Michael Kempe scite author profile

Over the past decade, degradation and power loss have been observed in PV modules resulting from the stress exerted by system voltage bias. This is due in part to qualification tests and standards that do not adequately evaluate for the durability of modules to the long-term effects of high voltage bias experienced in fielded arrays. High voltage can lead to module degradation by multiple mechanisms. The extent of the voltage bias degradation is linked to the leakage current or coulombs passed from the silicon active layer through the encapsulant and glass to the grounded module frame, which can be experimentally determined; however, competing processes make the effect non-linear and history-dependent.Appropriate testing methods and stress levels are described that demonstrate module durability to system voltage potentialinduced degradation (PID) mechanisms. This information, along with outdoor testing that is in progress, is used to estimate the acceleration factors needed to evaluate the durability of modules to system voltage stress. Na-rich precipitates are observed on the cell surface after stressing the module to induce PID in damp heat with negative bias applied to the active layer.

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Acetic acid production and glass transition concerns with ethylene-vinyl acetate used in photovoltaic devices

Kempe

Jorgensen

Terwilliger

et al. 2007

Solar Energy Materials and Solar Cells

260

128

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Increasing markets and decreasing package weight for high-specific-power photovoltaics

et al. 2018

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Michael Kempe

Research and development priorities for silicon photovoltaic module recycling to support a circular economy

Modeling of rates of moisture ingress into photovoltaic modules

System voltage potential-induced degradation mechanisms in PV modules and methods for test

Acetic acid production and glass transition concerns with ethylene-vinyl acetate used in photovoltaic devices

Increasing markets and decreasing package weight for high-specific-power photovoltaics

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