Cedrat Flux 11.2 Suite.rar
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Cedrat Flux 11.2 Suite: A Powerful Tool for Electromagnetic and Thermal Simulation
Cedrat Flux 11.2 Suite is a software package that includes Cedrat Flux 11.2, Portunus 5.2, and COT-It 2.0.1. Cedrat Flux 11.2 is a finite element analysis software that can design, analyze, and optimize a variety of devices that involve electromagnetic and thermal phenomena, such as motors, transformers, sensors, actuators, induction heating, etc. Portunus 5.2 is a multi-domain system simulation software that can model a complete mechatronic system within the same simulation sheet. COT-It 2.0.1 is an optimization software that can improve the performance and efficiency of devices and systems in electrical engineering.
Cedrat Flux 11.2 Suite offers many features that make it one of the most advanced and user-friendly simulation tools on the market. Some of these features are:
A new graphical user interface that simplifies the workflow and enhances the user experience.
A new mesh generator that can handle complex geometries and create high-quality meshes.
A new solver that can handle large problems and reduce computation time.
A new post-processor that can display results in various formats and perform advanced analysis.
A new coupling with Portunus that allows co-simulation of electromagnetic and thermal models with other physical domains.
A new coupling with COT-It that allows optimization of parameters and objectives using various algorithms.
Cedrat Flux 11.2 Suite is a powerful tool for engineers who want to design and optimize devices and systems that involve electromagnetic and thermal phenomena. It can help them achieve their goals of energy efficiency, cost reduction, and smart features.
For more information about Cedrat Flux 11.2 Suite, please visit the official website of Cedrat[^1^] or download the CedratNews_65en_HD.pdf[^2^] file.
In this article, we will show you how to use Cedrat Flux 11.2 Suite to design and optimize a three-phase induction motor. We will use Cedrat Flux 11.2 to create the geometry and the mesh of the motor, define the materials and the boundary conditions, and perform the electromagnetic and thermal simulation. We will use Portunus 5.2 to model the electrical circuit and the mechanical load of the motor, and co-simulate them with the electromagnetic and thermal model. We will use COT-It 2.0.1 to optimize the dimensions and the winding of the motor, and evaluate the performance and efficiency of the motor.
The first step is to create the geometry and the mesh of the motor using Cedrat Flux 11.2. We can use the built-in tools or import an existing CAD file. We can also use parametric variables to define the dimensions and the winding of the motor. The geometry of the motor consists of four parts: the stator core, the stator winding, the rotor core, and the rotor bars. The mesh of the motor consists of triangular elements that conform to the geometry and respect the symmetry of the motor.
The second step is to define the materials and the boundary conditions for the electromagnetic and thermal simulation using Cedrat Flux 11.2. We can choose from a library of predefined materials or create our own materials. We can also assign different properties to different regions of the geometry. The materials of the motor are: iron for the stator core and the rotor core, copper for the stator winding and the rotor bars, air for the air gap and the cooling medium, and insulation for the insulation layer. The boundary conditions for the electromagnetic simulation are: a three-phase voltage source for the stator winding, a short circuit for the rotor bars, a zero magnetic flux for the outer boundary, and a periodic condition for the symmetry boundary. The boundary conditions for the thermal simulation are: a heat source for the stator winding and the rotor bars, a heat transfer coefficient for the air gap and the cooling medium, a fixed temperature for the outer boundary, and a periodic condition for the symmetry boundary.
The third step is to model the electrical circuit and the mechanical load of
the motor using Portunus 5.2. We can use a graphical user interface to drag
and drop components from a library or create our own components. We can
also use parametric variables to define the parameters and values of
the components. The electrical circuit of
the motor consists of a three-phase voltage source, a three-phase bridge
rectifier, a DC link capacitor, an inverter, and a three-phase induction
motor. The mechanical load of
the motor consists of an inertia, a friction, and a torque load.
The fourth step is to couple
the electromagnetic and thermal model with
the electrical circuit and mechanical load using Portunus 5.2. We can use
a co-simulation feature that allows us to exchange data between Cedrat Flux
11.2 and Portunus 5.2 at each time step. We can also use monitors and probes
to display and record
the results of
the co-simulation.
The fifth step is to optimize
the dimensions and
the winding of
the motor using COT-It 2.0.1. We can use an optimization feature that allows us to define
the variables, objectives, constraints,
and algorithms for
the optimization problem. We can also use graphs and tables to visualize and compare
the results of
the optimization.
The final step is to evaluate
the performance and efficiency of
the motor using Cedrat Flux 11.2,
Portunus 5.2,
and COT-It 2.0.1.
We can use various indicators such as torque,
speed,
power,
current,
voltage,
temperature,
losses,
efficiency,
etc.
to assess
the quality of
the design and optimization.
As you can see,
Cedrat Flux 11.2 Suite is a powerful tool for designing and optimizing devices and systems that involve electromagnetic and thermal phenomena.
It can help you achieve your goals of energy efficiency,
cost reduction,
and smart features. 061ffe29dd