The performance optimization of photovoltaic panels in terms of energy production can be achieved by means of hardware and strategy control improvement. As well known the tracking algorithm deciding the working point of the system is key for the system efficiency. An algorithm category featuring good performance both in static and dynamic condition is that of model based maximum power point tracker. In this paper an optimization of the estimation of the model parameter is presented. The new estimation approach guarantees better performance in terms of energy generated by the modeled photovoltaic panel. Moreover, the estimation is more robust being less dependent on data measured in not optimal condition such as during partial shading.

Model-Based MPPT Parameter optimization for Photovoltaic Panels

Loredana Cristaldi;Marco Faifer;Christian Laurano;Roberto Ottoboni;Sergio Toscani;Michele Zanoni
2019-01-01

Abstract

The performance optimization of photovoltaic panels in terms of energy production can be achieved by means of hardware and strategy control improvement. As well known the tracking algorithm deciding the working point of the system is key for the system efficiency. An algorithm category featuring good performance both in static and dynamic condition is that of model based maximum power point tracker. In this paper an optimization of the estimation of the model parameter is presented. The new estimation approach guarantees better performance in terms of energy generated by the modeled photovoltaic panel. Moreover, the estimation is more robust being less dependent on data measured in not optimal condition such as during partial shading.
2019
Conference Record - 2019 International Conference on Clean Electrical Power (ICCEP)
978-1-7281-1356-2
ELETTRICI
Maximum power point trackers, Optimization methods, Photovoltaic systems.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1119967
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