next training sessions

See below the next training sessions provided by CEDRAT.

Please fill the registration form and send it to CEDRAT to attend our training courses.

New Flux v12: Update functions course

Duration: 1 day
Goal: To know how to solve using scenario; To know how to analyse results: cut planes, isovalues and arrows, ... ; To know how to export results (text file, Excel format, ...) ; Discover macro possibilities.
Language: English/French
Public: The current users of Flux (2D & 3D)

Flux 2D: Introductory course

Duration: 3 days
Goal: To teach to the new users the main knowledge allowing them to use the software on the best way in usual cases. To discover the interest of this software for the applications of the user. To learn how to defi ne study domains, import geometries, mesh them, build the material database, define the boundary conditions, solve and analyse.
Language: English/French
Public: New users of the program

Flux 2D: Advanced course

Duration: 2 days
Goal: To improve the use of the software Flux 2D in relation with the offi ce tools ; To get better profit of the command files for repetitive tasks, To discover the possibilities to transfer results, directly from the software to reports.
Language: English/French
Public: Flux 2D users

Flux 3D: Introductory course

Duration: 3 days
Goal: To teach to the new users the main knowledge allowing them to use the software on the best way in usual cases. To discover the interest of this software for the applications of the user. To learn how to define study domains, import geometries, mesh them, build the material database, define the boundary conditions, solve and analyse.
Language: English/French
Public: New users of Flux 3D

Flux 3D: Advanced course

Duration: 2 days
Goal: To improve the use of the software Flux 3D in relation with the office tools. To get better profit of the command fi les for repetitive tasks. To discover the possibilities to transfer results directly from the software to reports.
Language: English/French
Public: Flux 3D users

Flux 2D and Rotating Machines

Duration: 3 days
Goal: To learn the principles of 2D modeling of rotating machines with circuit coupling and mechanics. To know how to model asynchronous and synchronous machines: characterisation, start-up, short-circuit,…
Language: English/French
Public: Rotating machines designers who aim to fully benefit

Flux 3D and Rotating Machines

Duration: 3 days
Goal: To learn the principles of 3D modeling of rotating machines with circuit coupling and mechanics ; To know how to model machines: characterisation, start-up, short-circuit,… ; To learn how to use non meshed coils and thin regions.
Language: English/French
Public: Persons used to Finite Element models in the field of electrical machines

Flux and Induction Machines

Duration: 3 days
Goal: Discover how to use Flux tool to model induction machines. To know how to characterize machines. To know how to model standard characterization test. To discover SSFR method applied to Flux model. To understand interest of 2D and 3D analysis.
Language: English/French
Public: Engineers involved in designing or improving induction machines

Flux 2D and magneto-thermal simulation applied to electrical rotating macines

Duration: 3 days
Goal: To improve the use of the software Flux 2D in relation with magneto-thermal aspect to design electrical motor (synchronous and induction motor).
Language: English/French
Public: Rotating machines designers who are knowing electromagnetic modeling with finite element method in 2D.

Flux and the PyFlux command language

Duration: 2 days
Goal: To learn how to make use of the basic functions from Pyflux language process control of Flux based on Jython to discover the power of the tool
Language: English/French
Public: Flux users

Flux and power transformers design

Duration: 3 days
Goal: Learn how to design a power transformer in Flux 3D ? To know the physical principles ? Optimize magnetic and thermal performances.
Language: English/French
Public: Engineers and technicians involved in the modeling and the optimization of power transformers.

Flux and the Linear Magnetic Actuators

Duration: 3 days
Goal: To learn the main knowledge allowing to model magnetic linear actuator ; To know the physical principles ; To know how to use the analytic methods ; To know the possibilities of the finite elements method.
Language: English/French
Public: Engineers and technicians involved in designing or improving magnetic linear actuators.

Flux and sensors design

Duration: 2 days
Goal: To learn the main knowledge allowing to model sensors ? To know the physical principles ? To know how to use the analytic methods ? To know the possibilities of the finite elements method.
Language: English/French
Public: Engineers and technicians involved in designing or improving sensors.

Flux 3D and Non Destructive Testing

Duration: 3 days
Goal: To teach to the new users the main knowledge allowing them the best use of the software for NDT applications. To know how to define the study domains, import geometries, mesh them, build the material database, define the boundary conditions, solve and analyse.
Language: English/French
Public: New users of Flux 3D

GOT-It Optimization tool - Introductory course

Duration: 2 days
Goal: To teach to the new users the main knowledge allowing them to use the software GOT-It on the best way in usual cases - To discover the interest of the optimization with GOT-It for the application of the user: screening, model reduction, un-direct optimization, robustness analysis - To learn how to use GOT-It with the CEDRAT software suite.
Language: English/French
Public: New users of the program

InCa3D simulation of electrical connections

Duration: 2 days
Goal: To become familiar with the use of InCa3D software.
Language: English/French
Public: New users of InCa3D software

InCa3D for EMC topics in power electronics

Duration: 2 days
Goal: To become familiar with the use of InCa3D software.
Language: English/French
Public: Engineers and technicians involved in the modeling and the optimization of power transformers.

Rotating electrical machines

Duration: 3 days
Goal: To understand working principles. To compare performances. To select the kind of motor according to requirements.
Language: English/French
Public: Design engineers and technicians who aim to discover, improve or recover their knowledge in the field of rotating electrical machines.