.Modelica.Magnetic.QuasiStatic.FundamentalWave.Components.EddyCurrent .Modelica.Magnetic.QuasiStatic.FundamentalWave.Components.EddyCurrentThe eddy current loss model with respect to fundamental wave effects is designed in accordance to FluxTubes.Basic.EddyCurrent and FundamentalWave.Components.EddyCurrent.
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Due to the nature of eddy current losses, which can be
represented by symmetric conductors in an equivalent electric
circuit (Fig. 1), the respective number of phases 
has to be taken into account. Assume that the
conductances of the equivalent circuit are 
, the conductance for the eddy current loss model is determined
by
where 
is the number of turns of the symmetric electromagnetic
coupling.
For such an
phase system the relationship between the voltage and current
space
phasors and the magnetic flux and magnetic potential difference
phasor is
,
,
where 
and 
are the phase voltages and currents, respectively.
The dissipated loss power
can be determined for the space phasor relationship of the voltage and current space phasor.