Company Filing History:
Years Active: 2015
Title: Innovations of Scott C Jensen: Pioneering Acoustic Vector Sensors
Introduction
Scott C Jensen, an innovative inventor based in Gales Ferry, Connecticut, has made significant contributions to the field of acoustic sensing. With one patent to his name, he has demonstrated a unique ability to develop low-cost miniature vector sensors that push the boundaries of current technologies.
Latest Patents
Scott's notable patent is titled "Acoustic vector sensor having an accelerometer with in-band resonant frequency." This invention presents an acoustic vector sensor that incorporates at least one accelerometer, designed to measure components of acoustic particle acceleration. The cleverly engineered accelerometer operates at a resonant frequency within the measurement band of the sensor, enhancing the precision of acoustic signal measurements. The method outlined in his patent involves configuring an array of these sensors to effectively capture and generate a voltage representative of the acoustic signal, which can optionally indicate the signal's bearing.
Career Highlights
Scott C Jensen is associated with Applied Physical Sciences Corporation, a company focused on the development of advanced technologies and solutions. His work at the company emphasizes a commitment to innovation and excellence in engineering and scientific advancements.
Collaborations
Throughout his career, Scott has collaborated with distinguished individuals such as James A McConnell and Bruce M Abraham. These collaborations highlight the collective effort put into developing groundbreaking technologies that can benefit various applications across industries.
Conclusion
Scott C Jensen stands out as a prominent inventor in the field of acoustic vector sensing. His patent demonstrates a commitment to innovation, paving the way for advancements that could revolutionize how acoustic signals are measured and interpreted. With the support of his colleagues and the resources of Applied Physical Sciences Corporation, Scott continues to make meaningful contributions to technological progress.