We help the world's electronics companies develop powerful, reliable and safe electronic devices by using thermal simulation. 6SigmaET enables you to:
In the electronics industry, there is constant demand for smaller and more powerful devices. This means increased power densities and heat generation in more compact spaces. As a result, thermal management is now a critical factor in modern electronics design, without which performance reductions, reliability problems and safety issues arise.
Virtual prototyping and engineering simulation are now widely used to speed up development and ensure designs are right the first time around.
6SigmaET is an award winning thermal modeling tool specifically designed for the electronics industry, and uses Computational Fluid Dynamics (CFD) to create accurate thermal models of electronic equipment. Our software is tailored to meet your requirements, and overcomes the issues traditionally faced by thermal simulation users.
We created 6SigmaET to streamline thermal simulation, so model creation is fast, grid generation is automatic and the software will solve a complex model at lightning speed.
6SigmaET’s powerful solver gives you simulation results you can rely on. It can solve large models with complex geometry, so you can include the amount of detail needed to get accurate results. It lets you spend less time simplifying simulation and more time designing. Our customers have validated 6SigmaET against real-world measured temperatures.
Our thermal simulation solutions can be found in the hands of engineers across a variety of industries.
“Thanks to 6SigmaET we were able to create simulated models of our soldering processes and now predict the behaviour of PCBs inside our manufacturing processes. The software proved to be the best market choice due to its ability to import all BOSCH PCB and product files, by its simulation speed and for its flexibility to adapt to different simulation environments.”
Process Engineer, BOSCH
“A comprehensive standalone tool, 6SigmaET doesn't need additional MCAD software for data entry, which means it is especially straightforward to use. The software is fast, fits our thermal modelling needs perfectly, and experimental testing in our laboratories has proven that the simulation results predict component temperatures with accuracy.”
“Whether building up a model from scratch or utilising the simplicity of the software's import capabilities for CAD and IDF data, wherever my start point has been, modeling times are significantly reduced. This has helped in quickly turning around solutions during the design cycle to verify the equipment's ability to withstand the harshest environmental conditions we know it will most probably encounter.”
Mechanical Engineer, Selex ES