Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes

Afsaneh Eghbali; Petri Kärhä; Erkki Ikonen; Ingo Kröger; Michael Rauer; S. Kasimir Reichmuth; Jochen Hohl-Ebinger; Gabriele Friesen; Flavio Valoti; Giovanni Bellenda; Yean San Long; Min An Tsai; Karsten Bothe; David Hinken; Diego Pavanello; Harald Müllejans; Fatima Mašić; Srđan Čalija; Vladimir Milojević; Ankit Mittal; Marcus Rennhofer; Stefan Winter

doi:10.1016/j.rineng.2026.110740

Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes

Afsaneh Eghbali^*
, Petri Kärhä
, Erkki Ikonen
, Ingo Kröger
, Michael Rauer
, S. Kasimir Reichmuth
, Jochen Hohl-Ebinger
, Gabriele Friesen
, Flavio Valoti
, Giovanni Bellenda
, Yean San Long
, Min An Tsai
, Karsten Bothe
, David Hinken
, Diego Pavanello
, Harald Müllejans
, Fatima Mašić
, Srđan Čalija
, Vladimir Milojević
, Ankit Mittal

Marcus Rennhofer, Stefan Winter

^*Corresponding author for this work

SU12 VTT MIKES

Aalto University
German National Metrology Institute (PTB)
Fraunhofer Institute for Solar Energy Systems ISE
University of Freiburg
University of Applied Sciences and Arts of Southern Switzerland (SUPSI)
Industrial Technology Research Institute (ITRI)
Institute for Solar Energy Research in Hamelin (ISFH)
European Commission
Joint Research Centre (JRC), Ispra
Institute of Metrology of Bosnia and Herzegovina (IMBiH)
Austrian Institute of Technology (AIT)

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

This paper presents the results of an interlaboratory comparison of four adapted reference solar cells, carried out among nine metrological institutes, including eight European and one non-European laboratory. Two high-pass filtered, and two low-pass filtered silicon reference cells were measured for short-circuit current at standard test conditions (STC) as stated in IEC-TS-61836, and as optional parameters, for open-circuit voltage, maximum power produced, and differential spectral responsivity. Each laboratory applied its own measurement procedure, and a comparison of these results was carried out to investigate the consistency of the measurements relative to a reference value. The Physikalisch-Technische Bundesanstalt in Germany served as the reference laboratory, performing initial, intermediate, and final measurements. The results were in quite good agreement. For short-circuit current measured at STC, 84% of the 44 reported values showed agreement within their expanded uncertainties, presenting |E_n| values smaller than 1. The discrepancies of the outliers with |E_n|'1 were in the range of -2.2% to 3.5% with E _n ranging between -2.1 to 3.3. For open-circuit voltage, 15 out of 20 measurements presented |E_n| values smaller than 1. For maximum power point similarly, 12 out of 20 measurements were in agreement. This is the first interlaboratory comparison on adapted reference cells that are important for calibrating advanced photovoltaic devices. This comparison shows how adapted reference cells perform across different calibration practices and things that should be considered in standardisation. The study revealed problems linked to temperature control, metastability of high-pass cells affecting their fill factors, and measurement techniques that are discussed.

Original language	English
Article number	110740
Journal	Results in Engineering
Volume	30
DOIs	https://doi.org/10.1016/j.rineng.2026.110740
Publication status	Published - Jun 2026
MoE publication type	A1 Journal article-refereed

Funding

The results reported in this paper are derived from activities within the frame of the EMPIR project 19ENG01 Metro-PV (Metrology for emerging PV applications) that has received funding from the EMPIR program co-financed by the Participating States and the European Union’s Horizon 2020 research and innovation program. This work is also part of the Research Council of Finland Flagship Programme, Photonics Research and Innovation (PREIN), decision number 346529, Aalto University.

