Tad Davies

Title: The Innovations of Tad Davies

Introduction

Tad Davies is an accomplished inventor based in Puyallup, WA (US). He has made significant contributions to the field of semiconductor technology, particularly in the development of high-performance bipolar transistors. His innovative approach has led to advancements that enhance the efficiency and performance of electronic devices.

Latest Patents

Tad Davies holds a patent for "Reducing base resistance of a BJT by forming a self-aligned silicide." This invention focuses on a high-performance bipolar transistor and its fabrication method. The patent addresses the reduction of base resistance by utilizing a self-aligned silicide formed in the single-crystal region of the extrinsic base. This technique effectively eliminates the polysilicon to single-crystal contact resistance and minimizes the resistance of the single-crystal extrinsic base region. The process involves selectively removing oxide from the sidewall of the polysilicon local interconnection before silicide formation, resulting in significant reductions in interconnection resistance, especially for sub-micron geometries. Additionally, the patent discloses improved techniques for forming field oxide regions and base regions of bipolar transistors.

Career Highlights

Tad Davies has had a notable career at National Semiconductor Corporation, where he has applied his expertise in semiconductor technology. His work has contributed to the advancement of high-performance electronic components, making a lasting impact on the industry.

Collaborations

Throughout his career, Tad has collaborated with talented individuals such as Alan G Solheim and Bamdad Bastani. These collaborations have fostered innovation and have played a crucial role in the development of new technologies.

Conclusion

Tad Davies is a prominent inventor whose work in semiconductor technology has led to significant advancements in bipolar transistors. His innovative patent demonstrates his commitment to improving electronic performance and efficiency. His contributions continue to influence the field and inspire future innovations.