HW2. In Fig. (a), a PV module is connected to a variable resistor R via a cable with a resistance Rw =6 N . The approximated I-V curve of the PV module is depicted in Fig. (b). By adjusting R, the PV...


HW2. In Fig. (a), a PV module is connected to a variable resistor R via a cable with a resistance<br>Rw =6 N . The approximated I-V curve of the PV module is depicted in Fig. (b). By adjusting<br>R, the PV module can output different amount of power. When R = 10 N, the PV module<br>outputs a maximum electrical power of 1600 W, which is dissipated by both Rw and R. The<br>short-circuit current of the PV module is known to be 13.75 A.<br>What is the value of V; of the I-V curve show in Fig. (b)? Choose the value that is closest to<br>the answer.<br>PV<br>V<br>Module<br>Fig. (a).<br>SC<br>Voc<br>Fig. (b).<br>+<br>

Extracted text: HW2. In Fig. (a), a PV module is connected to a variable resistor R via a cable with a resistance Rw =6 N . The approximated I-V curve of the PV module is depicted in Fig. (b). By adjusting R, the PV module can output different amount of power. When R = 10 N, the PV module outputs a maximum electrical power of 1600 W, which is dissipated by both Rw and R. The short-circuit current of the PV module is known to be 13.75 A. What is the value of V; of the I-V curve show in Fig. (b)? Choose the value that is closest to the answer. PV V Module Fig. (a). SC Voc Fig. (b). +

Jun 11, 2022
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