Field‐representative evaluation of PID‐polarization in TOPCon PV modules by accelerated stress testing

Hacke, Peter; Spataru, Sergiu; Habersberger, Brian; Chen, Yifeng

doi:10.1002/pip.3774

Title: Field‐representative evaluation of PID‐polarization in TOPCon PV modules by accelerated stress testing

Journal Article · Thu Jan 25 00:00:00 EST 2024 · Progress in Photovoltaics

DOI:https://doi.org/10.1002/pip.3774· OSTI ID:2282922

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National Renewable Energy Laboratory 15013 Denver West Parkway Golden Colorado 80401 USA
Department of Electrical and Photonics Engineering Technical University of Denmark (DTU) Roskilde 4000 Denmark
Dow Inc. 230 Abner Jackson Pkwy Lake Jackson Texas 77566 USA
Trina Solar Co., Ltd No. 2 Tianhe Road, Trina PV Industrial Park, Xinbei District Changzhou Jiangsu China

Abstract Potential‐induced degradation‐polarization (PID‐p) can reduce module power, but how to project the extent to which PID‐p may occur in field conditions considering the factors of system voltage, condensed moisture, temperature, and illumination has not been clarified. Using tunnel oxide passivated contact (TOPCon) modules, this work demonstrates a method to test full‐size crystalline silicon PV modules for PID‐p to provide field‐representative results. In initial screening tests with positive or negative 1000 V electrical bias applied at 60°C for 96 h using Al foil electrodes on the glass surfaces, the module type exhibited reversible PID‐p only on the front face when the cell circuit was in negative voltage potential. No PID was detected on the rear after testing in either polarity. We then evaluated the PID‐p sensitivity on the front side under different UV irradiances while maintaining the glass surface wet to estimate real‐world susceptibility to PID‐p. The magnitude of the observed behavior was fit using a previously developed charge transfer and depletion by light model. Whereas power loss with −1000 V applied to the cell circuit at 60°C for 96 h in the dark was about 30%, testing the module front under 0.051 W·m ⁻² nm ⁻¹ at 340 nm UVA irradiation using fluorescent tubes, the mean degradation was only 3%. When the modules were tested in the dark for PID‐p with in situ dark current–voltage (I‐V) characterization, the thermal activation energy for degradation was 0.71 eV; for recovery in the dark, it was 0.58 eV. Whereas recovery from the degraded state at 60°C in the dark without voltage bias was 5% absolute in 38 h, rapid recovery of about 5% absolute was observed with 1000 W·s/m ² exposure at 25°C using a flash tester.

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Research Organization:: National Renewable Energy Laboratory (NREL), Golden, CO (United States)

Sponsoring Organization:: USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Solar Energy Technologies Office

Grant/Contract Number:: AC36-08GO28308

OSTI ID:: 2282922

Alternate ID(s):: OSTI ID: 2311884

Report Number(s):: NREL/JA-5K00-88644

Journal Information:: Progress in Photovoltaics, Journal Name: Progress in Photovoltaics Vol. 32 Journal Issue: 5; ISSN 1062-7995

Publisher:: Wiley Blackwell (John Wiley & Sons)Copyright Statement

Country of Publication:: United Kingdom

Language:: English

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14 SOLAR ENERGY
accelerated stress testing
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polarization
potential-induced degradation
reliability

Title: Field‐representative evaluation of PID‐polarization in TOPCon PV modules by accelerated stress testing

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