Struggling with overheating PCBs, airflow bottlenecks, or long thermal simulation runtimes?
As power densities rise and form factors shrink, electronics cooling is no longer a late-stage check — it’s a core design requirement. Poor thermal performance leads to hotspots, reduced reliability, field failures, and costly redesigns.
Download this free eBook to learn how to use intelligent thermal simulation to predict and solve cooling issues early.
What You’ll Learn
How to model conduction, convection, and radiation in electronics
- How to calculate junction temperature and thermal resistance
- Passive vs. active cooling design strategies
- Best practices for ECAD/MCAD integration
- How to set accurate boundary conditions
- Steady-state vs. transient thermal analysis
- Liquid cooling and cold plate simulation
- How to identify and eliminate hotspots
- Design optimization workflows that reduce thermal risk
Built Around the Celsius EC Solver
This guide demonstrates how modern CFD-based electronics cooling tools enable:
- Full PCB and enclosure simulation
- GPU-accelerated solving
- Automated meshing and preprocessing
- Faster iteration and earlier thermal signoff
Reduce simulation time. Improve accuracy. Avoid overdesign.
Stop Discovering Thermal Problems in the Lab
Simulation-driven design helps you:
- Detect hotspots before prototyping
- Validate cooling strategies early
- Improve reliability margins
- Shorten time to market