A given monocrystalline silicon solar cell has the following specifications:

Isc=5A
Voc=0.6V
72 identical cells with the above specifications are to be interconnected to create a PV module.

What is the open-circuit voltage (in V) of the PV module if all the solar cells are connected in a series configuration?

43.2

. 6 x 72 because the voltages are additive in series.

1.N=72 and M =1, therefore Voc_total =72Voc=43.2V

2. Ioc_total= 5A
3. Vic_total= 70Voc=42V.
I hope it helped

1.N=72 and M =1, therefore Voc_total =72Voc=43.2V

2. Ioc_total= 5A
3. Voc_total= 70Voc=42V.
I hope it helped

To find the open-circuit voltage (Voc) of the PV module when all the solar cells are connected in a series configuration, you need to add up the voltages of each individual cell.

In a series configuration, the voltage from each cell adds up. Since there are 72 identical cells in the module, you need to multiply the Voc of a single cell (0.6V) by the number of cells (72).

Voc of the PV module = Voc of a single cell * number of cells
= 0.6V * 72
= 43.2V

Therefore, the open-circuit voltage of the PV module, when all the solar cells are connected in a series configuration, is 43.2V.

0.43