Company Filing History:
Years Active: 2002
Title: David Christopher Clarkson: Innovator in High-Speed Analog-to-Digital Conversion
Introduction
David Christopher Clarkson is a notable inventor based in Berks, GB. He has made significant contributions to the field of analog-to-digital conversion, particularly in high-speed applications. His innovative approach has led to the development of a unique patent that enhances the resolution of digital signals.
Latest Patents
David Clarkson holds a patent titled "Summation of band-limited ADC outputs having different resolutions and rates." This invention involves a high-speed analog-to-digital converter that utilizes a fine resolution ADC to digitize the low band component of an analog video signal. The process produces a fine resolution signal while a coarse resolution ADC digitizes the full spectrum of the analog signal, resulting in a coarse resolution signal. The coarse resolution signal is then subtracted from the fine resolution signal to generate a summed signal containing a quantization error. This error is filtered through a low pass digital filter to eliminate the high band component and retain the quantization error. The filtered output is summed with the coarse resolution signal to restore the fine resolution of the low band, ultimately producing a digital output signal suitable for high-definition applications.
Career Highlights
David Clarkson is associated with Innovision Corporation, where he applies his expertise in developing advanced technologies. His work has been instrumental in pushing the boundaries of what is possible in the realm of digital signal processing.
Collaborations
David has collaborated with notable colleagues, including Timothy John Borer and Gary Bryan Wordsworth. Their combined efforts have contributed to the advancement of technologies in their field.
Conclusion
David Christopher Clarkson's innovative work in high-speed analog-to-digital conversion exemplifies the impact of creativity and technical expertise in modern technology. His contributions continue to influence the development of high-definition digital applications.