Company Filing History:
Years Active: 2023-2025
Title: **Inventor Spotlight: Faye Walker**
Introduction
Faye Walker is an innovative inventor based in Lompoc, California, known for her contributions in the field of electrical devices. With a unique approach to 3D integration, Walker has developed a patented method that enhances the functionality and efficiency of electronic systems.
Latest Patents
Faye Walker holds one patent titled "CuSn via metallization in electrical devices for low-temperature 3D-integration." This invention details a CuSn electrical interconnect and the method of making it within an electrical device. The process involves depositing a tin (Sn) layer in a via hole, followed by a copper (Cu) layer atop the Sn layer. Upon heating, the two layers diffuse to form a reliable and effective CuSn interconnect. This innovative method particularly addresses challenges of voids and remaining material during diffusion, allowing for easy removal and ensuring enhanced device reliability.
Career Highlights
As a prominent member of Raytheon Company, Faye Walker has utilized her expertise in metallization techniques to develop cutting-edge solutions that cater to the evolving demands of technology in electrical devices. Her work is integral to advancing methodologies that facilitate low-temperature 3D integration, paving the way for improved performance in electrical connectivity.
Collaborations
Walker’s collaborative efforts with colleagues, such as Andrew Peter Clarke and John J Drab, have contributed to creating a supportive environment that fosters innovation at Raytheon Company. This teamwork enhances their research and development capabilities, ultimately leading to significant advancements in electrical engineering.
Conclusion
Faye Walker embodies the spirit of innovation in the realm of electrical devices. Her dedication to enhancing low-temperature 3D integration through her patented CuSn metallization process establishes her as a noteworthy inventor. The ongoing collaborations at Raytheon Company further amplify her contributions to the industry, ensuring that her work continues to influence the future of electrical technology.