The dark saturation current of a solar cell is 1.7E-8 A/m², the cell temperature is 323 K, the short-circuit current density is 221 A/m?, Vmax is 0.506 V and the available solar radiation is 767 W/m2. The Boltzmann's gas constant is 1.381X10-23 J/K and the electronic charge is 1.602X10-19 J/V. Calculate Open-circuit voltage Voc in Volts = Current density at maximum power Imax in A/m²= Maximum power Pmay in W/m² = % Maximum efficiency nmax =

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The dark saturation current of a solar cell is 1.7E-8 A/m2, the cell temperature is 323 K, the short-circuit current
density is 221 A/m2, Vmay is 0.506 V and the available solar radiation is 767 W/m2 . The Boltzmann's gas
constant is 1.381X10-23 J/K and the electronic charge is 1.602X10-19 J/V. Calculate
Open-circuit voltage Voc in Volts =
Current density at maximum power Imax in A/m2=
Maximum power Pmax in W/m² =
% Maximum efficiency nmax =
Transcribed Image Text:The dark saturation current of a solar cell is 1.7E-8 A/m2, the cell temperature is 323 K, the short-circuit current density is 221 A/m2, Vmay is 0.506 V and the available solar radiation is 767 W/m2 . The Boltzmann's gas constant is 1.381X10-23 J/K and the electronic charge is 1.602X10-19 J/V. Calculate Open-circuit voltage Voc in Volts = Current density at maximum power Imax in A/m2= Maximum power Pmax in W/m² = % Maximum efficiency nmax =
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