Keywords

Adapted reference cells
Long-pass filters
Low-pass filters
Short-circuit current
Solar cell interlaboratory comparison
Spectral responsivity
WPVS (world-photovoltaic scale)

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Eghbali, A., Kärhä, P., Ikonen, E., Kröger, I., Rauer, M., Reichmuth, S. K., Hohl-Ebinger, J., Friesen, G., Valoti, F., Bellenda, G., Long, Y. S., Tsai, M. A., Bothe, K., Hinken, D., Pavanello, D., Müllejans, H., Mašić, F., Čalija, S., Milojević, V., ... Winter, S. (2026). Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes. Results in Engineering, 30, Article 110740. https://doi.org/10.1016/j.rineng.2026.110740

@article{a3658b13093341edabcbd1b136b2a4f2,

title = "Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes",

abstract = "This paper presents the results of an interlaboratory comparison of four adapted reference solar cells, carried out among nine metrological institutes, including eight European and one non-European laboratory. Two high-pass filtered, and two low-pass filtered silicon reference cells were measured for short-circuit current at standard test conditions (STC) as stated in IEC-TS-61836, and as optional parameters, for open-circuit voltage, maximum power produced, and differential spectral responsivity. Each laboratory applied its own measurement procedure, and a comparison of these results was carried out to investigate the consistency of the measurements relative to a reference value. The Physikalisch-Technische Bundesanstalt in Germany served as the reference laboratory, performing initial, intermediate, and final measurements. The results were in quite good agreement. For short-circuit current measured at STC, 84\% of the 44 reported values showed agreement within their expanded uncertainties, presenting |En| values smaller than 1. The discrepancies of the outliers with |En|'1 were in the range of -2.2\% to 3.5\% with E n ranging between -2.1 to 3.3. For open-circuit voltage, 15 out of 20 measurements presented |En| values smaller than 1. For maximum power point similarly, 12 out of 20 measurements were in agreement. This is the first interlaboratory comparison on adapted reference cells that are important for calibrating advanced photovoltaic devices. This comparison shows how adapted reference cells perform across different calibration practices and things that should be considered in standardisation. The study revealed problems linked to temperature control, metastability of high-pass cells affecting their fill factors, and measurement techniques that are discussed.",

keywords = "Adapted reference cells, Long-pass filters, Low-pass filters, Short-circuit current, Solar cell interlaboratory comparison, Spectral responsivity, WPVS (world-photovoltaic scale)",

author = "Afsaneh Eghbali and Petri K{\"a}rh{\"a} and Erkki Ikonen and Ingo Kr{\"o}ger and Michael Rauer and Reichmuth, \{S. Kasimir\} and Jochen Hohl-Ebinger and Gabriele Friesen and Flavio Valoti and Giovanni Bellenda and Long, \{Yean San\} and Tsai, \{Min An\} and Karsten Bothe and David Hinken and Diego Pavanello and Harald M{\"u}llejans and Fatima Ma{\v s}i{\'c} and Sr{\d}an {\v C}alija and Vladimir Milojevi{\'c} and Ankit Mittal and Marcus Rennhofer and Stefan Winter",

year = "2026",

month = jun,

doi = "10.1016/j.rineng.2026.110740",

language = "English",

volume = "30",

journal = "Results in Engineering",

issn = "2590-1230",

publisher = "Elsevier",

}

Eghbali, A, Kärhä, P, Ikonen, E, Kröger, I, Rauer, M, Reichmuth, SK, Hohl-Ebinger, J, Friesen, G, Valoti, F, Bellenda, G, Long, YS, Tsai, MA, Bothe, K, Hinken, D, Pavanello, D, Müllejans, H, Mašić, F, Čalija, S, Milojević, V, Mittal, A, Rennhofer, M & Winter, S 2026, 'Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes', Results in Engineering, vol. 30, 110740. https://doi.org/10.1016/j.rineng.2026.110740

