The performance of Building integrated photovoltaic (BIPV) depends on the incident solar radiation, photovoltaic (PV) cell temperature, location and orientations of the building. In this work, the building integrated photovoltaic phase change material (BIPV-PCM) module has been developed to enhance the performance of the BIPV system by regulating its PV cell temperature using PCM. The BIPV and BIPV-PCM system performance has been assessed outdoors by installing it on the facades of experimental room at Kovilpatti (9 degrees 10'0 '' N, 77 degrees 52'0 '' E), Tamil Nadu, and India. The thermal regulation of the system is provided with inorganic glauber salt (Na2SO4 center dot 10H(2)O) phase change material (PCM). The improvement in electrical and thermal performance of the BIPV due to the incorporation of PCM is studied. The various parameters such as power generation, solar heat gain, module surface temperatures and electrical efficiency are analysed. On observation, it is found that BIPV-PCM maintained lower peak instantaneous temperature than the reference BIPV, leading to improved BIPV-PCM cell conversion efficiencies. The experimental results show that BIPV- PCM electrical efficiency is increased by 10% while its surface temperature is reduced up to 8 degrees C than the reference BIPV module. (C) 2017 Elsevier Ltd. All rights reserved.