Location History:
- Dryden, NY (US) (2006)
- King Ferry, NY (US) (2017)
Company Filing History:
Years Active: 2006-2017
Title: Nathan L Stirling: Innovator in Calibration Technology
Introduction: Nathan L Stirling is a prominent inventor based in King Ferry, NY, known for his contributions to the field of calibration technology. With a total of two patents to his name, Nathan has made significant strides in developing innovative systems that enhance device testing and measurement accuracy.
Latest Patents: Among Nathan's notable patents are the Single Motor Dynamic Calibration Unit and the Z-Axis Angular Rate Sensor. The Single Motor Dynamic Calibration Unit is designed to calibrate devices under test using a single-axis rotational unit that can extend at an angle from a known axis. This system includes various methods of excitation, such as gravitational and Helmholtz coil excitation, enabling the calibration of 3 degrees of freedom or higher Micro-Electro-Mechanical Systems (MEMS) devices. On the other hand, his Z-Axis Angular Rate Sensor is an oscillatory rate sensor that detects rotation about the Z-axis. This innovative device employs a tuning-fork design incorporating structural linkages, allowing for the fundamental anti-phase oscillation of two proof masses through mechanical linkages.
Career Highlights: Nathan currently works at Kionix, Inc., where he continues to push the boundaries of technology in calibration and sensor development. His focus on practical and efficient designs exemplifies his commitment to innovation in engineering.
Collaborations: Throughout his career, Nathan has had the opportunity to collaborate with talented coworkers such as Eric P Chojnacki and June Shen-Epstein. These collaborations have fostered a creative environment that encourages innovative problem-solving and the development of ground-breaking technologies.
Conclusion: Nathan L Stirling's contributions to calibration technology showcase his inventive spirit and dedication to advancing the field. With his innovative patents and collaborative efforts, he remains an influential figure in the engineering community, paving the way for future innovations in device testing and measurement.