Performance of Mismatched PV Systems With Submodule Integrated Converters

Author

Olalla, Carlos ; Deline, Chris ; Maksimovic, Dragan

Author_Institution

Dept. of Electr., Rovira i Virgili Univ., Tarragona, Spain

Volume

4

Issue

1

fYear

2014

fDate

Jan. 2014

Firstpage

396

Lastpage

404

Abstract

Mismatch power losses in photovoltaic (PV) systems can be reduced by the use of distributed power electronics at the module or submodule level. This paper presents an experimentally validated numerical model that can be used to predict power production with distributed maximum power point tracking (DMPPT) down to the cell level. The model allows the investigations of different DMPPT architectures, as well as the impact of conversion efficiencies and power constraints. Results are presented for annual simulations of three representative partial shading scenarios and two scenarios where mismatches are due to aging over a period of 25 years. It is shown that DMPPT solutions that are based on submodule integrated converters offer 6.9-11.1% improvements in annual energy yield relative to a baseline centralized MPPT scenario.

Keywords

maximum power point trackers; photovoltaic power systems; power convertors; power electronics; DMPPT; aging; distributed maximum power point tracking; distributed power electronics; mismatch power loss; mismatched PV systems; photovoltaic systems; power production; submodule integrated converters; Aging; Computer architecture; Inverters; Microprocessors; Numerical models; Photovoltaic systems; Production; DC–DC converters; SubMICs; SubModule integrated converters; modeling and control of power electronics; photovoltaic modules; renewable energy systems;

fLanguage

English

Journal_Title

Photovoltaics, IEEE Journal of

Publisher

ieee

ISSN

2156-3381

Type

jour

DOI

10.1109/JPHOTOV.2013.2281878

Filename

6626584