Company Filing History:
Years Active: 2018
Title: Innovations of Harald Gietler in Switching Converters
Introduction
Harald Gietler is a notable inventor based in Villach, Austria. He has made significant contributions to the field of electrical engineering, particularly in the area of switching converters. With a total of 2 patents, Gietler's work focuses on enhancing the efficiency and performance of these devices.
Latest Patents
Gietler's latest patents include innovative methods for controller tuning in switching converters. The first patent, titled "Controller tuning using perturbation sequence," describes a device that determines a set of perturbed duty cycle values for a converter. This device superimposes a perturbation sequence onto the duty cycle value for each phase of the converter. It also determines the output voltage of the converter based on these perturbed values and tunes the controller accordingly.
The second patent, "Controller tuning using duty cycle mismatch," involves a device that generates an effective duty cycle value based on the voltage at a switching node. This device calculates a duty cycle mismatch value using a composite command duty cycle value and the effective duty cycle value. It outputs a candidate natural frequency value of the converter that corresponds to the maximum duty cycle mismatch.
Career Highlights
Harald Gietler is currently employed at Infineon Technologies AG, where he continues to develop innovative solutions in the field of power electronics. His work has been instrumental in advancing the technology behind switching converters, making them more efficient and reliable.
Collaborations
Gietler collaborates with talented colleagues such as Marc Kanzian and Andreas Berger. Together, they contribute to the ongoing research and development efforts at Infineon Technologies AG.
Conclusion
Harald Gietler's contributions to the field of switching converters through his patents and work at Infineon Technologies AG highlight his role as an influential inventor. His innovative approaches to controller tuning are paving the way for advancements in power electronics.