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Alexandra Andrews Group

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Krishna Manandhar
Krishna Manandhar

ANSYS Maxwell 16.02

ANSYS Maxwell 16.02: A Powerful Tool for Electromagnetic Simulation

Electromagnetic devices are widely used in various fields, such as electric machines, transformers, sensors, wireless charging, and more. Designing and analyzing these devices requires a reliable and accurate simulation software that can handle complex and nonlinear problems. ANSYS Maxwell 16.02 is one of the leading software in the field of electromagnetics, which offers a comprehensive solution for low-frequency phenomena and devices.

What is ANSYS Maxwell 16.02?

ANSYS Maxwell 16.02 is an electromagnetic field solver that uses finite element analysis (FEA) to solve electric or magnetic problems. It can solve static, frequency-domain, and time-varying magnetic and electric fields. Maxwell also provides specialized design interfaces for electric machines and power converters.


Maxwell is integrated into the Electronics Desktop, together with all the other ANSYS Electromagnetic tools. Maxwell can also be integrated in the Workbench Platform for multiphysics analysis. Geometries can be created either directly inside Maxwell or imported from external CAD tools.

What are the features of ANSYS Maxwell 16.02?

ANSYS Maxwell 16.02 has many features that make it a powerful and efficient tool for electromagnetic simulation. Some of these features are:

  • Advanced magnetic modeling: Maxwell can model nonlinear and anisotropic materials, permanent magnets, hysteresis, eddy currents, skin effects, and more.

  • Multiphysics couplings: Maxwell can couple with other ANSYS tools, such as Mechanical, Fluent, Icepak, Simplorer, etc., to simulate the effects of thermal, structural, fluid, and circuit interactions on the electromagnetic performance.

  • Reduced-order modeling: Maxwell can generate reduced-order models (ROMs) that capture the essential behavior of the electromagnetic device with minimal computational cost. ROMs can be used for system-level analysis, optimization, or control design.

  • Slice-only solving: Maxwell can use a cyclic repeatability simulation technique for electric motor applications, which allows solving just a slice of the motor and replicating the results to the full model. This can significantly reduce the simulation time and memory requirements.

  • Co-sim transient performance: Maxwell can co-simulate with Simplorer to analyze the transient performance of electric drives, including the effects of switching losses, harmonics, torque ripple, etc.

  • Automatic adaptive meshing: Maxwell can automatically refine the mesh based on the solution accuracy and convergence criteria. This ensures optimal mesh quality and efficiency.

  • 2D and 3D EM solvers: Maxwell offers various solvers for different types of problems, such as electrostatic, magnetostatic, eddy current, and magnetic transient solvers. These solvers can handle 2D or 3D geometries with different boundary conditions and sources.

How to get ANSYS Maxwell 16.02?

If you are interested in using ANSYS Maxwell 16.02 for your electromagnetic simulation needs, you can visit [this website] to purchase it online. You can also download a free trial version from [here] to test its capabilities before buying it.

I hope this article was helpful for you to learn more about ANSYS Maxwell 16.02. If you have any questions or feedback, please leave a comment below.


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