TY - JOUR

T1 - Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes

AU - Eghbali, Afsaneh

AU - Kärhä, Petri

AU - Ikonen, Erkki

AU - Kröger, Ingo

AU - Rauer, Michael

AU - Reichmuth, S. Kasimir

AU - Hohl-Ebinger, Jochen

AU - Friesen, Gabriele

AU - Valoti, Flavio

AU - Bellenda, Giovanni

AU - Long, Yean San

AU - Tsai, Min An

AU - Bothe, Karsten

AU - Hinken, David

AU - Pavanello, Diego

AU - Müllejans, Harald

AU - Mašić, Fatima

AU - Čalija, Srđan

AU - Milojević, Vladimir

AU - Mittal, Ankit

AU - Rennhofer, Marcus

AU - Winter, Stefan

PY - 2026/6

Y1 - 2026/6

N2 - This paper presents the results of an interlaboratory comparison of four adapted reference solar cells, carried out among nine metrological institutes, including eight European and one non-European laboratory. Two high-pass filtered, and two low-pass filtered silicon reference cells were measured for short-circuit current at standard test conditions (STC) as stated in IEC-TS-61836, and as optional parameters, for open-circuit voltage, maximum power produced, and differential spectral responsivity. Each laboratory applied its own measurement procedure, and a comparison of these results was carried out to investigate the consistency of the measurements relative to a reference value. The Physikalisch-Technische Bundesanstalt in Germany served as the reference laboratory, performing initial, intermediate, and final measurements. The results were in quite good agreement. For short-circuit current measured at STC, 84% of the 44 reported values showed agreement within their expanded uncertainties, presenting |En| values smaller than 1. The discrepancies of the outliers with |En|'1 were in the range of -2.2% to 3.5% with E n ranging between -2.1 to 3.3. For open-circuit voltage, 15 out of 20 measurements presented |En| values smaller than 1. For maximum power point similarly, 12 out of 20 measurements were in agreement. This is the first interlaboratory comparison on adapted reference cells that are important for calibrating advanced photovoltaic devices. This comparison shows how adapted reference cells perform across different calibration practices and things that should be considered in standardisation. The study revealed problems linked to temperature control, metastability of high-pass cells affecting their fill factors, and measurement techniques that are discussed.

AB - This paper presents the results of an interlaboratory comparison of four adapted reference solar cells, carried out among nine metrological institutes, including eight European and one non-European laboratory. Two high-pass filtered, and two low-pass filtered silicon reference cells were measured for short-circuit current at standard test conditions (STC) as stated in IEC-TS-61836, and as optional parameters, for open-circuit voltage, maximum power produced, and differential spectral responsivity. Each laboratory applied its own measurement procedure, and a comparison of these results was carried out to investigate the consistency of the measurements relative to a reference value. The Physikalisch-Technische Bundesanstalt in Germany served as the reference laboratory, performing initial, intermediate, and final measurements. The results were in quite good agreement. For short-circuit current measured at STC, 84% of the 44 reported values showed agreement within their expanded uncertainties, presenting |En| values smaller than 1. The discrepancies of the outliers with |En|'1 were in the range of -2.2% to 3.5% with E n ranging between -2.1 to 3.3. For open-circuit voltage, 15 out of 20 measurements presented |En| values smaller than 1. For maximum power point similarly, 12 out of 20 measurements were in agreement. This is the first interlaboratory comparison on adapted reference cells that are important for calibrating advanced photovoltaic devices. This comparison shows how adapted reference cells perform across different calibration practices and things that should be considered in standardisation. The study revealed problems linked to temperature control, metastability of high-pass cells affecting their fill factors, and measurement techniques that are discussed.

KW - Adapted reference cells

KW - Long-pass filters

KW - Low-pass filters

KW - Short-circuit current

KW - Solar cell interlaboratory comparison

KW - Spectral responsivity

KW - WPVS (world-photovoltaic scale)

UR - https://www.scopus.com/pages/publications/105039132746

U2 - 10.1016/j.rineng.2026.110740

DO - 10.1016/j.rineng.2026.110740

M3 - Article

AN - SCOPUS:105039132746

SN - 2590-1230

VL - 30

JO - Results in Engineering

JF - Results in Engineering

M1 - 110740

ER -

Results of an interlaboratory comparison of adapted reference solar cells among nine metrological institutes

Abstract

Funding

Keywords

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