How Does Shading Affect Series-Connected Solar Cells?

AI Thread Summary
Shading on a series-connected string of solar cells causes the shaded cell to become reverse biased, potentially generating a high voltage of around 20V. In a short circuit condition, the overall voltage should theoretically be zero, but the presence of forward-biased cells complicates this balance. If the other cells cannot compensate for the reverse voltage, the current will decrease, which in turn reduces the voltage required to drive the shaded cell. This interaction highlights the importance of system configuration in managing voltage and current in solar arrays. Understanding these dynamics is crucial for optimizing solar cell performance under varying shading conditions.
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As I know, when a string of solar cells connected in series, if one of the cell is shaded, it will be reverse bias due to current mismatch and the voltage can be very high, say, 20V. But in short circuit condition, the overall voltage should be zero, if other cells are in forward bias, how can they balance out the 20V reverse voltage?
 
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If they cannot (that will depend on your setup), current will be low(er) which also lowers to voltage needed to "drive" the dark solar cell. As easy as that.
 

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