5.3 Design a microgrid of PV rated at 100 kW of power at 230 V AC using a PV module of Table 5.44. Determine the following: (i) Number of modules in a string for each PV type. (ii) Number of strings in an array for each PV type. (iii) Number of arrays. (iv) Inverter specifications. (v) One-line diagram of this system.

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Please answer Q 5.3 for me.

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PROBLEMS
319
TABLE 5.44 Photovoltaic Module Data for Problem 5.3
Power (max)
Voltage at Maximum Power Point (MPP)
400 W
52.6 V
Current at MPP
6.1 A
Voc (open-circuit voltage)
Isc (short-circuit current)
63.2 V
7.0 A
5.2 Search the Internet to find the voltage-current characteristic of four PV
modules. Make a table of input impedances as current varies for each
operating temperature. Develop a plot of input impedance as a function
of PV load current for each operating temperature.
5.3 Design a microgrid of PV rated at 100 kW of power at 230 V AC using a
PV module of Table 5.44.
Determine the following:
(i) Number of modules in a string for each PV type.
(ii) Number of strings in an array for each PV type.
(iii) Number of arrays.
(iv) Inverter specifications.
(v) One-line diagram of this system.
Transcribed Image Text:PROBLEMS 319 TABLE 5.44 Photovoltaic Module Data for Problem 5.3 Power (max) Voltage at Maximum Power Point (MPP) 400 W 52.6 V Current at MPP 6.1 A Voc (open-circuit voltage) Isc (short-circuit current) 63.2 V 7.0 A 5.2 Search the Internet to find the voltage-current characteristic of four PV modules. Make a table of input impedances as current varies for each operating temperature. Develop a plot of input impedance as a function of PV load current for each operating temperature. 5.3 Design a microgrid of PV rated at 100 kW of power at 230 V AC using a PV module of Table 5.44. Determine the following: (i) Number of modules in a string for each PV type. (ii) Number of strings in an array for each PV type. (iii) Number of arrays. (iv) Inverter specifications. (v) One-line diagram of this system.
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