Bifacial solar cell measurements under standard test conditions and the impact on cell-to-module loss analysis

Bifacial solar cell measurements under standard test conditions and the impact on cell-to-module loss analysis

Bifacial cells are conventionally measured using gold-plated chuck, which is conductive and reflective. This measurement setup does not portray the actual operating conditions of the bifacial cells in a module. The reflective chuck causes an overestimation of the current due to the cell transmittanc...

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Bibliographic Details
Published in:Japanese Journal of Applied Physics Vol. 56; no. 8S2; pp. 8 - 12
Main Authors: Singh, Jai Prakash, Chai, Jing, Saw, Min Hsian, Khoo, Yong Sheng
Format: Journal Article
Language:English
Published: Tokyo The Japan Society of Applied Physics 01-08-2017
Japanese Journal of Applied Physics
Subjects:
Chucks
Gold
Impact analysis
Infrared radiation
Mathematical analysis
Photovoltaic cells
Quantum efficiency
Reflectance
Transmittance
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Summary:Bifacial cells are conventionally measured using gold-plated chuck, which is conductive and reflective. This measurement setup does not portray the actual operating conditions of the bifacial cells in a module. The reflective chuck causes an overestimation of the current due to the cell transmittance for the infrared light. The conductive chuck creates a shorter current flow path in the rear side of the cell and causes an over inflation of the fill factor measurement. In this study, we characterize and quantitatively analyze the difference between the bifacial cell measurements on different mounting chucks and calculate the cell-to-module (CTM) loss. To characterize the optical behavior of the bifacial cell and module, we perform external quantum efficiency, reflectance and transmittance measurements. The electrical behavior of the bifacial cell is studied using in-house developed software Griddler. Using Griddler, we calculate the difference in the fill factor of the bifacial cell due to the measurement using a conductive and non-conductive chuck, and estimate the corresponding CTM resistive losses.
ISSN:0021-4922
1347-4065
DOI:10.7567/JJAP.56.08MD04