Ansys Maxwell 15.0 (x64) | 806 MB

Maxwell ® - is the leading software for simulation of electromagnetic fields used for the design and study of two-and three-dimensional models, such as motors, sensors, transformers and other electrical and electromechanical devices for various applications. Maxwell ® is based on the finite element method (Finite Element Method - FEM) and accurately calculates the static harmonic electromagnetic and electric fields, as well as transients in field problems.
Year / Date of Release: 2011
Version: 15
Developer: ANSYS
Bit: 64bit
Compatibility with Vista: unknown
Compatible with Windows 7 only x64 (64-bit)
System requirements:
64-bit System Requirements
Minimum System Requirements:
Supported processors: AMD Athlon 64, AMD Opteron, Intel Xeon with Intel EM64T support,
Intel Pentium 4 with Intel EM64T support
Hard Drive Space (for Maxwell software): 200 MB
Recommended Minimum Configuration (for Optimal Performance):
Supported processors: AMD Athlon 64, AMD Opteron, Intel Xeon with Intel EM64T support,
Intel Pentium 4 with Intel EM64T support
Video card: 128-bit SVGA or PCI Express video card
Hard Drive Space (for Maxwell software and temporary files): 700 MB
Language: English
Medicine: Present
Size: 806.09 MB

Features Maxwell:
Modeling and analysis of low-frequency electromagnetic fields and three-dimensional structures using finite element method.
• Transient analysis of nonlinear processes in which there is:? Movement, rotation, translational motion during rotation in a noncylindrical domain;
? Pair of external circuits;
? Analysis of demagnetization of the permanent magnet;
? Calculation of core loss;
? Modeling of plates in the three core areas.
• Electromagnetic analysis at AC: an analysis of devices, which are influenced by the proximity effect, skin effect, the displacement currents, eddy currents.
• Magnetostatic Analysis: nonlinear analysis with automatic creation of an equivalent circuit model.
• Analysis of electric fields: analysis of transients, electrostatic analysis, the current flow from the automatic creation of an equivalent circuit model.
• Automatic adaptive grid technology to create the model.
• Fault-tolerant algorithms for a network model.
• Feedback when you create a grid model:? GUI performs validation of the model grid;
? Software module determines the uncertainty of imported geometry.
• Expansion of the model based on the net.
• Display of data / visualization of results:? Visualization and animation fields (contour graph, vector diagram);
? Visualization grid model (full, partial);
? Currents induced voltage, the total flux of induction;
? Loss of power, the stored energy;
? Core losses, eddy current loss, hysteresis loss (including partial hysteresis loop);
? Impedance, inductance, capacitance;
? Power point;
? Custom reports.

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