Company Filing History:
Years Active: 1985-1987
Title: Anil Gupta: Innovator in Semiconductor Technology
Introduction
Anil Gupta is a prominent inventor based in Sunnyvale, California, known for his significant contributions to semiconductor technology. With a total of four patents to his name, Gupta has made notable advancements in the field of memory arrays and charge pump designs.
Latest Patents
Gupta's latest patents include a charge pump designed for providing programming voltages to the word lines of a semiconductor memory array. This innovative charge pump is configured as a combination of enhancement and native MOS transistors. It effectively prevents DC current from flowing from the source of the programming voltage to ground through unselected word lines. This design allows for the creation of semiconductor programmable memory arrays that feature on-chip programming voltage generation, enabling operation from a single voltage power supply. Another significant patent involves a method and apparatus for transferring a signal from a high voltage, low current source to a word select line in an electrically erasable, programmable read-only memory. This method generates a control signal that is incremented in magnitude over time, ensuring that the signal level on the desired word select line gradually increases to the high voltage level.
Career Highlights
Throughout his career, Anil Gupta has worked with several notable companies, including Seeq Technology, Incorporated and Exel Microelectronics, Inc. His work has significantly impacted the development of semiconductor technologies and memory systems.
Collaborations
Gupta has collaborated with esteemed professionals in the industry, including George Perlegos and Cheen P Doung. These collaborations have further enhanced his contributions to the field.
Conclusion
Anil Gupta's innovative work in semiconductor technology and his patents reflect his expertise and dedication to advancing the industry. His contributions continue to influence the design and functionality of modern memory systems.