Difference between revisions of "EM.Cube Application Gallery"

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<td>[[image:Cube-icon.png | link=Getting_Started_with_EM.Cube]] [[image:cad-ico.png | link=Building_Geometrical_Constructions_in_CubeCAD]] [[image:fdtd-ico.png | link=EM.Tempo]] [[image:prop-ico.png | link=EM.Terrano]] [[image:static-ico.png | link=EM.Ferma]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]]  [[image:po-ico.png | link=EM.Illumina]]</td>
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[[Image:Back_icon.png|30px]] '''[[EM.Cube | Back to EM.Cube Main Page]]'''
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<br />
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[[EM.Cube]] provides the ultimate solution to all of your electromagnetic modeling needs. Using [[EM.Cube]]'s computational modules, you can solve a wide range of EM analysis and RF design problems. These modules together cover the entire frequency spectrum from DC to light. The following table lists a few examples of electromagnetic modeling problems you can solve with one or more [[EM.Cube]] modules:
 
[[EM.Cube]] provides the ultimate solution to all of your electromagnetic modeling needs. Using [[EM.Cube]]'s computational modules, you can solve a wide range of EM analysis and RF design problems. These modules together cover the entire frequency spectrum from DC to light. The following table lists a few examples of electromagnetic modeling problems you can solve with one or more [[EM.Cube]] modules:
  
  
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<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Problem Type / Application</span></strong></span></td>
 
<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Problem Type / Application</span></strong></span></td>
<td class="rtecenter" style="width: 280px; height: 36px; padding: 10px; background-color: rgb(44, 175, 199);">
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<td class="rtecenter" style="width: 350px; height: 36px; padding: 10px; background-color: rgb(47, 107, 208);">
 
<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Suitable [[EM.Cube]] Module</span></strong></span></td>
 
<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Suitable [[EM.Cube]] Module</span></strong></span></td>
<td class="rtecenter" style="width: 450px; height: 36px; padding: 10px; background-color: rgb(44, 175, 199);">
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<td class="rtecenter" style="width: 350px; height: 36px; padding: 10px; background-color: rgb(44, 175, 199);">
 
<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Example Projects, Notes or Articles</span></strong></span></td>
 
<span style="font-size: 14px;"><strong><span style="color: rgb(255, 240, 245);">Example Projects, Notes or Articles</span></strong></span></td>
 
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[[image:prop-ico.png | link=EM.Terrano]]  </td>
 
