Company Filing History:
Years Active: 1992
Title: James R Feeley: Innovator in Non-Volatile Analog Memory Circuits
Introduction
James R Feeley is a notable inventor based in San Diego, CA. He has made significant contributions to the field of electronics, particularly in the development of non-volatile analog memory circuits. His innovative work has led to the granting of a patent that showcases his expertise and creativity in this area.
Latest Patents
James R Feeley holds a patent for a "Non-volatile analog memory circuit with closed-loop control." This invention includes charge depositing and storing circuitry, voltage sensing circuitry, and closed-loop control circuitry. The charge depositing and storing circuitry features a floating gate that receives charge deposited on it. The voltage sensing circuitry provides an analog output based on the sensed gate potential. The closed-loop control circuitry is designed to manage charge deposition, adjusting the charge on the gate by directing electrical pulses of appropriate polarity to the charge depositing and storing circuitry. This process minimizes the error between the analog output signal and an analog input signal, ensuring a substantially accurate representation of the analog input signal. He has 1 patent to his name.
Career Highlights
James R Feeley is currently associated with the United States Navy, where he contributes his expertise in electronics and innovation. His work has been instrumental in advancing technologies that are crucial for various applications within the defense sector.
Collaborations
Throughout his career, James has collaborated with notable colleagues, including Gene L Haviland and Patrick A Shoemaker. These collaborations have further enriched his work and contributed to the success of his projects.
Conclusion
James R Feeley is a distinguished inventor whose work in non-volatile analog memory circuits has made a significant impact in the field of electronics. His innovative patent reflects his dedication to advancing technology and improving electronic systems.