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Previous: QW-BHM with Changing Excitation
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Save_Time_Probes_Extended_Dir
S_NAME
F_NAME
Ex / Ey / Ez / Hx / Hy / Hz / E / H / UPoint / IPoint / SAR / Pdiss / PdissE / PdissH / Pdens / TEMPERATURE / ENTHALPY / Waveform / Ephi / Etheta / EPoint / HPoint
<Xcell>
<Ycell>
<Zcell>
<Nb_of_It>
<Nb_of_files>
Probe_NAME
SUBDIR

This task is the same as Save_Time_Probes but time probes will be saved in SUBDIR sub-directory.

View_Fields_Monitor_3D
Dummy

Equivalent to View-Fields Monitor for 3D Monitor from menu of QW-Simulator.

Save_Fields_Monitor_3D
S_NAME
F_NAME
Ex / Ey / Ez / Hx / Hy / Hz / Sx / Sy / Sz
Re / Im
<fdm_box_number>
<fdm_frequency>

The 3D fields monitor data of the chosen field component,
in subcircuit S_NAME, for the <fdm_box_number> monitor box and <fdm_frequency> monitor frequency. Please note that Re / Im parameter is ignored for others components
that Sx, Sy, Sz.

Save_Circular_Antenna_Results_Extended_Walls
R_NAME
QW_3D / QW_Antenna_Pure / SAC / GRASP
X / Y / Z [<EulerAlfa> <EulerBeta> <EulerGamma>]
phi / theta [<ground_planes_nb>]
<const_angle_value>
<variable_angle_step>
<variable_angle_from>
<variable_angle_to>
<X_POS>
<Y_POS>
<Z_POS>
onlynear / nearfar [Directive / Power / Absolute / Relative / Fields_at_1m]
<-X +X -Y +Y -Z +Z>

This task is the same as
Save_Antenna_Results_Extended_Walls but for circular polarization of antenna characteristics.

Change_Excitation_Parameters
S_NAME
<Port_Name1><Port_Name2>...
<Port_Freq1><Port_Freq2>...
<Port_Amp1><Port_Amp2>...
<Port_Delay1><Port_Delay2>...

Sets frequency (Port_Freq1), amplitude (Port_Amp1)
and delay (Port_Delay1) in port of name Port_Name1
and consecutively in the next ports (if parameters
are present) in subcircuit S_NAME.
Save_Pdiss_Energy_QF_ReIm
S_NAME
F_NAME
pdiss_dense_regions_only/energy_dense_regions_only/pdiss_energy_dense_regions_only/ All_Region
Re / Im
No_of_It


This task should be preceded by the RunIter task
with parameter No_of_It1. The simulation will be continued until No_of_It, and between No_of_It1 and No_of_It power, energy and Q-Factor in subcircuit S_NAME will be calculated and at iteration No_of_It saved to file F_NAME. The third line of parameters allows controlling regions of integration: All_Region entails that power and energy are integrated over the whole circuit; pdiss_dense_regions_only / energy_dense_regions_only / pdiss_energy_dense_regions_only reduce the regions
of integration of only power / only energy/ both power
and energy to regions of non-zero material density. Parameter Re/Im makes a selection of real/imaginary grid.

Save_Enthalpy_ReIm
S_NAME
F_NAME
dense_regions / All_Region
Re / Im
No_of_It


This task should be preceded by the RunIter task
with parameter No_of_It1. The simulation will be continued until No_of_It, and between No_of_It1 and No_of_It enthalpy in subcircuit S_NAME will be calculated and at iteration No_of_It saved to file F_NAME. The third line of parameters allows controlling regions of integration: All_Region enthalpy is integrated over the whole circuit; dense_regions reduce
the regions of integration to regions of non-zero material density. Parameter Re/Im make selection
of real/imaginary grid.

Save_Volume_Integrated
S_NAME
F_NAME
Pdiss / PdissE / PdissH / Pdens
<MinX>
<MaxX>
<MinY>
<MaxY>
<MinZ>
<MaxZ>
No_of_It

The integrated field of the chosen field component,
in subcircuit S_NAME, in chosen sub-volume will be saved
to the file F_NAME.

Save_Full_Volume_Integrated
S_NAME
F_NAME
Pdiss / PdissE / PdissH / Pdens
No_of_It

The integrated field of the chosen field component,
in subcircuit S_NAME, in the whole volume will be saved
to file F_NAME.
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