This paper utilizes the cell-to-module-to-array model to investigate the effects of temperature and shading on the performance of a photovoltaic (PV) array. Three shading conditions for a PV array were investigated: (1) each module operates at the same cell temperature, but at a different irradiation level; (2) each module operates at the same irradiation level, but at a different cell temperature; (3) each module operates at a different cell temperature and irradiation level. Current voltage (I-V) and power voltage (P-V) curves were calculated from model results for each shading condition and the effect of the bypass diode. Model results were used to determine the optimal configuration depending on the shading condition. Outdoor experiments were performed to validate model results using a four module array composed of Kyocera's KC85TS PV panels. Measured I-V and P-V curves were obtained for different configurations of the PV array under natural shading conditions. Model results and outdoor measurement show good agreement and reveal that I-V curves display step behavior while P-V curves exhibit multiple extrema behavior.

• 出版日期2013-9
• 单位深圳职业技术学院