Company Filing History:
Years Active: 2025
Title: Samuel Graham Parler, Jr.: Innovator in Capacitor Technology
Introduction
Samuel Graham Parler, Jr. is a notable inventor based in Clemson, South Carolina, recognized for his contributions to capacitor technology. With a significant patent to his name, Parler represents the innovative spirit of modern engineering and electronic design.
Latest Patents
Parler holds a patent for a capacitor assembly that features a unique design comprising multiple capacitor elements, specifically four or more, with each element having defined polarity terminals. This design allows for a compact and efficient arrangement of capacitor elements, which are stacked in pairs, optimizing their electrical configuration. The elements are housed within a protective casing, and the assembly includes both first and second polarity bus bars to facilitate electrical connections. The design allows these capacitor elements to be connected in parallel, enhancing their functionality and performance.
Career Highlights
Parler's career includes significant contributions while working at Cornell-Dubilier Corporation, a leading company in the production of capacitors and electronic components. His innovative approach to capacitor assembly design showcases his expertise and commitment to advancing technology in the field.
Collaborations
Throughout his career, Parler has collaborated with several talented individuals, including Paul Mathew Jan Jorissen, Jr. and Brian Lowell Padelford. These collaborations highlight the importance of teamwork in driving innovation and developing advanced technologies in the electronics sector.
Conclusion
Samuel Graham Parler, Jr. continues to be an influential figure in the field of electronic design and capacitor technology. His patent for an innovative capacitor assembly showcases his ability to improve existing technologies, and his work at Cornell-Dubilier Corporation exemplifies the collaborative effort in advancing electronic components. As the industry evolves, Parler's contributions remain significant in the quest for more efficient and effective electrical solutions.