Company Filing History:
Years Active: 1987-2001
Title: The Innovative Genius of Gay M Samuelson
Introduction
Gay M Samuelson, a prominent inventor based in Tempe, AZ, has made significant contributions to the field of technology with a total of five patents to her name. Her innovative work primarily focuses on enhancing wire bonding methods, which are critical in the electronics industry for ensuring reliable connections.
Latest Patents
Among her latest patents, Samuelson's notable inventions include a "Wire bonding surface and bonding method" and a "Bonding pad structure having an interposed rigid layer." The first patent describes a bonding pad structure designed for use with compliant dielectric materials. This method involves forming a rigid layer between the bonding pad and the compliant dielectric layer, which increases the stiffness of the bonding structure. This innovation enables effective bonding through conventional ultrasonic and thermosonic methods. Similarly, her second patent reiterates this concept, emphasizing the importance of the rigid layer for achieving strong and reliable bonds.
Career Highlights
Throughout her career, Samuelson has worked for prominent companies, including Shell Oil Company and Intel Corporation. Her experience in these leading organizations has equipped her with a wealth of knowledge and practical expertise in the field of electronics and technology.
Collaborations
Gay M Samuelson has collaborated with notable individuals such as David J St Clair and Ameet S Bhansali. These partnerships have likely contributed to the depth and quality of her innovative work, showcasing her ability to engage with other experts to foster technological advancements.
Conclusion
Gay M Samuelson represents the dedication and brilliance of female inventors in the tech industry. Her contributions, particularly in wire bonding technology, have paved the way for more efficient manufacturing processes in electronics. As her career continues to flourish, it will be exciting to see how her future innovations will impact the field.