[[image:prop-ico.png | link=EM.Terrano]]  </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Terrano L4 Fig title.png|90px | link=EM.Terrano Tutorial Lesson 4: Analyzing An Urban Canyon Propagation Scene]] [[image:Terrano L6 Fig title.png|90px | link=EM.Terrano Tutorial Lesson 6: Simulating The Performance Of A Mobile Communications Link In A Multipath Urban Environment]] [[image:ART MANH Fig title.png|90px | link=Application Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.Terrano]]  </td>
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[[image:Terrano L5N Fig title.png|60px | link=EM.Terrano Tutorial Lesson 5: Simulating A Dense Urban Canyon Propagation Scene]] [[image:Terrano L7N Fig title.png|60px | link=EM.Terrano Tutorial Lesson 7: Parametric Study Of A Realistic Urban Scene]] [[image:Terrano L8N Fig title.png|60px | link=EM.Terrano Tutorial Lesson 8: Simulating A Communications Link With Directional Antennas]] [[image:Terrano L9N Fig title.png|60px | link=EM.Terrano Tutorial Lesson 9: Modeling A Mobile Communications Link Using Python]] [[image:ART MANH Fig title.png|60px | link=Application Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.Terrano]]  </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]]  </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]]  </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L4 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array]]  [[image:Picasso L5 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 5: Analyzing Patch Antenna Arrays]]  [[image:ART PATCH Fig title.png|90px | link=Application Note 3: Designing A Slot-Coupled Patch Antenna Array With A Corporate Feed Network Using EM.Picasso]] </td>
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[[image:Tempo L4 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array]]  [[image:Picasso L5 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 5: Analyzing Patch Antenna Arrays]]  [[image:ART PATCH Fig title.png|60px | link=Application Note 3: Designing A Slot-Coupled Patch Antenna Array With A Corporate Feed Network Using EM.Picasso]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Illumina L4 Fig title.png|90px | link=EM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms]] [[image:ART PARAB Fig title.png|90px | link=Application Note 4: Modeling Large Parabolic Reflectors Illuminated By Pyramidal Horn Antennas Using EM.Cube]] [[image:ART GOLF Fig title.png|90px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
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[[image:Illumina L4 Fig title.png|60px | link=EM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms]] [[image:ART PARAB Fig title.png|60px | link=Application Note 4: Modeling Large Parabolic Reflectors Illuminated By Pyramidal Horn Antennas Using EM.Cube]] [[image:ART GOLF Fig title.png|60px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L5 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 5: Analyzing A Planar Microstrip Band-Stop Filter]]  [[image:Picasso L3 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 3: Analyzing A Planar Microstrip Band-Stop Filter]]  [[image:ART UWB title.png|90px | link=V&V Article 3: Modeling Broadband And Circularly Polarized Patch Antennas Using EM.Picasso]]  </td>
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[[image:Tempo L5 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 5: Analyzing A Planar Microstrip Band-Stop Filter]]  [[image:Picasso L3 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 3: Analyzing A Planar Microstrip Band-Stop Filter]]  [[image:ART UWB title.png|60px | link=V&V Article 3: Modeling Broadband And Circularly Polarized Patch Antennas Using EM.Picasso]]  </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L6 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 6: Modeling Rectangular Waveguide Structures]]  [[image:Tempo L7 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 7: Designing A Pyramidal Horn Antenna]] [[image:ART DRA title.png|90px | link=V&V Article 4: Designing Wideband Dielectric Resonator Antennas Using EM.Tempo]] </td>
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[[image:Tempo L6 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 6: Modeling Rectangular Waveguide Structures]]  [[image:Tempo L7 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 7: Designing A Pyramidal Horn Antenna]] [[image:ART DRA title.png|60px | link=V&V Article 4: Designing Wideband Dielectric Resonator Antennas Using EM.Tempo]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L9 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices]] [[image:Picasso_L9_Fig14_title.png|90px | link=EM.Picasso Tutorial Lesson 9: Designing a Microstrip Wilkinson Power Divider]] </td>
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[[image:Tempo L9 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices]] [[image:Picasso_L9_Fig14_title.png|60px | link=EM.Picasso Tutorial Lesson 9: Designing a Microstrip Wilkinson Power Divider]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L3 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 3: Modeling A Probe-Fed Microstrip Patch Antenna]]  [[image:Picasso L7 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 7: Designing A Slot-Coupled Patch Antenna]] </td>
+
[[image:Tempo L3 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 3: Modeling A Probe-Fed Microstrip Patch Antenna]]  [[image:Picasso L7 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 7: Designing A Slot-Coupled Patch Antenna]] </td>
 
</tr>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L9 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices]] </td>
+
[[image:Tempo L9 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices]] </td>
 
</tr>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L10 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 10: Modeling Wave Propagation In Dispersive Media]] [[image:ART DISP title.png|90px | link=V&V Article 5: Modeling Dispersive Materials Using EM.Tempo]] </td>
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[[image:Tempo L10 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 10: Modeling Wave Propagation In Dispersive Media]] [[image:ART DISP title.png|60px | link=V&V Article 5: Modeling Dispersive Materials Using EM.Tempo]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L8 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 8: Analyzing A Periodic Frequency Selective Surface]]  [[image:Picasso L6 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 6: Analyzing A Periodic Frequency Selective Surface]] [[image:ART FSS title.png|90px | link=V&V Article 1: Modeling Complex Frequency Selective Surfaces Using EM.Cube]]  </td>
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[[image:Tempo L8 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 8: Analyzing A Periodic Frequency Selective Surface]]  [[image:Picasso L6 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 6: Analyzing A Periodic Frequency Selective Surface]] [[image:ART FSS title.png|60px | link=V&V Article 1: Modeling Complex Frequency Selective Surfaces Using EM.Cube]]  </td>
 
</tr>
 
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[[image:static-ico.png | link=EM.Ferma]] </td>
 
[[image:static-ico.png | link=EM.Ferma]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Ferma L2 Fig title.png|90px | link=EM.Ferma Tutorial Lesson 2: Analyzing A Parallel Plate Capacitor]]  [[image:Ferma L5 Fig title.png|90px | link=EM.Ferma Tutorial Lesson 5: Modeling Solenoids & Toroidal Coils]] </td>
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[[image:Ferma L2 Fig title.png|60px | link=EM.Ferma Tutorial Lesson 2: Analyzing A Parallel Plate Capacitor]]  [[image:Ferma L5 Fig title.png|60px | link=EM.Ferma Tutorial Lesson 5: Modeling Solenoids & Toroidal Coils]] </td>
 
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[[image:static-ico.png | link=EM.Ferma]] </td>
 
