Company Filing History:
Years Active: 2015-2017
Title: Innovations by Jacob Andrew Kohn
Introduction
Jacob Andrew Kohn is a notable inventor based in West Bloomfield, MI (US). He has made significant contributions to the field of engine technology, holding 2 patents that showcase his innovative approach to improving engine performance and diagnostics.
Latest Patents
Kohn's latest patents include "Systems and methods for real-time angle-domain measurement of filtered cylinder pressure." This invention involves techniques for measuring cylinder pressure by converting an analog cylinder pressure signal into a digital format. The process includes windowing the signal in the angle-domain and sampling it in the time-domain. The resulting digital signal is filtered to obtain a precise measurement of cylinder pressure, which is crucial for controlling engine operation.
Another significant patent is "Variable valve lift diagnostic techniques based on camshaft speed." This invention provides a method for diagnosing variable valve lift (VVL) systems in engines. It involves receiving a camshaft position signal and calculating a camshaft speed signal. A valve stuck index (VSI) value is then determined to assess whether the valve is functioning correctly, enhancing the reliability of engine performance.
Career Highlights
Jacob Andrew Kohn is currently employed at FCA US LLC, where he applies his expertise in engine technology. His work focuses on developing innovative solutions that enhance engine efficiency and diagnostics. Kohn's contributions have been instrumental in advancing the capabilities of modern engines.
Collaborations
Kohn has collaborated with talented coworkers, including Dung Kieu Lam and Zhijian James Wu. Their combined efforts have led to the successful development of advanced engine technologies.
Conclusion
Jacob Andrew Kohn's innovative patents and contributions to engine technology reflect his commitment to enhancing automotive performance. His work continues to influence the industry and pave the way for future advancements.