Company Filing History:
Years Active: 2021
Title: The Innovative Contributions of James Christie
Introduction
James Christie is a notable inventor based in Eagle Mountain, Utah, known for his significant contributions to the field of semiconductor technology. With one patent to his name, Christie has developed an innovative solution that addresses the complexities involved in handling semiconductor wafers.
Latest Patents
Christie's most recent patent, titled "Semiconductor Wafer Container," showcases his inventive approach to safeguarding semiconductor wafers during storage and transport. The patent describes a container comprised of two outer shells that are designed to overlap vertically. This ingenious design allows the accommodation of a single semiconductor wafer while ensuring that both the upper and bottom surfaces of the wafer remain free from direct contact with the outer shells. Furthermore, the wafer retaining device includes an inclined surface, a contact surface, and a shallow gap portion, all aimed at providing optimal support and protection for the wafer. The external wall forming device incorporates a hanging portion that establishes a closed external wall around the wafer, enhancing its security during storage.
Career Highlights
James Christie is a key innovator at Achilles Corporation, where he collaborates with fellow professionals in the field. His work has led to advancements that significantly improve the handling and storage of semiconductor wafers, which are critical components in electronic devices.
Collaborations
At Achilles Corporation, Christie works alongside industry peers such as Masayuki Nishijima and Kenichi Hirose. Their collective expertise contributes to a dynamic and innovative work environment, fostering developments that push the boundaries of semiconductor technology.
Conclusion
James Christie's contributions to the semiconductor industry, particularly through his innovative wafer container patent, demonstrate his commitment to advancing technology. His work not only improves operational efficiency but also enhances the safety and handling of delicate semiconductor wafers, indicating a promising future for innovations in this sector.