The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed.
COMPARISON OF DIFFERENT CONTROL TECHNIQUES FOR ACTIVE FILTER APPLICATIONS / S., Meo; Perfetto, Aldo. - STAMPA. - Volume 22 - Issue 5:(2002), pp. P016-1-P016-6. (Intervento presentato al convegno IEEE Fourth International Caracas Conference on Devices, Circuits and Systems ICCDCS tenutosi a Aruba, Dutch Caribbean nel 17 - 19 April 2002).
COMPARISON OF DIFFERENT CONTROL TECHNIQUES FOR ACTIVE FILTER APPLICATIONS
PERFETTO, ALDO
2002
Abstract
The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed. The paper presents a comparison among different current control techniques for active power filter. The fixed-frequency hysteresis controller, the predictive controller and the neural controller are considered and different performance, achieved by the three controls, in a typical active power filter application are shown and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
