Title :
Model-Based Method for Partially Shaded PV Module Hot-Spot Suppression
Author :
Spanoche, S.A. ; Stewart, J.D. ; Hawley, S.L. ; Opris, I.E.
Author_Institution :
ArrayPower, Inc., Sunnyvale, CA, USA
Abstract :
Hot-spot suppression is a new method to operate a photovoltaic (PV) module that prevents the formation of hot spots with no need for bypass diodes. By comparing the operating voltage, current, and temperature with an intrinsic I(V) model that is based on calibrated flash test data, hot-spot suppression determines the solar modules´ shading condition and, if required, seeks a new operating power point that reduces the formation of hot spots on shaded cells. Hot-spot suppression works in concert with a model-based maximum power-point-tracking algorithm to seek the best operating point for the maximum output power while limiting stress on shaded cells on the solar module. Theoretical and experimental results show that the power density dissipated in the shaded cell(s) is reduced by a factor of 4 when the operating conditions are determined by hot-spot suppression.
Keywords :
electrical conductivity; solar cells; calibrated flash test data; intrinsic I(V) model; model-based maximum power-point-tracking algorithm; model-based method; operating current; operating power; operating temperature; operating voltage; output power; partially shaded PV module hot-spot suppression; photovoltaic module; power density; shaded cells; solar module shading condition; Current measurement; Mathematical model; Schottky diodes; Temperature; Temperature measurement; Voltage control; Voltage measurement; Modeling; PV cells; nonlinear dynamical systems; photovoltaic (PV) systems; power system control; solar power generation;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2012.2230054
