This Building Integrated Photo-Voltaics suffer for mismatching among the operating conditions of different regions of installations. Safety is another typical concern. In this work, we propose to face both issues by arranging the solar array in several sections provided with individual converters, capable to operate in the MPPT mode. Each converter is insulated, so that several converters are connected in series in order to reach the desired dc-link voltage, while maintaining the maximum voltage across the solar array within safety limits. The approach was tested by means of a demonstrator consisting of N=3 flyback converters. Each converter was equipped with separate MPPT. The proposed system was characterised under variable shading conditions. We verified that the dc-link voltage tends to distribute among outputs of single module converters proportionally to the respective input power. In the presence of high levels of shading it was advantageous with respect to other PV plant configurations.
Modular MPPT Converter with Series-Connection for PV Installations Embedded in the Urban Environment / Macellari, Michele; Grasselli, Umberto; Schirone, Luigi. - (2013), pp. 1755-1760. (Intervento presentato al convegno IECON 2013 - 39th Annual Conference of the IEEE Industrial-Electronics-Society tenutosi a Vienna nel 10-14 NOV 2013) [10.1109/IECON.2013.6699397].
Modular MPPT Converter with Series-Connection for PV Installations Embedded in the Urban Environment
MACELLARI, MICHELE;GRASSELLI, Umberto;SCHIRONE, Luigi
2013
Abstract
This Building Integrated Photo-Voltaics suffer for mismatching among the operating conditions of different regions of installations. Safety is another typical concern. In this work, we propose to face both issues by arranging the solar array in several sections provided with individual converters, capable to operate in the MPPT mode. Each converter is insulated, so that several converters are connected in series in order to reach the desired dc-link voltage, while maintaining the maximum voltage across the solar array within safety limits. The approach was tested by means of a demonstrator consisting of N=3 flyback converters. Each converter was equipped with separate MPPT. The proposed system was characterised under variable shading conditions. We verified that the dc-link voltage tends to distribute among outputs of single module converters proportionally to the respective input power. In the presence of high levels of shading it was advantageous with respect to other PV plant configurations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.