Company Filing History:
Years Active: 2001
Title: The Innovations of Michael H. Salamon in Analog Signal Processing
Introduction
Michael H. Salamon, an accomplished inventor based in Salt Lake City, UT, has significantly contributed to the field of analog signal processing. With a solitary patent to his name, Salamon's work centers on developing advanced technologies that enhance the efficiency and functionality of electronic systems.
Latest Patents
Salamon's patent, titled "Variable Analog Delay Line for Analog Signal Processing on a Single Integrated Circuit Chip," showcases a novel approach to managing analog signals. This invention employs a switched capacitor storage scheme that facilitates short-term storage of voltage or charge waveforms. It allows for variable maximum delay times without signal attenuation, achieving delay-to-rise time ratios of up to 10. The design includes a vector array of switched capacitor analog storage elements arranged in a ring-buffer topology. These elements can range from about 10 to 10, providing excellent scalability. Additionally, the internal counters, incremented by a common clock, effectively track the variable delay between input and output signals.
Career Highlights
Michael H. Salamon is associated with the University of Utah Research Foundation, where he utilizes his expertise to push the boundaries of innovation in electronic communication and processing. His ingenuity is reflected in his research, which aims to streamline analog signal processing technologies.
Collaborations
In his pursuit of innovation, Salamon collaborates with fellow researcher David B. Kieda. Together, they explore various facets of analog processing technologies, contributing to the advancement of the field and fostering a spirit of innovation within their institution.
Conclusion
Michael H. Salamon embodies the spirit of innovation through his work on analog signal processing technologies. His groundbreaking patent represents a fusion of technical prowess and creative ingenuity. As he continues to work at the University of Utah Research Foundation, his contributions are likely to influence future developments in the electronics industry, inspiring a new generation of inventors and engineers.