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Create, Design, Engineer!
Flux, Efficiency Made Easy
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www.magsoft-flux.comwww.cedrat.com
October 2013
Philippe [email protected]
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Groupe CEDRAT3 companies, an international distribution network
ADAPTED SOLUTIONSCreation: 2006Development
System simulation
CEDRATCreation: 1971DevelopmentDsitribution
Support and Service
MAGSOFT Corporation.Creation: 1986
Software distributionSupport and Service(NAFTA, Pacific Rim)
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Team Application Applied technical expertise Training, consulting, support Technical communications
Team M&S Technically sensible sales force International network Independent distributors
Team R&D Physics and formulations Software Engineering Collaboration University
30 years of knowledge 70 employees
FY2012 = 6 M€
Groupe CEDRAT
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Magsoft Corporation
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Magsoft Corporation
11Webinars 11
Our references
Academics
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Our references
Industries
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Multiphysics systems simulator
Electric motors pre-sizing
Thermal modelingof motor
From energy generation to final conversion
Optimization software
Conductor impedance & near field simulation
Electromagnetic & thermal FE analysis
Generation Conversion Transportation & distribution
ExportCo-simulation
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30 Years of Innovation
1st 2DVersionMS/ES/MD
1981
2D Magneto-thermal coupling
1986
1992
2D circuit coupling
1996
3D rotatingmotiont
1994
2D translatingmotion
Losses in thin regions
1991
Magnetic thin regions
1990
1st 3D version MS
Rotatingmotion - 2D
Cedrat SA19
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MagsoftCorporation
1989
SwitzerlandKorea
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2005
Skew application
2003
3D magneto-thermal
3D Linearmovement
2002
3D circuit coupling
Simulink coupling
2006
Flux API
2007
Motor overlays
2009
PortunusCo-simulation
2D Sketcher
2011
30 Years of Innovation
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Flux: The Tool for EM Unlock the magic's of JC Maxwell’s equations!
Flux: electromagnetic and thermal phenomena by FEA (Finite Elements Analysis)
Magnetic signature of ships
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Flux: The Tool for EM The tool to engineer!
Analysis: Static analysis AC steady state analysis Transient analysis
Physics: Magnetic Electric Thermal
Coupled applications: Thermal/Magnetic or Electric FEM and Circuit/System FEM and motion Multiphysics (3rd Party)
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Induction Machine Solid RotorSteady State ACFlux Density Distribution
Flux - 2D
Flux
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Magnetic Bearing – Aerospatial, FranceFlux Density Distribution – Flux 3D
Flux
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For better results and shorter computation times, Flux solves for:
2D,
Skew,
3D.
SKEW
Flux: The Tool for EM
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Flux, an open software ready to communicate
CAD geometries import• Inventor SAT / ACIS• CATIA V4, V5• Inventor(Autodesk)• Pro / ENGINEER• IGES, IGES Advanced•STEP, STEP Advanced
Mesh import• NASTRAN• PATRAN• UNV Ideas
CAD export• SAT• CATIA V4, V5• IGES• STEP• MED
Result export• Excel• Text• XML
Mechatronic Systems Simulator
FluxPre-process Analyse Post-process
Driving Flux• Python• With API C/C++ language Excel Fluent VB ScriptFlux to Simulink
Templates for motors• SPEED & Motor-CAD imports
DataExport
DataImport
Geometricconstruction
MeshGeneration
Physical properties
Solvingprocess
Results post-processing
Software integration is a key strategy for Flux : data exchange between Flux and yourexisting software is now simpler than ever before!
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Flux: The Tool for EM
Parameters control of: all geometry and mesh constructs
physical properties and sources
Each parameter can be a mathematical expression
Create and use macros
The functions to create and design
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Easy Geometry Input – Sketcher
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Easy Geometry Input – Sketcher
Primary Elements
Lines,
4 sided structures,
Circles
Arcs
Edit Elements
Select
Cut/Copy
Paste/Move
Get the real Geometry
Chamfer
Fillet
Infinite box – open problem.
