ElecNet Solvers
| Electrostatic 2D/3D |
Current Flow 2D/3D |
Time Harmonic 2D/3D |
Transient 2D/3D |
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Determines the static electric fields produced by specified DC voltages and charge distributions
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Determines the current densities produced by specified DC voltages on electrodes in contact with conducting material.
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Determines the time-harmonic electric fields produced by specified AC voltages.
Analysis is performed at one frequency, in the complex domain.
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Determines the time varying electric fields produced by specified voltages that vary arbitrarily in time.
The analysis involves time-stepping from one instant to the next over the time frame of interest.
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| Geometric Modeler |
Material Modeler |
Scripting |
- Supports both extrusion-based and 3D solid modeling construction
- Users can build a library of components to reuse in multiple designs
- Multi-Sweep function makes creating complex geometries painless
- Floating conductors are modeled as their exact physical problem and not replaced with a material that has a very high permittivity in order to impose a net zero charge (as other tools do). This approach is accurate, straightforward and gives a faster solution time.
- Optional modules for CATIA, STEP, IGES, Pro/E and Inventor file Import/Export
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- Includes Infolytica's default library of materials for use as a permanent reference
- Materials are stored with the model to simplify design sharing
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Create user-defined materials(both editable and read-only) by inputting the following parameters:
| Electrical Conductivity or Resistivity |
| Electrical Permittivity | Magnetic Permeability |
| Mass Density | Thermal Conductivity |
| Specific Heat Capacity |
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- Based on Microsoft's ActiveX™ technology, users can automate repetitive tasks and customize settings
- Write script files from scratch or use our Script Recording Tool
- Interoperability allows for communication with other software applications such as:
- Linking to a spreadsheet program for further post-processing computations
- Transfer of data to other simulation tools for multiphysics analysis
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| Meshing and Adaption |
Boundary Conditions |
Parameterization |
- Supports both automatic and user defined mesh generations
- Adaption tools to automatically identify the areas where the mesh needs improvement or refinement
- Skin depth analysis and highly anisotropic volume elements for fine meshes
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- Users can choose which boundary condition for unknown field behavior is best suited for their model: Ground, Flux Tangential or Thin Resistive
- Boundary conditions can also reduce simulation latency for symmetrical structures
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- Perform multiple numerical experiments on a given model painlessly by allowing materials, geometry, boundary conditions and more to be varied through a user defined range of values (both numeric and algebraic)
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Our Support Commitment
- Online documentation and support center with free add-ons, sample scripts, tutorials and more
- Frequent updates to ElecNet during the year to ensure we remain the leader in electromagnetic field simulations
- Experienced support staff, available by phone and email, will help you get the most out of ElecNet
ElecNet is built exclusively for the Microsoft® Windows operating system.
ElecNet supports both the 32-bit and 64-bit editions of Windows with the same solvers, features and updates.
The 64-bit version of ElecNet takes full advantage of the high-performance computational power
available with either the AMD64 or the Intel EM64T platforms, offering users an increase in both efficiency and capacity.
