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Home / Dual operation of a monocrystalline PV cell
Dual operation of a monocrystalline PV cell
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Dual operation of a monocrystalline PV cell

Dominique Bonkoungou
$187.99
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This manuscript presents a study of the forward and reverse bias behavior of a KX0B22-12X1F monocrystalline solar cell. The cell's electronic properties are measured under dark and light conditions. A two-diode model is used to describe these properties. A non-linear least-squares fitting method is used to extract the cell parameters from the I-V characteristics measured under the defined conditions. I-V curve fitting and diode parameter extraction are carried out taking into account the measured I-V characteristics. The results obtained show that the parameters determined agree very well with the measured PV cell parameters. The ideality factor n1 remains unchanged throughout the temperature range studied, i.e. n1 ? 1. In contrast, the second ideality factor n2 decreases with increasing temperature, from 2.34 to 1.79 for temperatures ranging from 300 K to 400 K. The ideality factor n2 is highly temperature-dependent, and its inclusion among the six extracted parameters can serve as a guide for analyzing the results.

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MORE INFO
Format
Paperback
Publisher
Our Knowledge Publishing
Date
31 May 2025
Pages
64
ISBN
9786208909284

This manuscript presents a study of the forward and reverse bias behavior of a KX0B22-12X1F monocrystalline solar cell. The cell's electronic properties are measured under dark and light conditions. A two-diode model is used to describe these properties. A non-linear least-squares fitting method is used to extract the cell parameters from the I-V characteristics measured under the defined conditions. I-V curve fitting and diode parameter extraction are carried out taking into account the measured I-V characteristics. The results obtained show that the parameters determined agree very well with the measured PV cell parameters. The ideality factor n1 remains unchanged throughout the temperature range studied, i.e. n1 ? 1. In contrast, the second ideality factor n2 decreases with increasing temperature, from 2.34 to 1.79 for temperatures ranging from 300 K to 400 K. The ideality factor n2 is highly temperature-dependent, and its inclusion among the six extracted parameters can serve as a guide for analyzing the results.

Read More
Format
Paperback
Publisher
Our Knowledge Publishing
Date
31 May 2025
Pages
64
ISBN
9786208909284

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