Ansys si impegna a fare in modo che gli studenti di oggi abbiano successo, fornendogli il software gratuito di simulazione ingegneristica.
Ansys si impegna a fare in modo che gli studenti di oggi abbiano successo, fornendogli il software gratuito di simulazione ingegneristica.
Ansys si impegna a fare in modo che gli studenti di oggi abbiano successo, fornendogli il software gratuito di simulazione ingegneristica.
Per Stati Uniti e Canada
+1 844.462.6797
We'll present a comprehensive workflow for thermal simulation of PCBs. And show how this solution can be automated using Python to speed up overall simulation time and considerably decrease labor costs.
A thermal simulation process for printed circuit boards (PCBs) consists of many individual steps before the PCB model is ready for simulation. It requires importing PCB and Components via ODB++ and IDF, assigning materials and thermal blocks to dozens of components, and setting boundary conditions and proper mesh operations, to name a few.
To enhance simulation accuracy, it is often also necessary to consider joule heating of the planes and traces, which requires an additional dc simulation using SIWave. All these steps are usually done manually by the simulation engineer, and this can be exhausting and time-consuming depending on PCB size and component count.
This webinar will present a comprehensive workflow for thermal simulation of PCBs. We will show that this solution can be automated using Python to speed up overall simulation time and considerably decrease labor costs.
The workflow is implemented using Ansys SIWave, Ansys Icepak, and PyAEDT.
Simulation, Thermal and Validation Engineers, Hardware Developers
Michael Schreittmiller, Modules Expert HW, Webasto Roof & Components SE