Company Filing History:
Years Active: 1988
Title: Innovations of Thomas F. Schueller
Introduction
Thomas F. Schueller is an accomplished inventor based in Warrington, Pennsylvania. He has made significant contributions to the field of bonding technology, particularly through his innovative patent that enhances the efficiency and accuracy of wire bonding processes.
Latest Patents
Schueller holds a patent for a bonding apparatus that incorporates a method for automatic calibration. This wire bonding apparatus utilizes a pattern recognition system to store signatures representing predetermined points on a chip to be bonded. The system is designed to automatically re-calibrate by rotating the pedestal to four 90-degree spaced angles, allowing it to find recorded signatures and calculate the true center of rotation. A specialized algorithm corrects any errors that may occur if the chip is not rotated precisely at 90-degree intervals during the calibration process. This innovation significantly improves the reliability of bonding operations.
Career Highlights
Thomas F. Schueller is currently employed at Kulicke and Soffa Industries, Inc., a leading company in the semiconductor equipment industry. His work focuses on advancing bonding technologies that are crucial for the production of electronic components. Schueller's expertise and innovative mindset have positioned him as a valuable asset in his field.
Collaborations
Throughout his career, Schueller has collaborated with notable colleagues, including Gautam N. Shah and Mark B. Soffa. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Thomas F. Schueller's contributions to the field of bonding technology exemplify the impact of innovation in the semiconductor industry. His patent for an automatic calibration bonding apparatus showcases his commitment to enhancing manufacturing processes. Schueller's work continues to influence the future of electronic component production.