Chauncey L Everett

Title: Chauncey L Everett: Innovator in Noninverting Amplifier and Memory Cell Circuits

Introduction

Chauncey L Everett is a notable inventor based in Richardson, TX (US). He has made significant contributions to the field of electronics, particularly in the development of noninverting amplifier circuits and static memory cells. With a total of 2 patents, his work has advanced the capabilities of complex logic systems.

Latest Patents

Everett's latest patents include a "Noninverting amplifier circuit for one propagation delay complex logic" and a "Static noninverting memory cell for one propagation delay memory circuits." The noninverting amplifier circuit is designed to be compatible with field effect transistor logic, including depletion-mode Schottky barrier field effect transistor (MESFET) inverting logic gates. This circuit utilizes field effect transistors (FET) and diodes to amplify input voltage signals without inversion. Additionally, it incorporates features that enable the performance of 'AND' and 'OR' logic functions.

The static noninverting memory cell is compatible with both inverting and noninverting field effect transistor logic. It employs a combination of transistors and diodes to register and retain logic states. This memory cell can be integrated with noninverting logic gates to create one propagation delay D type and D bar type flip-flop memory circuits.

Career Highlights

Chauncey L Everett has been associated with Texas Instruments Corporation, where he has contributed to various innovative projects. His expertise in electronic circuits has positioned him as a valuable asset in the field of technology.

Collaborations

Some of his notable coworkers include Theodore Warren Houston and Henry M Darley. Their collaborative efforts have further enhanced the development of advanced electronic solutions.

Conclusion

Chauncey L Everett's contributions to noninverting amplifier circuits and memory cells have significantly impacted the electronics industry. His innovative patents reflect a deep understanding of complex logic systems and their applications.