The boundary conditions define the volume solved by the finite difference time domain (FDTD) solver.
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On the Solve/Run tab, in the
Solution settings group, click the
FDTD boundary conditions icon.
Figure 1. The Boundary condition settings dialog
(Top (+Z) tab).
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On the Boundary condition settings dialog, click the
Top (+Z) tab to specify the boundary in the positive
Z axis.
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Specify the boundary definition by selecting one of the following from the
Boundary definition
drop-down list:
- To specify an open radiating boundary, implemented as a convolutional
perfectly matched layer (CPML), select Open.
- To specify a PEC boundary that allows efficient simulation of infinitely
large electrically conducting planes, select
PEC.
- To specify a PMC boundary that allows efficient simulation of infinitely
large magnetically conducting planes, select
PMC.
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Enlarge a volume by adding a free space buffer1 by selecting one of the following:
- If no free space buffer is required, select Do not add a free
space buffer.
- To automatically add a free space buffer (perpendicular to the specific
face), select Automatically add a free space
buffer.
- To specify the size of the free space buffer to be added to the
specified face, select Specify the size of the free space
buffer.
- In the Free space buffer region size field,
enter a value.
- To specify the position of the free space buffer on the respective axis,
select Specify the position of the free space buffer
boundary.
- In the Position on the Z axis field, enter a
value.
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Repeat Step 2 to
Step 4 for the
remaining five faces of the boundary.
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Click OK to define the boundary condition and to
close the dialog.
Note: A free space boundary condition is only displayed in the 3D view when the Configuration tab is
selected.
Figure 2. An example of the display for six free space boundary
conditions.
