Maxwell 3D - Ansoft Corporation. Vizimag 2D: Visualize magnetic fields. MAGNETO: 2D/RS Magnetic Field Simulation Software. 2D motor Rotational Symmetric Model of Helmholtz Coils showing Solid Contour Plot of X Component of B Field 2D motor Rotational Symmetric Model of Helmholtz Coils showing Solid Contour Plot of X Component of B Field MAGNETO, a fully integrated 2D/RS magnetic field solver from Integrated Engineering Software puts you on the cutting edge of electromagnetic design.
MAGNETO provides both Boundary Element Method (BEM) and Finite Element Method (FEM) solvers, so you can select the best analysis method for your application. Get smooth, reliable and extremely accurate results for the most complex magnetic design problems. Fast and accurate, MAGNETO calculates force, torque, flux linkage and inductance. Request an evaluation >>Book a live demo >> "We are very impressed with the user friendliness of the software and the level of accuracy we obtain with the program, which is extremely important for our application.
" - - Dr. AMPERES: 3D Magnetic Field Simulation Software. Magnetic field in a motor 3D Model of Helmholtz Coils showing Profile and Contour Plots of axial component of B Field Magnetic field in a motor 3D Model of Helmholtz Coils showing Profile and Contour Plots of axial component of B Field AMPERES, a three-dimensional magnetic field solver from Integrated Engineering Software delivers superior design capabilities in one fully integrated package.
AMPERES greatly expands your design potential and allows you to simulate and optimize electromagnetic components and systems before the manufacturing stage. Avoid building multiple prototypes. Lower your development costs and times. Fast and accurate, AMPERES calculates force, torque, flux linkage and inductance. Request an evaluation >>Book a live demo >> "The results realized were accurate with less than 1% error from analytical solutions.
" - Dr. Gmsh: a 3D finite element mesh generator with built-in pre- and post-processing facilities. Christophe Geuzaine and Jean-François Remacle Version 2.8.4, February 7 2014 Description | Download | Authors and credits | Documentation | Licensing | Screenshots | Links | References Description Gmsh is a 3D finite element grid generator with a build-in CAD engine and post-processor.
Its design goal is to provide a fast, light and user-friendly meshing tool with parametric input and advanced visualization capabilities. See the screencasts for a quick tour of Gmsh's graphical user interface, or the reference manual for a more thorough overview of Gmsh's capabilities and some frequently asked questions. Download Gmsh is distributed under the terms of the GNU General Public License (GPL): Current stable release: Windows 32 bit / 64 bit, Linux 32 bit / 64 bit, Mac OS X and source code A tutorial introducing all key features and concepts is included in all the versions in the tutorial directory. GetDP: a General Environment for the Treatment of Discrete Problems.
Patrick Dular and Christophe Geuzaine Version 2.4.3, February 7 2014 Description | Download | Authors and credits | Documentation | Licensing | Links Description GetDP is a general finite element solver using mixed elements to discretize de Rham-type complexes in one, two and three dimensions.
The main feature of GetDP is the closeness between the input data defining discrete problems (written by the user in ASCII data files) and the symbolic mathematical expressions of these problems. For example, to solve the Poisson equation div(a grad(v)) = f on a domain D, an input file (".pro" file) would contain something like this: i.e., a direct transcription of the discrete function space and weak form of the problem. FEMM 2D Finite Element Method Magnetics: HomePage.
Radia 3D - Europ. Synch. RF -Grenoble. Opera 3D - Vector Fields - Software for Electromagnetic Design. Magnet 3D - Infolytica. MagNet v7 2D/3D simulation software for electromagnetic fields let's you rapidly model and predict the performance of any electromagnetic or electromechanical device: Electric Motors/Generators Magnetic Levitation Transformers Actuators Sensors/NDT Induction Heating Loudspeakers Magnetic Recording Heads MRI Transcranial Magnetic Simulations MagNet's solution approach is based on the highly accurate finite element method for simulating static, frequency dependent or time varying electromagnetic fields.
Efficiency is key, that's why MagNet includes many automated features which reduce the time to perform each design cycle. Comsol AC/DC Module. Pour la Simulation de l'Electromagnétisme Modèle temporel d'un transformateur monophasé à noyau en E, dont les propriétés non-linéaires sont décrites par une courbe B-H.
Le graphique montre le champ électromagnétique et le courant dans les enroulements primaires et secondaires. Simulation de Condensateurs, d'Inducteurs, de Bobines, de Moteurs et de Capteurs L'AC/DC Module permet de simuler des champs électriques, magnétiques et électromagnétiques dans des applications statiques et à basses fréquences. Les applications type concernées sont les condensateurs, les inducteurs, les isolateurs, les bobines, les moteurs, les actionneurs et les capteurs. Voir les Images » Les matériaux et relations constitutives sont définis en termes de permittivité, perméabilité, conductivité et champs rémanents.
Combiner Circuits Electriques et Electroniques avec des Simulations 2D et 3D Voir les Images » Images Supplémentaires Connectez-vous avec CAD, MATLAB® et Excel® FLUX 3D - Cedrat Group. Boundary element method. Christophe Geuzaine. I am a full professor in the Electrical Engineering and Computer Science Department of the University of Liège (ULg).
Before joining ULg I was an assistant professor of Mathematics at Case Western Reserve University. And before that I was a Postdoctoral Scholar in Applied and Computational Mathematics at the California Institute of Technology (Caltech), as well as a Chargé de Recherches with the Belgian National Fund for Scientific Research (FNRS). My research interests encompass modeling, analysis, algorithm development, and simulation for problems arising in various areas of engineering and science, with current applications in computational electromagnetism and biomedical problems: