugu holds a patent for "High-speed pulse shaping filter systems and methods." This invention includes a first system and method that utilizes an analog current-mode approach with branch systems. In this implementation, multiple branch systems can be scaled according to filter coefficients and switched using known data points. Positive coefficients add current to the summing node, while negative coefficients remove current from it. The design incorporates switches with quick charge/discharge paths to operate at very high data rates. Additionally, a second system relates to a digital look-up table-based high-speed implementation. In this digital approach, outputs are pre-calculated as an n-bit output word that drives an n-bit DAC. Each bit of the n-bit word is described as an independent function of known data points, implemented as high-speed combinational logic blocks. Both systems enable the implementation of pulse shaping filters for multi-gigabit per second data transmission.
Career Highlights
Arun Rachamadugu is associated with the Georgia Tech Research Corporation, where he continues to innovate and contribute to research in high-speed data transmission technologies. His work is pivotal in advancing the capabilities of communication systems.
Collaborations
Arun collaborates with talented individuals such as Bevin George Perumana and Stephane Pinel, who contribute to the research and development efforts at Georgia Tech Research Corporation.
Conclusion
Arun Rachamadugu's innovative work in high-speed pulse shaping filter systems showcases his expertise and commitment to advancing technology in data transmission. His contributions are significant in the field and continue to influence future developments.