Company Filing History:
Years Active: 2024
Title: Thomas Guillemin: Innovator in Current Transducer Technology
Introduction
Thomas Guillemin is an accomplished inventor based in Sillingy, France. He has made significant contributions to the field of electrical engineering, particularly in the development of current transducer technology. His innovative approach has led to the creation of a unique patent that enhances the functionality and efficiency of current measurement systems.
Latest Patents
Guillemin holds a patent for a current transducer, which is a sophisticated device designed to measure electrical currents. The patent describes a current transducer comprising a housing that includes a base and a cover. Within the housing, a magnetic circuit is mounted, which consists of a magnetic core and at least one coil wound around it. The electric circuit features a first circuit board that houses a signal processing circuit connected to both the magnetic field detector and the coil. Additionally, a second circuit board with one or more power amplifiers is integrated within a metallic support substrate that forms the outer layer of the cover. This innovative design allows for efficient electrical interconnections between the two circuit boards.
Career Highlights
Thomas Guillemin is currently associated with Lem International SA, a company known for its advancements in electrical measurement technologies. His work at Lem International SA has allowed him to further develop his expertise and contribute to cutting-edge innovations in the industry. Guillemin's dedication to his craft is evident in the quality and impact of his inventions.
Collaborations
Guillemin collaborates with Fabien Millet, a fellow innovator in the field. Their partnership exemplifies the spirit of teamwork and shared knowledge that drives innovation forward.
Conclusion
Thomas Guillemin is a notable inventor whose work in current transducer technology has made a significant impact in the field of electrical engineering. His innovative designs and collaborations continue to push the boundaries of what is possible in electrical measurement systems.