Location History:
- Elgin, IL (US) (2005)
- Barrington, IL (US) (2009)
Company Filing History:
Years Active: 2005-2009
Title: Michael A. Davis: Innovator in Multi-Band Detection Technologies
Introduction
Michael A. Davis is a notable inventor based in Barrington, IL (US), recognized for his contributions to advanced detection technologies. With a total of 2 patents, Davis has made significant strides in the field of electro-optical systems.
Latest Patents
Davis's latest patents include the innovative Multi-Band Focal Plane Array and the Conformal All-Reflective Beam-Steering (CARBS) device. The Multi-Band Focal Plane Array architecture is designed to detect multiple spectral images, featuring an integrated readout circuit and a combination of first and second detectors. The first detectors are capable of detecting visible signals, while the second detectors are designed for infrared signals. This arrangement allows for simultaneous detection across different wavelength bands, enhancing the capabilities of imaging systems.
The CARBS device is a hybrid of a mirror and a one-axis gimbal assembly, functioning as a coarse-steering element in electro-optical tracking systems. It is designed to provide a full field of regard by utilizing a rotating carriage, which allows for 360-degree rotation. This compact design not only reduces system inertia and power draw but also meets upcoming military modular packaging requirements.
Career Highlights
Michael A. Davis is currently employed at Northrop Grumman Systems Corporation, where he continues to develop cutting-edge technologies. His work has positioned him as a key player in the advancement of detection systems.
Collaborations
Davis has collaborated with notable colleagues, including Christopher Lee Kauffman and Gerald Pray Griffith, contributing to the innovative projects at Northrop Grumman.
Conclusion
Michael A. Davis exemplifies innovation in the field of detection technologies, with his patents paving the way for advancements in electro-optical systems. His contributions are significant in enhancing the capabilities of modern imaging and tracking systems.