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Switched reluctance motors are particularly attractive due to their simple structure. The control of this machine type requires the instants, to switch the currents in the motor phases in an appropriate sequence. These switching instants are determined either based on a position sensor, or on signals generated by a sensorless method. A very simple sensorless method uses the switching frequency of the hysteresis controllers used for phase current control. This paper first presents an automatic commissioning method for this sensorless method and second a startup procedure, thus enhancing this approach towards an application in industry.
Eine Organisation hin zur Klimaneutralität zu transformieren, ist nicht nur Neuland für praktisch jeden, der loslegt: Es geht los mit dem „Wollen“, also dem Ziel, dann wird der Weg skizziert, und schließlich muss es auch noch jemand umsetzen. Aus ihren Projekten der Begleitung von Organisationen auf dem Weg zur Klimaneutralität erscheint den Autoren folgende Erfahrung des Geschäftsführers Philipp Tiefenbach der Dorfbäckerei Tiefenbach, St. Johann-Würtingen, besonders treffend: „Machen ist wie Wollen, nur krasser.“ Für eine Kommune gerät dieser Prozess zu einem „wicked problem“. Sechs Lösungswege für Kommunen erscheinen attraktiv.
The current paper proposes a design method for an active damping approach for LC output filters in a power stage for motor control with continuous output voltage. The power stage uses GaN-HEMTs and operates at switching frequencies in a range between 500 kHz and 1MHz. The active damping of the output filter is achieved here by a feedback of the filter inductor current using a high-pass structure. The paper discusses the impact of this feedback on the system behavior and proposes a design method.
Class Phi2 amplifier using GaN HEMTs at 13.56MHz with tuned transformer for wireless power transfer
(2022)
This paper discusses a design procedure of a wireless power transfer system at a RF switching frequency of 13.56MHz. The wireless power transfer amplifier uses GaN HEMTs in aClass phi2 topology and is designed in order to achieve high efficiency and high power density. A design method for the load over a certain bandwidth is presented for a transformer with its tuning network.