Company Filing History:
Years Active: 1990
Title: The Innovative Mind of Robert G Wolfe
Introduction
Robert G Wolfe is a notable inventor based in Xenia, OH (US). He has made significant contributions to the field of light beam scanning technology. With a focus on innovation, Wolfe has developed a unique device that enhances the efficiency of scanning light beams.
Latest Patents
Wolfe holds a patent for a "Flat stationary field light beam scanning device." This invention involves a light beam scanning device and method that utilizes a first input source to provide a scanning light beam directed onto a flat stationary scanning surface. The device incorporates an f sine theta lens system to focus the light beam effectively. A galvanometer mirror is employed to repetitively scan the light beam across the scanning surface in a fast scan direction, while a pivoting mirror facilitates scanning in a slow scan direction perpendicular to the first. This innovative design allows for precise raster scanning of the light beam, enhancing the overall functionality of the device.
Career Highlights
Wolfe's career is marked by his dedication to advancing technology in the field of optics. His work at Eotron Corporation has allowed him to explore and develop cutting-edge solutions in light beam scanning. His patent reflects his commitment to innovation and his ability to solve complex technical challenges.
Collaborations
Throughout his career, Wolfe has collaborated with talented individuals such as John A Lawson and John C Butler. These partnerships have contributed to the development of his innovative technologies and have fostered a collaborative environment for creativity and invention.
Conclusion
Robert G Wolfe is a distinguished inventor whose work in light beam scanning technology has made a significant impact. His patent for the flat stationary field light beam scanning device showcases his innovative spirit and technical expertise. Wolfe's contributions continue to influence the field, paving the way for future advancements in optical technology.