Company Filing History:
Years Active: 1988
Title: James A. Topich: Innovator in Nonvolatile Memory Technology
Introduction
James A. Topich was a notable inventor known for his contributions to the field of nonvolatile memory technology. He was based in Centerville, OH (US) and held a total of 2 patents during his career. His innovative work has had a lasting impact on the electronics industry.
Latest Patents
Among his latest patents, Topich developed a Nonvolatile Multiconfigurable Circuit. This invention features a multiconfigurable integrated circuit that includes both volatile and nonvolatile segments. It allows for high-frequency data entry and transfer in the volatile segment while enabling the nonvolatile storage of previously entered data. The circuit is designed to facilitate the interconnection of multiple circuits and the addition of analog switches, creating electronic equivalents of DIP switches and various other multiple pole selectively controlled switching configurations.
Another significant patent is the High-Speed Nonvolatile Memory Cell. This invention describes a direct write differential nonvolatile memory cell that boasts high-speed read sensing and the ability to write without a prior erase operation. The design maximizes cell density while providing complementary differential operation, utilizing a pair of cross-coupled, capacitively complementary floating gate electrodes.
Career Highlights
James A. Topich worked at NCR Corporation, where he made significant advancements in memory technology. His work contributed to the development of innovative solutions that enhanced the performance and efficiency of electronic devices.
Collaborations
Topich collaborated with notable coworkers such as Raymond A. Turi and George C. Lockwood, who were instrumental in the development of various projects during his tenure.
Conclusion
James A. Topich's contributions to nonvolatile memory technology have left a lasting legacy in the field of electronics. His innovative patents continue to influence the design and functionality of modern electronic devices.