The dark saturation current of a solar cell is 1.6E-8 A/m², the cell temperature is 328 K, the short- circuit current density is 186 A/m², Vmax is 0.446 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 C. 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 =
The dark saturation current of a solar cell is 1.6E-8 A/m², the cell temperature is 328 K, the short- circuit current density is 186 A/m², Vmax is 0.446 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 C. 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 =
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![The dark saturation current of a solar cell is 1.6E-8 A/m?, the cell temperature is 328 K, the short-
circuit current density is 186 A/m², Vmax is 0.446 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 C.
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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff24e9051-177b-45f7-8d97-f994bfe7dfad%2Fbd4ea084-cb9b-4e90-a9ef-4e3ab85f803b%2Fprepoex_processed.png&w=3840&q=75)
Transcribed Image Text:The dark saturation current of a solar cell is 1.6E-8 A/m?, the cell temperature is 328 K, the short-
circuit current density is 186 A/m², Vmax is 0.446 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 C.
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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