In this paper, the use of the Dual Kalman Filter for the identification of photovoltaic system parameters is presented. The system includes the photovoltaic source, the dc/dc converter and the battery/dc bus and both its states and parameters in the actual operating conditions are identified. In particular, the proposed approach gives the confidence interval for the system settling time, which is used for the real-time optimization of the perturbative maximum power point tracking algorithm. The proposed technique is implemented by using a Field-Programmable Gate Array and it is validated by means of both simulation and experimental results.
Manganiello, P., Ricco, M., Petrone, G., Monmasson, E., Spagnuolo, G. (2015). Dual-Kalman-Filter-Based Identification and Real-Time Optimization of PV Systems. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 62(11), 7266-7275 [10.1109/TIE.2015.2475240].
Dual-Kalman-Filter-Based Identification and Real-Time Optimization of PV Systems
Ricco, Mattia;Spagnuolo, Giovanni
2015
Abstract
In this paper, the use of the Dual Kalman Filter for the identification of photovoltaic system parameters is presented. The system includes the photovoltaic source, the dc/dc converter and the battery/dc bus and both its states and parameters in the actual operating conditions are identified. In particular, the proposed approach gives the confidence interval for the system settling time, which is used for the real-time optimization of the perturbative maximum power point tracking algorithm. The proposed technique is implemented by using a Field-Programmable Gate Array and it is validated by means of both simulation and experimental results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
