Company Filing History:
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2 out of 832,843 Years Active: 2013-2015
Title: Chris Born - Innovator in Digital Signal Processing
Introduction
Chris Born is a notable inventor based in Bristol, GB, recognized for his contributions to digital signal processing. With a total of 4 patents to his name, Born has made significant advancements in methods for processing digital signals.
Latest Patents
One of his latest patents is a digital signal sampling method. This method involves generating a clock signal used for sampling a received digital signal through a comparator that compares the received signal to a reference. A phase shifter is employed to adjust the phase of the clock signal to maximize the vertical eye opening of the signal at the sampling time. The clock signal's phase can be adjusted in a specific direction based on the measure of vertical eye opening, allowing for further adjustments to optimize signal quality.
Another significant patent focuses on improvements relating to equalizers. This invention discloses methods and apparatus for adapting equalizers to compensate for signal distortion in received digital signals. The method includes deriving equalizer settings for a received signal and determining at least one signal parameter of that signal. By storing the derived equalizer settings along with an indication of the signal parameter, the equalizer can efficiently adapt to changes in signal parameters without starting a new adaptation routine.
Career Highlights
Throughout his career, Chris Born has worked with various companies, including Maxim Integrated Products, Inc. His experience in the field has allowed him to develop innovative solutions that enhance digital signal processing technologies.
Collaborations
Chris has collaborated with talented individuals such as Ben Willcocks and Miguel Marquina, contributing to the advancement of technology in his field.
Conclusion
Chris Born's work in digital signal processing exemplifies innovation and dedication to improving technology. His patents reflect a commitment to enhancing the efficiency and effectiveness of digital signal processing methods.