Difference between revisions of "EM.Cube Application Gallery"
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Kazem Sabet (Talk | contribs) |
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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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L6 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L9 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L3 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L9 Fig title.png| | + | [[image:Tempo L9 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices]] </td> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L10 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L8 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Ferma L2 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Ferma L7 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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[[image:cad-ico.png | link=CubeCAD]] </td> | [[image:cad-ico.png | link=CubeCAD]] </td> | ||
<td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L11 Fig title.png| | + | [[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]] </td> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Illumina L2 Fig title.png| | + | [[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]] </td> |
</tr> | </tr> | ||
<tr> | <tr> | ||
| Line 129: | Line 129: | ||
[[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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Picasso L2 Fig title.png| | + | [[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> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Picasso L10 Fig title.png| | + | [[image:Picasso L10 Fig title.png|90px | link=EM.Picasso Tutorial Lesson 10: Optimizing A Microstrip Patch Antenna Design]] </td> |
</tr> | </tr> | ||
<tr> | <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); width: 100px; background-color: rgb(255, 255, 255);"> | <td style="border-color: rgb(153, 153, 204); width: 100px; background-color: rgb(255, 255, 255);"> | ||
| − | [[image:Tempo L4 Fig title.png| | + | [[image:Tempo L4 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array]] [[image:Tempo L11 Fig title.png|90px | link=EM.Tempo Tutorial Lesson 11: Simulating A Monopole Antenna Interacting With A Human Head Model]] </td> |
</tr> | </tr> | ||
</table> | </table> | ||
Revision as of 00:20, 3 October 2016
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 |
| Analyze directional communication links in high multipath urban environments |
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| Model large, finite-sized, antenna arrays on the transmitter and receiver ends |
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| Evaluate platform effects on the radiation characteristics of antenna systems |
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| Design multilayer planar RF, microwave and millimeter wave circuits |
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| Analyze metallic and dielectric waveguide and resonator structures for microwave and millimeter wave applications |
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| Embed passive and active devices and circuits into your electromagnetic analysis |
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| Model frequency response of multiport structures and generate S-parameter data for equivalent circuit models (for export to RF.Spice A/D) |
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| Model transient propagation of arbitrary waveforms and signals in your circuits |
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| Investigate the interaction of incident plane waves and focused Gaussian beams with complex geometries, biological environments or dispersive materials |
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| Study reflection and transmission properties of periodic surfaces and metamaterial structures |
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| Compute low frequency electric and magnetic fields, capacitance and inductance of lumped circuit devices |
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| Compute quasi-static characteristic impedance and effective permittivity of physical transmission lines |
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| Build complex structures using native standard CAD objects or custom curves and surface defined by mathematical functions and expressions, and import/export pre-made external CAD models and meshes |
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| Compute radar cross section (RCS) of complex targets |
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| Run parametric and random sweeps of design variables with complex interdependencies defined through mathematical functions and/or Python scripts |
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| Optimize your design variables using classical and statistical methods including multi-objective Pareto genetic algorithms |
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| Run lightning fast EM simulations on multicore CPU/GPU platforms using a variety of hardware and software accelerators |
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