Company Filing History:
Years Active: 1977
Title: The Innovations of James A Marley, Jr.
Introduction
James A Marley, Jr. is an accomplished inventor based in Saratoga, California. With a focus on electronic memory technologies, he has made significant contributions to the field of semiconductor devices. His innovative work has led to the development of a unique patent that addresses methods of storing and retrieving information efficiently.
Latest Patents
Marley holds one patent titled "Single Bipolar Transistor Memory Cell and Method." This invention introduces a single bipolar transistor memory cell designed to store information on the collector to substrate capacitance. The design enhances capacitance through an additional diffused region. Notably, the storage and retrieval of information in this memory cell are facilitated by only two leads connected to the transistor. During a portion of the memory cycle, a section of the base is fully depleted, optimizing the performance of the memory cell.
Career Highlights
Marley has had a notable career, working with Signetics, a key player in the semiconductor industry. His role at Signetics has allowed him to be at the forefront of technological advancements, particularly in memory cell designs that drive modern electronics. His contributions reflect a deep understanding of both theoretical and practical applications within the electronics field.
Collaborations
Throughout his career, Marley has collaborated with talented individuals, including his coworker Bohumil Polata. Together, they have contributed to the development of innovative technologies that push the boundaries of what is possible in memory and processing architecture.
Conclusion
James A Marley, Jr. stands out as a significant figure in the realm of semiconductor inventions. His patent on the single bipolar transistor memory cell showcases his ability to innovate and influence the industry. As advancements in technology continue to evolve, the contributions of inventors like Marley remain essential in shaping the future of electronic memory systems.