E. Gerritsen scite author profile

E. Gerritsen

3Publications

98Citation Statements Received

41Citation Statements Given

How they've been cited

207

How they cite others

Affiliations

Institut National de l'Énergie Solaire, Philips (Netherlands), NXP (Netherlands)

Publications

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Changes of solar cell parameters during damp-heat exposure

Zhu

Koehl

Hoffmann

et al. 2016

Prog. Photovolt: Res. Appl.

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The electrical ageing of photovoltaic modules during extended damp-heat tests at different stress levels is investigated for three types of crystalline silicon photovoltaic modules with different backsheets, encapsulants and cell types. Deploying different stress levels allows determination of an equivalent stress dose function, which is a first step towards a lifetime prediction of devices. The derived humidity dose is used to characterise the degradation of power as well as that of the solar cell's equivalent circuit parameters calculated from measured current-voltage characteristics. An application of this to the samples demonstrates different modes in the degradation and thus enables better understanding of the module's underlying ageing mechanisms. The analysis of changes in the solar cell equivalent circuit parameters identified the primary contributors to the power degradation and distinguished the potential ageing mechanism for each types of module investigated in this paper.

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Evolution of materials technology for stacked-capacitors in 65nm embedded-DRAM

Gerritsen

Emonet

Caillat

et al. 2005

Solid-State Electronics

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A study of the annual performance of bifacial photovoltaic modules in the case of vertical facade integration

Sória

Gerritsen

Lefillastre

et al. 2015

Energy Science & Engineering

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Despite the apparent benefits of bifacial modules, their application still suffers from a lack of visibility on the performance gain that they can actually provide. In this work, we consider the specific application of vertically oriented bifacial modules, notably for facade integration. We have developed a methodology to evaluate the annual electrical performance of bifacial modules based on three tools. First, a double illumination characterization setup is used in a solar simulator for comparing module architectures. Then, a reduced scale outdoor test bench allows us to evaluate bifacial module performance in a variety of configurations. Finally, a ray-tracing model validated with short-term outdoor data leads to the determination of the annual performance gain. This methodology allowed us to find optimal performance according to the most important parameters of application and module. Specifically, a module architecture using half-cut cells, a parallel cell interconnection, and textured glasses have been analyzed with respect to their influence on the resistive losses which increase in dual side illumination as well as to their influence on the effect of nonuniform and diffuse irradiance on the backside of the module. This work enabled us to give directions for innovative full-size module architectures. 53

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E. Gerritsen

Changes of solar cell parameters during damp-heat exposure

Evolution of materials technology for stacked-capacitors in 65nm embedded-DRAM

A study of the annual performance of bifacial photovoltaic modules in the case of vertical facade integration

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