[[image:static-ico.png | link=EM.Ferma]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Ferma L7 Fig title.png|90px | link=EM.Ferma Tutorial Lesson 7: Analyzing A Microstrip Transmission Line]]  [[image:Ferma L8 Fig title.png|90px | link=EM.Ferma Tutorial Lesson 8: Modeling 2D Coplanar Waveguide Structures]] </td>
+
[[image:Ferma L7 Fig title.png|60px | link=EM.Ferma Tutorial Lesson 7: Analyzing A Microstrip Transmission Line]]  [[image:Ferma L8 Fig title.png|60px | link=EM.Ferma Tutorial Lesson 8: Modeling 2D Coplanar Waveguide Structures]] </td>
 
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<tr>
 
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Build complex structures using native standard geometric objects or custom expression-based curves & surface and import/export external CAD models</td>
 
Build complex structures using native standard geometric objects or custom expression-based curves & surface and import/export external CAD models</td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:cad-ico.png | link=CubeCAD]] </td>
+
[[image:cad-ico.png | link=Building Geometrical Constructions in CubeCAD]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L11 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 11: Simulating A Monopole Antenna Interacting With A Human Head Model]]  [[image:Illumina L4 Fig title.png|90px | link=EM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms]] [[image:ART AIR title.png|90px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] [[image:ART MANH Fig title.png|90px | link=Application Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.Terrano]] [[image:ART GOLF Fig title.png|90px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
+
[[image:Tempo L11 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 11: Simulating A Monopole Antenna Interacting With A Human Head Model]]  [[image:Illumina L4 Fig title.png|60px | link=EM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms]] [[image:ART AIR title.png|60px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] [[image:ART MANH Fig title.png|60px | link=Application Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.Terrano]] [[image:ART GOLF Fig title.png|60px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
                         <td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
                         <td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Illumina L2 Fig title.png|90px | link=EM.Illumina Tutorial Lesson 2: Computing The Radar Cross Section Of Corner Reflectors]] [[image:Libera_L3_Fig_title.png|90px | link=EM.Libera Tutorial Lesson 3: Computing The Radar Cross Section Of Metallic, Dielectric & Composite Targets]] [[image:ART RCS title.png|90px | link=V&V Article 2: Computing Radar Cross Section Of Metallic Targets Using EM.Cube]] [[image:ART AIR title.png|90px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] </td>
+
[[image:Illumina L2 Fig title.png|60px | link=EM.Illumina Tutorial Lesson 2: Computing The Radar Cross Section Of Corner Reflectors]] [[image:Libera_L3_Fig_title.png|60px | link=EM.Libera Tutorial Lesson 3: Computing The Radar Cross Section Of Metallic, Dielectric & Composite Targets]] [[image:ART RCS title.png|60px | link=V&V Article 2: Computing Radar Cross Section Of Metallic Targets Using EM.Cube]] [[image:ART AIR title.png|60px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] </td>
 
</tr>
 
</tr>
 
<tr>
 
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[[image:prop-ico.png | link=EM.Terrano]] [[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] [[image:static-ico.png | link=EM.Ferma]] </td>
 
[[image:prop-ico.png | link=EM.Terrano]] [[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] [[image:static-ico.png | link=EM.Ferma]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Picasso L2 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 2: Designing A Patch Antenna With A Recessed Feed]]  [[image:Libera L2 Fig title.png|90px | link=EM.Libera Tutorial Lesson 2: Designing A Yagi-Uda Dipole Array]] </td>
+
[[image:Picasso L2 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 2: Designing A Patch Antenna With A Recessed Feed]]  [[image:Libera L2 Fig title.png|60px | link=EM.Libera Tutorial Lesson 2: Designing A Yagi-Uda Dipole Array]] </td>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:planar-ico.png | link=EM.Picasso]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Picasso L10 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 10: Optimizing A Microstrip Patch Antenna Design]]  </td>
+
[[image:Picasso L10 Fig title.png|60px | link=EM.Picasso Tutorial Lesson 10: Optimizing A Microstrip Patch Antenna Design]]  </td>
 
</tr>
 
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[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
[[image:fdtd-ico.png | link=EM.Tempo]] [[image:metal-ico.png | link=EM.Libera]] [[image:po-ico.png | link=EM.Illumina]] </td>
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
 
<td style="border-color: rgb(153, 153, 204); background-color: rgb(255, 255, 255);">
[[image:Tempo L4 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array]]  [[image:ART PARAB Fig title.png|90px | link=Application Note 4: Modeling Large Parabolic Reflectors Illuminated By Pyramidal Horn Antennas Using EM.Cube]] [[image:ART AIR title.png|90px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] [[image:ART GOLF Fig title.png|90px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
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[[image:Tempo L4 Fig title.png|60px | link=EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array]]  [[image:ART PARAB Fig title.png|60px | link=Application Note 4: Modeling Large Parabolic Reflectors Illuminated By Pyramidal Horn Antennas Using EM.Cube]] [[image:ART AIR title.png|60px | link=Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo]] [[image:ART GOLF Fig title.png|60px | link=Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo]] </td>
 
