Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules
A key aspect for the teaching of the photovoltaic technology is that the student perform experimental practices ofmeasure the characteristic Current-Voltage (I-V) under natural sunlight of a photovoltaic cell, module or generator and, later, being able to extrapolate the extracted results into Stand...
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| Formato: | Documento de conferencia |
| Lenguaje: | Inglés |
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Electrical and Electronics Engineers
2021
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| Acceso en línea: | http://repositorio.unne.edu.ar/handle/123456789/27844 |
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I48-R184-123456789-27844 |
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I48-R184-123456789-278442025-03-06T11:54:30Z Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules Montes Romero, Jesús Torres Ramírez, M. De la Casa, Juan Firman, Andrés Danilo Cáceres, Manuel Photovoltaic solar energy Software LabVIEW; I-V curve Educational tool Extrapolaction to STC A key aspect for the teaching of the photovoltaic technology is that the student perform experimental practices ofmeasure the characteristic Current-Voltage (I-V) under natural sunlight of a photovoltaic cell, module or generator and, later, being able to extrapolate the extracted results into Standard Test Conditions (STC). This paper presents a software tool (gotoSTC) to facilitate the acquisition of this knowledge and support the learning process of our students. gotoSTC allows processing experimental data from I-V curvesand applies some of the accepted methods by the scientific community. The program has two functional options: on the first one, the characteristic parameters of one curve will be obtained from its I-V curve and STC extrapolation methods are applied to it; in the second option, a set of I-V curves of the same module are necessary to obtain the characteristic parameters and then applies the extrapolation methods. Graphical representations of the data are showed in order to present some of the existing relations between the parameters characterizing the device behavior. 2021-04-27T18:36:16Z 2021-04-27T18:36:16Z 2016 Documento de conferencia Montes Romero, Jesús, et al., 2016. Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules. En: Techologies Applied to Electronics Teaching. Sevilla: Electrical and Electronics Engineers, p. 1-6. http://repositorio.unne.edu.ar/handle/123456789/27844 eng openAccess http://creativecommons.org/licenses/by-nc-nd/2.5/ar/ application/pdf p. 1-6 application/pdf Electrical and Electronics Engineers |
| institution |
Universidad Nacional del Nordeste |
| institution_str |
I-48 |
| repository_str |
R-184 |
| collection |
RIUNNE - Repositorio Institucional de la Universidad Nacional del Nordeste (UNNE) |
| language |
Inglés |
| topic |
Photovoltaic solar energy Software LabVIEW; I-V curve Educational tool Extrapolaction to STC |
| spellingShingle |
Photovoltaic solar energy Software LabVIEW; I-V curve Educational tool Extrapolaction to STC Montes Romero, Jesús Torres Ramírez, M. De la Casa, Juan Firman, Andrés Danilo Cáceres, Manuel Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| topic_facet |
Photovoltaic solar energy Software LabVIEW; I-V curve Educational tool Extrapolaction to STC |
| description |
A key aspect for the teaching of the photovoltaic technology is that the student perform experimental practices ofmeasure the characteristic Current-Voltage (I-V) under natural sunlight of a photovoltaic cell, module or generator and, later, being able to extrapolate the extracted results into Standard Test Conditions (STC).
This paper presents a software tool (gotoSTC) to facilitate the acquisition of this knowledge and support the learning process of our students. gotoSTC allows processing experimental data from I-V curvesand applies some of the accepted methods by the scientific community. The program has two functional options: on the first one, the characteristic parameters of one curve will be obtained from its I-V curve and STC extrapolation methods are applied to it; in the second option, a set of I-V curves of the same module are necessary to obtain the characteristic parameters and then applies the extrapolation methods. Graphical representations of the data are showed in order to present some of the existing relations between the parameters characterizing the device behavior. |
| format |
Documento de conferencia |
| author |
Montes Romero, Jesús Torres Ramírez, M. De la Casa, Juan Firman, Andrés Danilo Cáceres, Manuel |
| author_facet |
Montes Romero, Jesús Torres Ramírez, M. De la Casa, Juan Firman, Andrés Danilo Cáceres, Manuel |
| author_sort |
Montes Romero, Jesús |
| title |
Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| title_short |
Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| title_full |
Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| title_fullStr |
Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| title_full_unstemmed |
Software tool for the extrapolation to Standard Test Conditions (STC) from experimental curves of photovoltaic modules |
| title_sort |
software tool for the extrapolation to standard test conditions (stc) from experimental curves of photovoltaic modules |
| publisher |
Electrical and Electronics Engineers |
| publishDate |
2021 |
| url |
http://repositorio.unne.edu.ar/handle/123456789/27844 |
| work_keys_str_mv |
AT montesromerojesus softwaretoolfortheextrapolationtostandardtestconditionsstcfromexperimentalcurvesofphotovoltaicmodules AT torresramirezm softwaretoolfortheextrapolationtostandardtestconditionsstcfromexperimentalcurvesofphotovoltaicmodules AT delacasajuan softwaretoolfortheextrapolationtostandardtestconditionsstcfromexperimentalcurvesofphotovoltaicmodules AT firmanandresdanilo softwaretoolfortheextrapolationtostandardtestconditionsstcfromexperimentalcurvesofphotovoltaicmodules AT caceresmanuel softwaretoolfortheextrapolationtostandardtestconditionsstcfromexperimentalcurvesofphotovoltaicmodules |
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1832346161825972224 |