John David Schell

Title: John David Schell: Innovator in Voltage Management Technologies

Introduction

John David Schell is a notable inventor based in Round Rock, TX (US). He has made significant contributions to the field of electronic circuit design, particularly in voltage management technologies. With a total of 2 patents, Schell's work has had a meaningful impact on how electronic devices manage voltage requests.

Latest Patents

Schell's latest patents include innovative solutions that address voltage management in computer systems. The first patent, titled "Voltage Request Arbiter," describes various embodiments of a circuit and method for arbitrating voltage requests in a computer system. In this invention, multiple devices assert a plurality of voltage requests, which are then processed by an arbiter that outputs a single voltage request. This ensures that all devices receive the same voltage, even if they initially requested different voltages. The second patent, "Voltage-Dependent Impedance Selector for Non-Linearity Compensation," focuses on compensating for non-linearities that occur when the operating voltage of an electronic circuit changes. This selector includes a selection stage that chooses an impedance based on the circuit's operating voltage, effectively forming a voltage divider with an output stage.

Career Highlights

John David Schell is currently employed at Advanced Micro Devices Corporation, where he continues to innovate in the field of electronic design. His work at AMD has allowed him to collaborate with other talented engineers and contribute to cutting-edge technologies.

Collaborations

Schell has worked alongside notable colleagues such as Edward C Guerrero, Jr. and Jamie Juarez. Their collaborative efforts have further advanced the development of innovative solutions in voltage management.

Conclusion

John David Schell's contributions to voltage management technologies through his patents demonstrate his expertise and commitment to innovation in the field of electronics. His work continues to influence the design and functionality of electronic devices today.