TY - JOUR
T1 - Potential induced degradation(PID) of crystalline silicon solar modules
AU - Bae, Soohyun
AU - Oh, Wonwook
AU - Kim, Soo Min
AU - Kim, Young Do
AU - Park, Sungeun
AU - Kang, Yoonmook
AU - Lee, Haeseok
AU - Kim, Donghwan
N1 - Publisher Copyright:
© Materials Research Society of Korea.
PY - 2014
Y1 - 2014
N2 - The use of solar energy generation is steadily increasing, and photovoltaic modules are connected in series to generate higher voltage and power. However, solar panels are exposed to high-voltage stress (up to several hundreds of volts) between grounded module frames and the solar cells. Frequent high-voltage stress causes a power-drop in the modules, and this kind of degradation is called potential induced degradation (PID). Due to PID, a significant loss of power and performance has been reported in recent years. Many groups have suggested how to prevent or reduce PID, and have tried to determine the origin and mechanism of PID. Even so, the mechanism of PID is still unclear. This paper is focused on understanding the PID of crystalline-silicon solar cells and modules. A background for PID, as well as overviews of research on factors accelerating PID, mechanisms involving sodium ions, PID test methods, and possible solutions to the problem of PID, are covered in this paper.
AB - The use of solar energy generation is steadily increasing, and photovoltaic modules are connected in series to generate higher voltage and power. However, solar panels are exposed to high-voltage stress (up to several hundreds of volts) between grounded module frames and the solar cells. Frequent high-voltage stress causes a power-drop in the modules, and this kind of degradation is called potential induced degradation (PID). Due to PID, a significant loss of power and performance has been reported in recent years. Many groups have suggested how to prevent or reduce PID, and have tried to determine the origin and mechanism of PID. Even so, the mechanism of PID is still unclear. This paper is focused on understanding the PID of crystalline-silicon solar cells and modules. A background for PID, as well as overviews of research on factors accelerating PID, mechanisms involving sodium ions, PID test methods, and possible solutions to the problem of PID, are covered in this paper.
KW - High voltage stress
KW - Photovoltaic modules
KW - Potential induced degradation
KW - Reliability
UR - http://www.scopus.com/inward/record.url?scp=84908608424&partnerID=8YFLogxK
U2 - 10.3740/MRSK.2014.24.6.326
DO - 10.3740/MRSK.2014.24.6.326
M3 - Article
AN - SCOPUS:84908608424
SN - 1225-0562
VL - 24
SP - 326
EP - 337
JO - Korean Journal of Materials Research
JF - Korean Journal of Materials Research
IS - 6
ER -