Resilience of Microgrid during Catastrophic Events Page: 5
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then have a series of thin metal allowing free moving electrons a path to provide electric current
and voltage to a load.
In Figure 2.1, using LTSpice a user can simulate a solar cell [6]. The solar cell was
comprised of a diode (Dpv), two resistors (Rp & Rs), a current source (Epv), and a voltage
dependent voltage source (Epv). Then in Figure 2.2, the same solar cell was made into an
LTSpice module called PVModule. The module is then being connected to a current input source
(Isc) with 5A. The PVModule's Vpv- will go to ground, and Pvp+ was connected to a load
resistor, as well as, a 12-volt (V) output voltage source.Dpv
DcellRs
* U
{Rs}
Fell
Rp
{Rp} Ep
R pj Epv I
1 a a
={IS} .param Rs=0.0
.param Rp=2
.param n=36
.param IS=lnA
Figure 2.1 : LTSpice solar cell circuit5
Isc
Vpv+
Epv
{n}
Vpv-.model Dcell D IS
4-
I U
1
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Black, Travis Glenn. Resilience of Microgrid during Catastrophic Events, thesis, May 2018; Denton, Texas. (https://digital.library.unt.edu/ark:/67531/metadc1157603/m1/14/: accessed July 18, 2024), University of North Texas Libraries, UNT Digital Library, https://digital.library.unt.edu; .