Company Filing History:
Years Active: 1989-1996
Title: Janet E Mebane: Innovator in Printing Technology
Introduction
Janet E Mebane is a notable inventor based in San Diego, CA, recognized for her contributions to printing technology. With a total of 2 patents, she has developed innovative techniques that enhance the efficiency and quality of printing processes.
Latest Patents
One of her latest patents is titled "Double axis dot depletion for 600 DPI edge acuity with 300 DPI print." This patent discloses techniques for depleting raster data to enable printing on a grid that corresponds to the resolution of the undepleted raster data. The method allows for a larger printed dot size, which improves ink dry time. Additionally, it includes a technique for upscaling raster data to a higher resolution, ensuring that the expanded data contains more dot-producing pixels. This innovation allows for the combination of raster data with higher resolution rasterized vector data for enhanced printing operations.
Another significant patent is the "Interconnect lead frame for thermal ink jet printhead and methods of." This invention provides a method and apparatus for connecting a flexible circuit to an ink jet printhead. It features a flexible lead frame member that includes conductive leads extending at a predetermined angle, ensuring good electrical contact during the interconnection process.
Career Highlights
Janet has worked with prominent companies such as Hewlett-Packard Company and Hewlett-Packard Corporation. Her experience in these organizations has contributed to her expertise in the field of printing technology.
Collaborations
Throughout her career, Janet has collaborated with notable individuals, including Lawrence W Chan and Duong T La. These collaborations have further enriched her work and innovations in the industry.
Conclusion
Janet E Mebane's contributions to printing technology through her patents and career achievements highlight her as a significant figure in the field. Her innovative techniques continue to influence the efficiency and quality of printing processes.