Company Filing History:
Years Active: 1996
Title: John W. Silzel: Innovator in Signal Processing for Chemical Analysis
Introduction
John W. Silzel is a notable inventor based in Orange, California, recognized for his contributions to the field of signal processing. He has developed a unique method and apparatus for determining the analyte content of chemical samples, which has significant implications for various analytical applications.
Latest Patents
Silzel holds a patent for a method and apparatus that utilizes signal processing for chemical analysis of samples. This innovative approach involves generating first and second input signals that differ in wavelength by at least 3 nanometers. The interaction between these input signals and the sample results in the generation of first and second output signals. Each output signal consists of a resonant signal, whose peak wavelength remains substantially independent of the input signal's wavelength, and a non-resonant output signal, whose peak wavelength is dependent on the input signal's wavelength. A detector is employed to differentiate between the resonant and non-resonant output signals, allowing for the determination of the analyte content in the sample. The method can also apply principal components regression analysis or multivariate quantitative analysis to further distinguish between the output signals.
Career Highlights
John W. Silzel has made significant strides in his career, particularly through his work at Beckman Instruments, Inc. His innovative contributions have advanced the field of chemical analysis, showcasing his expertise in signal processing technologies.
Collaborations
Silzel has collaborated with Robert J. Obremski, further enhancing the development of his patented technologies and contributing to advancements in the field.
Conclusion
John W. Silzel's work in signal processing for chemical analysis exemplifies the impact of innovative thinking in scientific research. His patent reflects a significant advancement in the ability to analyze chemical samples effectively.