Company Filing History:
Years Active: 2005
Title: Paul D. Cassity: Innovator in Semiconductor Wafer Thinning Technology
Introduction
Paul D. Cassity is a notable inventor based in Covington, Ohio, recognized for his contributions to semiconductor technology. He holds a patent that addresses the challenges associated with wafer thinning, a critical process in the manufacturing of integrated circuits.
Latest Patents
Cassity's patent, titled "Stiffened backside fabrication for microwave radio frequency wafers," presents an innovative etching-based semiconductor wafer thinning arrangement. This method serves as an improved alternative to traditional grinding and polishing techniques. The thinned wafer features a structurally enhancing backside grid array made of original wafer thickness semiconductor material. This grid array surrounds individual thinned wafer areas, significantly improving the strength and physical rigidity of the wafer. Additionally, the design includes a backside ring of semiconductor material located at the wafer's periphery, further enhancing its structural integrity.
Career Highlights
Paul D. Cassity is associated with the United States of America as represented by the Secretary of the Air Force. His work focuses on advancing semiconductor technologies, particularly in the realm of microwave radio frequency applications. His innovative approaches have contributed to the development of more efficient and reliable semiconductor devices.
Collaborations
Throughout his career, Cassity has collaborated with notable colleagues, including Gregory C. Desalvo and Tony K. Quach. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas in the field of semiconductor technology.
Conclusion
Paul D. Cassity's contributions to semiconductor wafer thinning technology exemplify the importance of innovation in the electronics industry. His patented methods not only enhance the manufacturing process but also improve the performance of integrated circuits. His work continues to influence advancements in semiconductor technology.