Company Filing History:
Years Active: 1991
Title: Thomas A. Myers: Innovator in High-Speed Electrical Measurements
Introduction
Thomas A. Myers is a notable inventor based in Beaverton, OR (US). He has made significant contributions to the field of high-speed electrical measurements, particularly through his innovative patent. His work is essential for advancing the technology used in integrated circuits.
Latest Patents
Thomas A. Myers holds a patent for a "System for facilitating planar probe measurements of high-speed." This invention involves an adapter with a dielectric substrate that features an array of uniformly spaced, coplanar conductive strips and impedance standards. The adapter is designed to facilitate planar transmission line probe measurements of the high-speed electrical characteristics of packages or interconnect structures for high-speed integrated circuits. By connecting the conductive strips to the terminals of the package, the adapter simulates the integrated circuit connection, ensuring that the length and spacing of bond wires are substantially identical. This allows for realistic measurements of the integrated circuit's environment, including the bond wires. The specially designed impedance standards enable calibration to remove the effects of the adapter from the measurements.
Career Highlights
Thomas A. Myers is currently employed at Cascade Microtech, Inc., where he continues to work on innovative solutions in the field of electrical measurements. His expertise and contributions have been instrumental in enhancing the accuracy and reliability of high-speed measurements.
Collaborations
Some of his notable coworkers include Dale E. Carlton and Keith E. Jones. Their collaborative efforts contribute to the advancement of technology in their field.
Conclusion
Thomas A. Myers is a distinguished inventor whose work in high-speed electrical measurements has made a significant impact on the industry. His innovative patent and contributions at Cascade Microtech, Inc. highlight his dedication to advancing technology in integrated circuits.