EM.Picasso provides two types of mesh for a planar structure: a pure triangular surface mesh and a hybrid triangular-rectangular surface mesh. In both case, EM.Picasso attempts to create a highly regular mesh, in which most of the cells have almost equal areas. For planar structures with regular, mostly rectangular shapes, the hybrid mesh generator usually leads to faster computation times.
[[Image:Info_icon.png|40px]] Click here to learn more about '''[[Mesh_Generation_Schemes_in_EM.Cube#Working_with_Mesh_Generator | Working with Mesh Generator ]]'''.
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[[Image:Info_icon.png|40px]] Click here to learn more about EM.Picasso's '''[[Mesh_Generation_Schemes_in_EM.Cube#The_Triangular_Surface_Mesh_Generator | Triangular Surface Mesh Generator]]'''.
[[Image:Info_icon.png|40px]] Click here to learn more about EM.Picasso's '''[[Mesh_Generation_Schemes_in_EM.Cube#The_Hybrid_Planar_Mesh_Generator | Hybrid Planar Mesh Generator]]'''.
[[Image:Info_icon.png|40px]] Click here to learn more about '''[[Mesh_Generation_Schemes_in_EMEM.Cube#General_Rules_of_Planar_Hybrid_Mesh_Generator| General Rules of Planar Hybrid Mesh Generator]]Picasso'''. [[Image:Info_icon.png|40px]] Click here to learn more about s '''[[Mesh_Generation_Schemes_in_EM.Cube#Refining_the_Planar_Mesh_LocallyThe_Triangular_Surface_Mesh_Generator | Refining the Planar Triangular Surface Mesh LocallyGenerator]]'''.
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=== General Rules of Planar Hybrid Mesh Generator ===
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The integrity of the planar mesh and its continuity in the junction areas directly affects the quality and accuracy of the simulation results. [[EM.Picasso]]'s hybrid planar mesh generator has some rules that are catered to 2.5-D MoM simulations:
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* If two connected rectangular objects have the same side dimensions along their common linear edge with perfect alignment, a rectangular junction mesh is produced.
* If two connected rectangular objects have different side dimensions along their common linear edge or have edge offset, a set of triangular cells is generated along the edge of the object with the larger side.
* Rectangle strip objects that host a gap source or a lumped element always have a rectangular mesh around the gap area.
* If two objects reside on the same Z-plane, belong to the same trace group and have a common overlap area, they are first merged into a single object for the purpose of meshing using the "Boolean Union" operation.
* Embedded objects have prismatic meshes along the Z-axis.
* If an embedded object is located underneath or above a metallic trace object or connected from both top and bottom, it is meshed first and its mesh is then reflected on all of its attached horizontal trace objects.
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<td> [[File:PMOM36.png|250px]] [[File:PMOM38.png|250px]] [[File:PMOM37.png|250px]] </td>
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<td> Two overlapping planar objects and a comparison of their triangular and hybrid planar meshes. </td>
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<td> [[File:PMOM33.png|250px]] [[File:PMOM35.png|250px]] [[File:PMOM34.png|250px]] </td>
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<td> Edge-connected rectangular planar objects and a comparison their triangular and hybrid planar meshes. </td>
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<td> [[File:PMOM39.png|375px]] [[File:PMOM40.png|375px]] </td>
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<td> Meshes of short and long vertical PEC vias connecting two horizontal metallic strips. </td>
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[[Image:PMOM44.png|thumb|400px|Deleting or curing defective triangular cells: Case 1.]]
[[Image:PMOM42.png|thumb|400px|Deleting or curing defective triangular cells: Case 2.]]
=== Refining the Planar Mesh Locally ===
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It is very important to apply the right mesh density to capture all the geometrical details of your planar structure. This is especially true for "field discontinuity" regions such as junction areas between connected objects, where larger current concentrations are usually observed at sharp corners, or at the junction areas between metallic traces and PEC vias, as well as the areas around gap sources and lumped elements, which create voltage or current discontinuities.
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The Planar Mesh Settings dialog gives a few options for customizing your planar mesh around geometrical and field discontinuities. The check box labeled "'''Refine Mesh at Junctions'''" increases the mesh resolution at the connection area between rectangular objects. The check box labeled "'''Refine Mesh at Gap Locations'''" might be particularly useful when gap sources or lumped elements are placed on a short transmission line connected from both ends. The check box labeled "'''Refine Mesh at Vias'''" increases the mesh resolution on the cross section of embedded object sets and at the connection regions of the metallic objects connected to them. [[EM.Picasso]] typically doubles the mesh resolution locally at the discontinuity areas when the respective boxes are checked. You should always visually inspect [[EM.Picasso]]'s default generated mesh to see if the current mesh settings have produced an acceptable mesh.
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Sometimes [[EM.Picasso]]'s default mesh may contain very narrow triangular cells due to very small angles between two edges. In some rare cases, extremely small triangular cells may be generated, whose area is a small fraction of the average mesh cell. These cases typically happen at the junctions and other discontinuity regions or at the boundary of highly irregular geometries with extremely fine details. In such cases, increasing or decreasing the mesh density by one or few cells per effective wavelength often resolves that problem and eliminates those defective cells. Nonetheless, [[EM.Picasso]]'s planar mesh generator offers an option to identify the defective triangular cells and either delete them or cure them. By curing we mean removing a narrow triangular cell and merging its two closely spaced nodes to fill the crack left behind. [[EM.Picasso]] by default deletes or cures all the triangular cells that have angles less than 10º. Sometimes removing defective cells may inadvertently cause worse problems in the mesh. You may choose to disable this feature and uncheck the box labeled "'''Remove Defective Triangular Cells'''" in the Planar Mesh Settings dialog. You can also change the value of the minimum allowable cell angle.
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{{Note| Narrow, spiky triangular cells in a planar mesh are generally not desirable. You should get rid of the either by changing the mesh density or using the hybrid planar mesh generator's additional mesh refinement options.}}
== Running Planar MoM Simulations in EM.Picasso ==