3d Magnetic Field Simulation Software
- 3d Magnetic Field Simulation Software Online
- 3d Magnetic Field Simulation Software Downloads
- 3d Magnetic Field Simulation Software
- Download MaxFEM for free. Software for electromagnetic simulation. MaxFem is an open software package for electromagnetic simulation by using finite element methods. The package can solve problems in electrostatics, direct current, magnetostatics and eddy-currents.
- Maxwell is an industry-leading electromagnetic field simulation software for the design and analysis of electric motors, actuators, sensors, transformers and other electromagnetic and electromechanical devices. Low-frequency EM simulation. Automatic, adaptive meshing. Multidomain system modeling. Expert design interfaces.
- This java applet is a magnetostatics demonstration which displays the magnetic field in a number of situations. You can select from a number of fields and see how particles move in the field if it is treated as either a velocity field (where the particles move along the field lines) or an actual force field (where the particles move as if they were little magnets).
- EMS is a 3D electromagnetic field simulator software suite, based on the powerful finite element method. EMS is seamlessly integrated inside Autodesk® Inventor®. The full integration in Inventor means that users will not need to import, export, heal, clean, or fix any geometrical inconsistency because they will be working right inside Inventor while optimizing their electromechanical design.
The MagNet7 is a 2D/ 3D magnetic field simulation software package. Evaluation of basic performances of a 14-12 spherical motor The rotation torque at a rotation angle will be estimated by dynamic rotation simulations using a 3D magnetic field simulation software and this is one of future problems.
3d Magnetic Field Simulation Software Online
Free online simulation resource provides fast results with high accuracy and configurability for magnetic position sensor design, covering linear and rotary modes of operation
Tessenderlo, Belgium, 1 July 2021 - Melexis has introduced a free, online simulation tool for magnetic sensor evaluation and module design. The online tool gives customers’ engineering teams the ability to design and simulate their own magnets based on Melexis’ Triaxis® 2D/3D sensors. By using the simulation application, engineers can quickly design a custom magnetic sensor module to their own specification.
Melexis, a global microelectronics engineering company, has developed a free online simulation application for its Triaxis® range of magnetic sensors, covering both linear and rotary applications. It simulates the sensor’s performance in a customer’s application with a high level of accuracy, including stray field immunity. Simulation with this level of accuracy can significantly improve and accelerate the design cycle of sensor modules.
“Simulation software has become an incredibly powerful and useful resource for engineering teams,” commented Jerome Degois, Regional Marketing Manager at Melexis. “Melexis has developed this online simulator to give customers fast, accurate results at the earliest possible stage in a project’s design. It delivers greater accuracy than other simulators, as it has been specifically developed to simulate how the Triaxis® 2D/3D magnetic sensor will react when used with a wide variety of magnets.”
Simulating multipole magnets is not simple, as it involves complex physics. As a result, simulators with this level of functionality are not generally available from manufacturers at no cost. Melexis has taken the decision to make its simulation tool free to use and include as much simulation capability as possible. This makes it much more complete than competitors’ tools, as it provides results that are closer to how a real sensor would perform.
The online simulation tool covers mechanical and magnetic design, for both linear and rotary modes of operation with or without stray field immunity factored in. No other free-to-use simulation tool can match these features. The tool also supports real-time design by providing results as soon as any parameter is modified. Based on the Streamlit framework and the Python library for analytical formulas for simple magnetic shapes (magpylib), Melexis has extended this foundation to create a catalogue of magnets that customers can use to develop and simulate their own unique applications.
The simulation tool will be live and free to use from July 1st 2021.
Access it here: www.melexis.com/magnetic-design-simulator
Integrated Engineering Software recently announced a major update to version 9.3 of its AMPERES 3D magnetic field solver for simulating and optimizing electromagnetic components. Highlights of the new release cited by the company include an enhanced coils and winding editor, more physics manipulation capabilities and various improvements that enhance overall performance.
Integrated describes AMPERES as a fully functional CAE package that comes as a complete and ready-to-use solution. The software deploys with both FEM (finite element method) and BEM (boundary element method) solvers. It can automatically choose which solver to use for a design under study or designers and engineers can specify either solver for their particular application needs.
AMPERES includes parametric analysis optimization tools for what-if analyses as well API (application programming interface) and scripting capabilities for advanced optimization. The software supports 64-bit parallel processing and unattended batch solving of multiple files.
Standard features include static and phasor analysis modes; the ability to simulate non-linear ferromagnetic, permanent magnet and lossy magnetic materials; force, torque, flux linkage and inductance calculations; and an array of display forms for plotting scalar and vector field quantities including graphs, contour plots and arrow plots. Additional features include CAD healing utilities, an intuitive and structured interface and several built-in, user-extensible materials tables and libraries.
AMPERES works with geometry from major mainstream CAD systems from such developers as Autodesk, PTC, Siemens and SOLIDWORKS. It also supports import of such file formats as SAT, STEP, 3DM, IGES and DXF. Through its API capabilities, applications such as Excel, MATLAB and Microsoft Visual Studio can work with AMPERES in an interconnected environment.
The Coils and Winding Editor can help users configure types of coils, create coils by assigning those types to geometry as well as create windings by specifying combinations of coils and circuitry. The Winding Editor enables users to select coils then configure their connection according to winding type. Users can also configure a source, configure the impedance and configure external load connections.
The AMPERES Coils and Winding Editor can now work with 2D/RS (rotationally symmetric) and full 3D models. With the latest update, users can generate irregular six-sided volumes to carry current. The company adds that it has improved the volume current density formulation, which, it says, leads to more accurate results on any irregular shaped volume.
One of the general performance enhancements introduced in the AMPERES 9.3 update is faster loading of large geometry models. By way of example, the company says that users of the latest update to AMPERES should see a reduced the loading time for a model with 50,000 volumes/surfaces from 5 minutes to about 1 minute.
AMPERES 9.3 offers more functions for geometry generation and operation such as creating 2D plot objects, 2D contour plots and screen coordinates. A few of the new functions for field inquiries are field quantities at specified points, floating voltage on conductors and current through a surface. Added physics manipulation capabilities include floating conductors, boundary conditions and total surface current. More functions to manage material properties, such as the magnet remanence and coercivity, have been incorporated into this release.
The AMPERES 9.3 update also sees several enhancements in its finite element solver for transient nonlinear models. Improvements to its iterative matrix solver provide more consistent convergence for complex problems with a large number of constraint equations, says the company. Integrated Engineering adds that the software’s BEM techniques now deliver more stable simulation results for models consisting of a combination of surface elements and line elements.
3d Magnetic Field Simulation Software Downloads
For more information on version 9.3 of the AMPERES 3D magnetic field solver, click here.
3d Magnetic Field Simulation Software
Sources: Press materials received from the company and additional information gleaned from the company’s website.