SimScale Adds Joule Heating Simulation for the Power Electronics Industry

Tool includes automated post-processing features

SimScale Adds Joule Heating Simulation for the Power Electronics Industry with Automatic Post-Processing Tools

Conjugate Heat Transfer (CHT) Joule heating: The new Joule heating interface and dialog box in SimScale for including Joule heating in a CHT analysis. Image courtesy of SimScale.


Last week, SimScale launched a new Joule Heating Simulation program, aimed at those developing power electronics products and components. In the blog post announcing the release, SimScale writes, “With the new features introduced in SimScale, users can now explicitly define the key Joule heating parameters, variables and output key metrics to base design decisions on.”

The announcement highlights the following:

  • Analysis type: users can toggle on Joule Heating when setting up a Conjugate heat transfer (CHTv2 or IBM) analysis type in SimScale.
  • Materials: when defining material properties, choose the isotropic or orthotropic conductor option. The materials can be imported from the library or added to the database and can be shared among projects and teams. 
  • Boundary conditions: in the boundary conditions dialog box, users can specify the current flow direction and electric potential (see images below).
  • Outputs: include current density, electric potential, and Joule heat generation.

SimScale says its new tool offers “an easy-to-use interface with powerful and automated post-processing features.” With it, you can add dissipated power as a power source on the electronic components, the company explains.

As example applications, SimScale presents simulation performed on electrical inverters, resistors, electric vehicle batteries, and fuse blocks. 

With headquarters in Munich, Germany, and offices in New York and Boston, U.S., SimScale offers cloud-based simulation. 

Joule heating simulation is also part of COMSOL Multiphysics, Cadence, and SOLIDWORKS Simulation, among others. 

Joule heating simulation in SimScale showing the electric potential (top), generated heat (middle), and current density magnitude (bottom) on the inverter busbars (red indicates a higher value). Image courtesy of SimScale.

More SimScale Coverage

Microclimate Simulation for Urban Design
A cloud-native simulation platform allows architects and engineers to simulate and analyze high-fidelity models with complex physics for urban design.
SimScale and PTC Collaborate for Startups
Startups using PTC Onshape will have free access to cloud-native simulation enabling accelerated product development, companies report.
SimScale, Hexagon Partner on Cloud-Native Access to Advanced Analysis
Platform enhances accessibility, usability, and deployment of advanced structural analysis tools for engineering teams worldwide.
SimScale Announces Simulation Platform Enhancements
Enhancements are specific to AI-powered automotive design.
SimScale Showcases AI-Driven Automotive Design Features
SimScale, a fully cloud-native simulation platform, works with leading manufacturers, suppliers and OEMs to ship better products faster, company reports.
SimScale Launches Simulation Features for Components Testing
SimScale is inviting engineers to join a live demo of a vibration analysis on an electric vehicle inverter.
SimScale Company Profile

Share This Article

Subscribe to our FREE magazine, FREE email newsletters or both!

Join over 90,000 engineering professionals who get fresh engineering news as soon as it is published.


About the Author

Kenneth Wong's avatar
Kenneth Wong

Kenneth Wong is Digital Engineering’s resident blogger and senior editor. Email him at kennethwong@digitaleng.news or share your thoughts on this article at digitaleng.news/facebook.

      Follow DE
#27472