(b) Consider a 100 cm² photovoltaic cell with reverse saturation current density of Jo= 10-12 A/cm². In full sun, it produces a short-circuit current of 40 mA at 20 °C. Calculate the open-circuit voltage at full sun. Consider Boltzmann's constant as kB = 1.381 × 10-2³ J.K-¹ q= 1.6 x 10-1⁹ C and T(K) = 273.15+T(°C) The open-circuit voltage, Voc, for a PV is: Voc = KBT¸ In ( sc + 1) q

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(b)
Consider a 100 cm² photovoltaic cell with reverse saturation current
density of Jo = 10-¹² A/cm². In full sun, it produces a short-circuit current
of 40 mA at 20 °C.
Calculate the open-circuit voltage at full sun.
Consider Boltzmann's constant as kB = 1.381 x 10-23 J.K-1
1.6 x 10-1⁹ C and T(K) = 273.15+T(°C)
The open-circuit voltage, Voc, for a PV is:
KBT,
Voc = -In(+1)
q lo
Isc
I q=
Transcribed Image Text:(b) Consider a 100 cm² photovoltaic cell with reverse saturation current density of Jo = 10-¹² A/cm². In full sun, it produces a short-circuit current of 40 mA at 20 °C. Calculate the open-circuit voltage at full sun. Consider Boltzmann's constant as kB = 1.381 x 10-23 J.K-1 1.6 x 10-1⁹ C and T(K) = 273.15+T(°C) The open-circuit voltage, Voc, for a PV is: KBT, Voc = -In(+1) q lo Isc I q=
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