The Impact of Measurement Conditions on Solar Cell Efficiency
Precise solar cell measurements become more and more challenging due to the increasing complexity of metallization patterns and the sensitivity to rear side illumination for bifacial cell concepts. In this context, the measurement conditions under which conversion efficiencies are determined need to...
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| Published in | Solar RRL Vol. 8; no. 3 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.02.2024
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Precise solar cell measurements become more and more challenging due to the increasing complexity of metallization patterns and the sensitivity to rear side illumination for bifacial cell concepts. In this context, the measurement conditions under which conversion efficiencies are determined need to be closely examined: Different efficiency values can occur for the same solar cell because of different measurement conditions. To provide more transparency, a notation has recently been published, which unambiguously characterizes the measurement conditions used and which is included in the calibration documents of the calibration laboratories ISFH CalTeC and Fraunhofer ISE CalLab PV Cells. As this notation is held rather technical and no quantitative assessment is given so far, herein, the effects associated with different measurement conditions are analyzed and quantified in detail for typical industrial‐type solar cells. It is shown that varying the measurement conditions as well as the busbar concept can lead to significant differences in measured efficiency of 0.5%abs. The power gains coming from different cell measurement configurations do not occur in the same manner on the module level though and can lead to considerable variations in cell‐to‐module power factors. Several hints to increase the significance of solar cell measurements are given.
The effect of measurement conditions on the current–voltage characteristics is evaluated in detail. It is shown that varying the measurement conditions can lead to significant differences in measured efficiency, which do not occur in the same manner on the module level. This entails considerable variations in cell‐to‐module power factors. Hints to increase the significance of solar cell measurements are given. |
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| AbstractList | Precise solar cell measurements become more and more challenging due to the increasing complexity of metallization patterns and the sensitivity to rear side illumination for bifacial cell concepts. In this context, the measurement conditions under which conversion efficiencies are determined need to be closely examined: Different efficiency values can occur for the same solar cell because of different measurement conditions. To provide more transparency, a notation has recently been published, which unambiguously characterizes the measurement conditions used and which is included in the calibration documents of the calibration laboratories ISFH CalTeC and Fraunhofer ISE CalLab PV Cells. As this notation is held rather technical and no quantitative assessment is given so far, herein, the effects associated with different measurement conditions are analyzed and quantified in detail for typical industrial‐type solar cells. It is shown that varying the measurement conditions as well as the busbar concept can lead to significant differences in measured efficiency of 0.5%abs. The power gains coming from different cell measurement configurations do not occur in the same manner on the module level though and can lead to considerable variations in cell‐to‐module power factors. Several hints to increase the significance of solar cell measurements are given.
The effect of measurement conditions on the current–voltage characteristics is evaluated in detail. It is shown that varying the measurement conditions can lead to significant differences in measured efficiency, which do not occur in the same manner on the module level. This entails considerable variations in cell‐to‐module power factors. Hints to increase the significance of solar cell measurements are given. |
| Author | Hohl-Ebinger, Jochen Hinken, David Fell, Andreas Bothe, Karsten Wöhler, Wilkin Rauer, Michael Schubert, Martin C. Reichel, Christian |
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| References | 2021; 47 2017; 7 2023 2017; 36 2010 2021 2020 2017; 56 2016; 32 2019 2017 2016 2022; 30 2017; 173 2014 1991 2014; 131 2022; 236 2022; 248 |
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| SubjectTerms | current–voltage (I–V) measurements measurement conditions significance of measurements silicon solar cells solar cell efficiencies tables |
| Title | The Impact of Measurement Conditions on Solar Cell Efficiency |
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