Company Filing History:
Years Active: 2005
Title: Innovations by Jonathan L. Kennedy in Radio Technology
Introduction
Jonathan L. Kennedy, an accomplished inventor based in Auburn, CA, has made significant contributions to the field of radio communication. With a focus on enhancing transmission methods, he holds one patent that showcases his innovative approach to modulation architecture.
Latest Patents
Kennedy's patent, titled "Multistage Modulation Architecture and Method in a Radio," addresses the complexities of signal modulation in multi-stage transmitters. The invention utilizes an analog signal that is modulated and mixed to produce a radio frequency output. A unique feature of his design is the implementation of a single frequency synthesizer in place of multiple synthesizers, simplifying the system and reducing potential spurious signals. In a two-stage system, his design intelligently employs first and second dividers to manage the output of the frequency synthesizer, optimizing performance through the careful selection of modulus for each divider.
Career Highlights
As an inventor at International Business Machines Corporation (IBM), Kennedy has been at the forefront of radio technology research. His work not only reflects his dedication to innovation but also demonstrates his ability to enhance existing technologies for better performance and reliability.
Collaborations
Kennedy has collaborated with esteemed colleagues such as Paul P. Chominski and Lawrence E. Larson. Together, they contribute to a dynamic team environment that fosters creativity and research excellence within IBM.
Conclusion
Jonathan L. Kennedy's patent advancements signify an important step forward in radio frequency technology. His innovative multistage modulation architecture not only enhances the capabilities of transmitters but also illustrates the potential for future developments in communication technology. With his contributions, Kennedy stands as a notable inventor supporting the evolution of radio technologies and their applications in modern communication systems.