Company Filing History:
Years Active: 2012
Title: Amy L. Stachowiak: Innovator in Power Supply Technologies
Introduction
Amy L. Stachowiak is a prominent inventor based in Wauwatosa, WI (US). She has made significant contributions to the field of power supply technologies, holding a total of 3 patents. Her work focuses on enhancing the efficiency and reliability of power systems in networked environments.
Latest Patents
Stachowiak's latest patents include innovative systems and methods for employing on-machine power supplies with monitoring and control capabilities. One of her notable inventions describes a method for providing power to devices in a network while coordinating the actions of multiple power supplies. This method ensures the maintenance of connectivity for communication signals and ground between upstream and downstream portions of the network. It also features a logic component that monitors the power status of upstream power supplies and initiates coordinated power cycles when necessary.
Another significant patent involves an on-machine power supply with integral coupling features. This invention allows for the termination of power from an upstream supply while preserving communication signals and ground connectivity. The logic feature in this power supply also monitors its own power status and that of upstream supplies, ensuring seamless operation during power cycles.
Career Highlights
Amy L. Stachowiak is currently employed at Rockwell Automation Technologies Incorporated, where she continues to develop cutting-edge solutions in power supply technology. Her expertise and innovative approach have positioned her as a key player in her field.
Collaborations
Stachowiak has collaborated with notable colleagues, including James Furukawa and Nicholas R. Goebel, contributing to advancements in their shared areas of expertise.
Conclusion
Amy L. Stachowiak's contributions to power supply technologies demonstrate her commitment to innovation and excellence. Her patents reflect a deep understanding of the complexities involved in networked power systems, making her a valuable asset to the field.