Company Filing History:
Years Active: 2021-2022
Title: Innovative Contributions of Matthew Lee in Functional Safety Applications
Introduction
Matthew Lee, an accomplished inventor based in Chandler, AZ, has made significant strides in the field of processor and chipset continuity testing. With a total of two patents to his name, his work is instrumental in enhancing functional safety applications, showcasing his commitment to innovation in technology.
Latest Patents
Matthew Lee's most notable patent is focused on methods and apparatus relating to processor and chipset continuity testing of package interconnect for functional safety applications. This innovation describes a unique approach where voltage divider logic circuitry divides a reference voltage. The controller logic circuitry then compares a divided voltage value from a node of the voltage divider with a threshold voltage value. The setup includes a first end of the voltage divider connected to the reference voltage and a second end connected to a Non-Critical-To-Function (NCTF) solder ball. Notably, the controller logic circuitry generates an error signal when there is a mismatch, ensuring reliability and accuracy in functional safety applications.
Career Highlights
Matthew Lee currently works at Intel Corporation, a leading company in the semiconductor industry. His role at Intel allows him to contribute to cutting-edge technologies that shape the future of computing and processing.
Collaborations
Throughout his career, Matthew has collaborated with talented individuals such as Benedict C Ofuonye and Erich Nolan Ewy. These collaborations have likely fostered an environment of innovation and creativity, enabling him to develop advanced solutions in his field.
Conclusion
In summary, Matthew Lee's contributions through his patents exemplify the spirit of innovation in technology. His work not only enhances the functionality and safety of semiconductor systems but also reflects his dedication to advancing the industry. As he continues to innovate, his impact on functional safety applications will likely set new standards for future developments.