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Aided Mesh
Mesh the domain quickly and easily
Requirements for automatic mesh generator:
No specific mesh information
An initial mesh respecting the geometric features
Tools Global settings for meshing
Control mesh locally – point, line, face, volume
Special tool for specific characteristics of the physics: meshing of the skin depth
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Aided Mesh
Example …(2D tutorials)ES 2D
TH 2D
TM 2D
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A real device, with solid body motion!
Include the mechanical equation for solid body motion: Rotating motionTranslating motion Pivoting motion Free motion
Flux: Motion
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The elements to design and convince!
Color shaded maps, isovalue lines, arrows on faces to evaluate quantities such as flux or current density, or heat distribution
Variation curves along paths
Variation curves versus parameters (system, geometrical, physical)
Time or spatial spectrum computations
Global quantities such as inductances, energy, force and torques
Sensors28
Flux: Postprocessing
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Set the device in its environment, bring in the system perspective!External circuit connection for transient and AC magnetic applications, connect to
Portunus, Matlab/Simulink
Examples
Pulse With Modulation supply
Source/load star or delta connected
Squirrel cage and brush segment components
External Circuit Connections
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External Circuits, Flux to Matlab/Simulink
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Flux to Matlab/Simulink
Current vs. Time
Torque vs. Time
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Postprocessing
A new postprocessor for skewed application
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Example of Devices
Translating Motion
Safety Relay
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Example of Devices
Rotating Motion
Electrical Motor
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Example of Devices
Rotating Motion
Resolver
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Example of Devices
Rotating Motion
Speed Sensor
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Parameterization - Multiposition
Series of snapshot, one sample independent of the next one
Cogging Torque/Force
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Multiposition
Slot Opening
Slot Opening
Rotor Angle
Torq
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rque
Slot OpeningRotor Angle
Torq
ue
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Multiposition
Series of snapshot, one sample independent of the next one
Cogging Torque/Force
Flux Linkage
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Multiposition
Series of snapshot, one sample independent of the next one
Cogging Torque/Force
Flux Linkage
Torque/Force vs. Load Angle/ Position and Current
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Flux 11 - macros
New macros in Flux 11• TotalHarmonicDistorsion.PFM
• HowToCreateFileForNonMeshedCoils.PFM (From IGES file)
• FormatDEXFile.PFM (Create a fromated DEX file)
• ExtractFrom3DCurve.PFM (Extract a specific value from a 3D curve)
• FormatFluxResults.PFM
• AutomaticPostprocessing.PFM
• CutPlaneFrom3Points.PFM
• ExportFieldFaceRegion.PFM (For all steps of a solving scenario)
• CurrentRegulateur.PFM (Regulate current of a voltage supply)
• ExportFieldsVolumeRegion.PFM
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Flux 11 - macros
New macros with Flux 11 • Analyse2DCurve (For GOT-It)
• AnimationIsolinesFaceRegionAC
• Circuit_3_phases
• Circuit_collector
• CoilAroundTorus
• ComputeInductance
• ComputeMeanValueOnFaceRegion
• MinMaxValueFaceRegion
• MinMaxValueVolumeRegion
• SolidConductorCurrentInPlane (New name for this macro already available with Flux 10.4)
• SolidConductorNoEddyCurrent (New name for this macro already available with Flux 10.4)
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Flux Version 11.1
See how it works!
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Flux – Electric Fields
Substation:Electric Field Distribution
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Electric Field Actuator
Voltage Distribution
Flux – Electric Fields
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Magnetic FieldsLoudspeaker – Flux Lines
Proximity Sensor – Flux Lines
DC Motor – Flux Denisty Distribution
End TurnsCurrent andFlux Density
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Translating Motion - Actuators
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Rotating Motion – Watch Motors
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Rotating Motion – Motor & Generator
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Thermal Applications
Temperature distribution in underground cables at steady state
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Thermal Couplings
Dielectric heating of a windshield gasket
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Magneto-thermal 2D and 3D
Examples:
heat treatment ofmaterials
Inductors optimisation(shape, currents..)
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Thank you for your interest in our modelling solutions
www.magsoft-flux.com