IEEE Access (Jan 2022)

Centralized Control Topology for PV Farms Shading Detection and GMPP Searching Restarting Condition

  • Cesar A. Negri,
  • Saeed Daneshvardehnavi,
  • Konrad Erich Kork Schmitt,
  • Ali Esmaeel Nezhad,
  • Pedro H. J. Nardelli,
  • Stephen Bayne,
  • Michael G. Giesselmann

DOI
https://doi.org/10.1109/ACCESS.2022.3158739
Journal volume & issue
Vol. 10
pp. 28991 – 29008

Abstract

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The power output of the solar panels follows a power-voltage (P-V) characteristic containing only one Global Maximum Point (GMP) in the normal conditions. However, under Partial Shading Conditions (PSC), the unbalanced irradiance in the panels creates Local Maximum Points (LMP) in the P-V curve. Standard control techniques for Maximum Power Point Tracking (MPPT) can not properly locate the GMP, stagnating in LMPs and generating losses in the energy harvesting. Specific techniques to locate the GMP are presented in the literature. However, the condition to restart the GMP is not widely discussed. The main challenges of global search algorithms are related to the restarting conditions. Avoiding unnecessary searching and providing an assertive GMP restarting condition is crucial for PV systems operation. In every GMP search, the solar inverters oscillate the power exchanged with the grid, causing frequency and voltage variations depending on the size of the PV plant. This paper proposes a novel technique that uses a centralized controller to identify the shaded inverters, creating flags that locally start the GMP searching. The solution minimizes the number of times the search is performed by providing an assertive GMP restarting condition, saving energy, and avoiding unnecessary output power oscillation. The proposed control technique was evaluated using the data of a real 150-kW solar farm containing five inverters with two MPPT trackers each.

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