Company Filing History:
Years Active: 1986-1988
Title: The Innovative Contributions of Gautam N Shah
Introduction
Gautam N Shah is a notable inventor based in Warrington, PA, who has made significant contributions to the field of semiconductor technology. With a total of two patents to his name, Shah has developed innovative solutions that enhance the efficiency and accuracy of wire bonding processes in semiconductor manufacturing.
Latest Patents
Shah's latest patents include a bonding apparatus with means and method for automatic calibration and a low inertia movable workstation. The bonding apparatus incorporates a pattern recognition system that stores signatures representing predetermined points on a chip to be bonded. This system allows for automatic re-calibration by rotating the pedestal to four 90-degree spaced angles, finding recorded signatures, and calculating the true center of rotation. A specialized algorithm corrects any errors that may occur during the calibration process. The low inertia movable workstation is designed to hold a semiconductor device opposite the bonding tool of an automatic wire bonder. It features a retractable pedestal that is vertically and rotationally movable, allowing for precise positioning of the semiconductor device during bonding operations.
Career Highlights
Gautam N Shah is currently employed at Kulicke and Soffa Industries, Inc., a company renowned for its advancements in semiconductor equipment. His work focuses on improving wire bonding techniques, which are critical for the reliability and performance of semiconductor devices.
Collaborations
Shah has collaborated with notable colleagues, including Mark B Soffa and Mansur F Pagdiwala, who have contributed to the development of innovative technologies in the semiconductor industry.
Conclusion
Gautam N Shah's contributions to semiconductor technology through his patents and work at Kulicke and Soffa Industries, Inc. highlight his role as a key innovator in the field. His advancements in bonding apparatus and workstations continue to influence the efficiency of semiconductor manufacturing processes.