Company Filing History:
Years Active: 2015-2016
Title: Douglas L. Senne: Innovator in High Voltage Safety Systems
Introduction
Douglas L. Senne, an accomplished inventor based in Warren, OH, has made significant contributions to the field of electrical engineering through his innovative designs. With a total of two patents to his name, Senne is known for his work on safety systems integrated into high voltage network grounding switches.
Latest Patents
One of Douglas L. Senne's latest patents is focused on a safety system for high voltage network grounding switches. The invention addresses the need for a more sophisticated and reliable safety mechanism within liquid-insulated high voltage network grounding switches. This safety system includes structural modifications that allow for more efficient installation and greater precision compared to conventional systems. The end result is a switch assembly that not only meets updated IEEE/ANSI standards but also fits seamlessly into existing vault spaces designed for earlier switch gear.
Career Highlights
Douglas L. Senne is currently employed at Quality Switch, Inc., where he applies his expertise to develop advanced electrical safety solutions. His innovative designs and patents showcase his commitment to enhancing safety and efficiency in electrical systems.
Collaborations
Throughout his career, Senne has collaborated with talented individuals like Adam Sewell and Jeremy Sewell, contributing to a culture of innovation and teamwork at Quality Switch, Inc. These collaborations have led to the successful development of groundbreaking technologies in the electrical engineering sector.
Conclusion
Douglas L. Senne stands as a noteworthy figure in the realm of electrical innovations. His contributions, particularly in the area of high voltage safety systems, reflect his dedication to improving industry standards and ensuring safety in electrical infrastructure. As technology continues to evolve, inventors like Senne will play a crucial role in shaping the future of electrical safety and efficiency.