Home / WPML test with Electronics Cooling

WPML test with Electronics Cooling

Improve innovation, time to market, quality of the product and reduce costs

Electronics Cooling is crucial when you need to improve innovation, time to market, and the quality of your product, reducing costs at the same time. We offer you an approach to Electronics Cooling based on three pillars:

  1. Simulation at the beginning of the design process - It allows you to perform correct choices experimenting with alternatives.
  2. Thermal simulation solutions dedicated to designers - You don't need experts in Computational Fluid Dynamics (CFD).
  3. Easy to use, fast learning curve - Mechanical and electronic engineers can perform simulations with ease.
Smart Home
Reduction of Time to Market
Smart Home
Product Right the First Time
Smart Home
No Design Iterations
Smart Home
Reduction of Costs

How Simulation Driven Design improves Electronics Cooling

How can Simulation Driven Design improve Electronics Cooling in your design?

In the old way, designers would create their first iteration of a design, and then hand it off to the simulation team for feedback.  The simulation team is overwhelmed and the traditional CAE process was time-consuming, which meant it would take a very long time before the simulation team can provide feedback to the designer.  So many times what typically happens is that the designer continues iterating on a design just based on guesses and experience. By the time results came back from the simulation, the results were already out of date and out of synch with design.  This process would continue for a number of iterations, and it often might be that a design gets released before the development organization is fully confident it can meet performance requirements.  They hope it passes final testing.

With Simulation Driven Design, designers actually start the process with a simulation that helps define the initial design shape.  Then the designer can continuously perform a simple, qualitative simulation on each design iteration to make sure the design is on the right track. This helps the designer to achieve a more robust part that released more quickly than your competition that is still stuck in the old way of doing things.  It also frees up your simulation team by reducing the amount of time spent on more routine analyses and lets them focus on more complex analyses.

Simulation Driven Design

Integration with MCAD

One of the biggest advantages of using Siemens tools for Electronics Cooling is the Integration with Mechanical CAD (MCAD). Simcenter FLOEFD and Simcenter Flotherm XT are the only fully CAD-embedded CFD solutions on the market dedicated to thermal simulation in electronics.

They are built into major MCAD systems, such as Solid Edge, Siemens NX, Creo, CATIA, and Solidworks.

Advantages of Integration with MCAD

  • No Import Required
  • CAD and CFD Always Sinched
  • Reduced Time for Simulation

Integration with ECAD

With Simcenter FLOEFD and Simcenter Flotherm XT you can import the PCB design from any ECAD solution (including Cadence, Zuken, Altium,...), create the model in 5 minutes, and perform thermal simulation during any stage of the electronics design process.

Advantages of Integration with ECAD

  • Better product quality
  • Greater reliability
  • Reduced Time to Market
Electronics Cooling - Integration with ECAD

Software Solutions for Electronics Cooling

floefd for 3d cfd analysis

Simcenter FLOEFD

FLOEFD is an Electronic Cooling solution that lets you perform 3D CFD Analysis inside your...

flotherm, electronics thermal analysis

Simcenter Flotherm XT

Simcenter Flotherm XT is a CAD centric electronics cooling simulation software provided by Siemens, which...


Discover Success Stories in Electronics Cooling

Do you want to receive more information about these Solutions?

Do you want to receive more informations?

Ask an Electronics Cooling expert for information:

Contact us and we will answer your doubts and curiosities as soon as possible.

Scroll to Top