Company Filing History:
Years Active: 2018
Title: Michelle E Holt: Innovator in Motor Drive Technology
Introduction
Michelle E Holt is a prominent inventor based in Wauwatosa, WI (US). She has made significant contributions to the field of motor drive technology, particularly through her innovative patent that enhances the performance of motor controllers.
Latest Patents
Michelle holds a patent for a "Method for tuning a motor drive using frequency response." This invention discloses an improved system for tuning a motor controller. The controller gains are initially set based on the measured frequency response for the controlled system. A desired level of performance is defined by setting a desired phase margin and a desired gain margin to be observed in the frequency response. The method provides a reduced computational intensity for determining the frequency response. The initial tuning routine uses the frequency response to set not only controller gains but also settings for filters in the control module. After achieving the desired performance from the initial tuning, the motor drive executes an adaptive tuning routine while controlling the motor. This routine tracks changes in operating performance and adjusts the filter settings or controller gains to maintain the desired level of performance while the motor continues to operate.
Career Highlights
Michelle is currently employed at Rockwell Automation Technologies Incorporated, where she applies her expertise in motor drive systems. Her work has been instrumental in advancing the capabilities of motor controllers, making them more efficient and responsive to operational changes.
Collaborations
Michelle has collaborated with notable colleagues, including Aderiano M Da Silva and Brian Fast. Their combined efforts contribute to the innovative environment at Rockwell Automation Technologies Incorporated.
Conclusion
Michelle E Holt is a trailblazer in the field of motor drive technology, with her patent showcasing her commitment to improving system performance. Her work continues to influence the industry and drive advancements in motor control systems.