Company Filing History:
Years Active: 1986-1987
Title: Innovations by Dale LaPlante
Introduction
Dale LaPlante is an accomplished inventor based in Goleta, California. She has made significant contributions to the field of optical encoders, holding a total of 2 patents. Her work focuses on enhancing the accuracy and efficiency of positional information systems.
Latest Patents
Dale LaPlante's latest patents include a "Zero reference generating method and apparatus for optical encoders." This invention provides an encoder that delivers positional information about a moveable member. It comprises code member means that couple to the moveable member, reference means that remain stationary relative to the code member, and an index sequence positioned on the code member. Additionally, a mask sequence is positioned on the reference member means, along with means for detecting the degree of registration between the index sequence and the mask sequence. The index and mask sequences include a variety of building block patterns separated by predetermined spacings.
Another patent by LaPlante is also titled "Zero reference generating method and apparatus for optical encoders." This improved apparatus generates an index signal in incremental encoders. It features an index sequence of code elements on the code disc, where the degree of registration between the index sequence and a mask sequence is detected. The configuration ensures maximum registration of elements at the index position of the code disc, while maintaining a predetermined background registration level for all other angular positions.
Career Highlights
Dale LaPlante is currently associated with Bei Electronics LLC, where she continues to innovate in the field of optical encoders. Her expertise and dedication to her work have positioned her as a notable figure in her industry.
Conclusion
Dale LaPlante's contributions to optical encoder technology through her patents demonstrate her innovative spirit and commitment to advancing the field. Her work continues to influence the development of more accurate and efficient positional information systems.