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Latest revision as of 22:23, 11 June 2018

Cube-icon.png Cad-ico.png Fdtd-ico.png Prop-ico.png Static-ico.png Planar-ico.png Metal-ico.png Po-ico.png

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EM.Cube provides the ultimate solution to all of your electromagnetic modeling needs. Using EM.Cube's computational modules, you can solve a wide range of EM analysis and RF design problems. These modules together cover the entire frequency spectrum from DC to light. The following table lists a few examples of electromagnetic modeling problems you can solve with one or more EM.Cube modules:


Problem Type / Application Suitable EM.Cube Module Example Projects, Notes or Articles
Analyze directional communication links in high multipath urban environments Prop-ico.png Terrano L5N Fig title.png Terrano L7N Fig title.png Terrano L8N Fig title.png Terrano L9N Fig title.png ART MANH Fig title.png
Model large, finite-sized, antenna arrays on the transmitter and receiver ends Fdtd-ico.png Planar-ico.png Metal-ico.png Tempo L4 Fig title.png Picasso L5 Fig title.png ART PATCH Fig title.png
Evaluate platform and feed mechanism effects on the radiation characteristics of antenna systems Fdtd-ico.png Metal-ico.png Po-ico.png Illumina L4 Fig title.png ART PARAB Fig title.png ART GOLF Fig title.png
Design multilayer planar RF, microwave and millimeter wave circuits Fdtd-ico.png Planar-ico.png Tempo L5 Fig title.png Picasso L3 Fig title.png ART UWB title.png
Analyze metallic and dielectric waveguide and resonator structures for microwave and millimeter wave applications Fdtd-ico.png Metal-ico.png Tempo L6 Fig title.png Tempo L7 Fig title.png ART DRA title.png
Embed passive and active devices and circuits into your electromagnetic analysis Fdtd-ico.png Planar-ico.png Metal-ico.png Tempo L9 Fig title.png Picasso L9 Fig14 title.png
Model frequency response of multiport structures and generate S-parameter data for equivalent circuit models (for export to RF.Spice A/D) Fdtd-ico.png Planar-ico.png Metal-ico.png Tempo L3 Fig title.png Picasso L7 Fig title.png
Model transient propagation of arbitrary waveforms and signals in your circuits Fdtd-ico.png Tempo L9 Fig title.png
Investigate the interaction of incident plane waves and focused Gaussian beams with complex geometries, biological environments or dispersive materials Fdtd-ico.png Tempo L10 Fig title.png ART DISP title.png
Study reflection and transmission properties of periodic surfaces and metamaterial structures Fdtd-ico.png Planar-ico.png Tempo L8 Fig title.png Picasso L6 Fig title.png ART FSS title.png
Compute low frequency electric and magnetic fields, capacitance and inductance of lumped circuit devices Static-ico.png Ferma L2 Fig title.png Ferma L5 Fig title.png
Compute quasi-static characteristic impedance and effective permittivity of physical transmission lines Static-ico.png Ferma L7 Fig title.png Ferma L8 Fig title.png
Build complex structures using native standard geometric objects or custom expression-based curves & surface and import/export external CAD models Cad-ico.png Tempo L11 Fig title.png Illumina L4 Fig title.png ART AIR title.png ART MANH Fig title.png ART GOLF Fig title.png
Compute radar cross section (RCS) of complex targets Fdtd-ico.png Metal-ico.png Po-ico.png Illumina L2 Fig title.png Libera L3 Fig title.png ART RCS title.png ART AIR title.png
Run parametric and random sweeps of design variables with complex interdependencies defined through mathematical functions and/or Python scripts Prop-ico.png Fdtd-ico.png Planar-ico.png Metal-ico.png Po-ico.png Static-ico.png Picasso L2 Fig title.png Libera L2 Fig title.png
Optimize your design variables using classical and statistical methods including multi-objective Pareto genetic algorithms Fdtd-ico.png Planar-ico.png Metal-ico.png Po-ico.png Picasso L10 Fig title.png
Run lightning fast EM simulations on multicore CPU/GPU platforms using a variety of hardware and software accelerators Fdtd-ico.png Metal-ico.png Po-ico.png Tempo L4 Fig title.png ART PARAB Fig title.png ART AIR title.png ART GOLF Fig title.png


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