Test, validate, and optimize your electromagnetic projects with ease
Leverage the power of 3D electromagnetic simulation to visualize, analyze, and optimize complex systems – from electric machines to energy transmission.
With SimScale’s cloud-native platform, engineers can explore electromagnetic fields with precision and speed. Run simulations directly in your browser, collaborate in real time, and accelerate innovation without the cost and constraints of physical prototyping.
Key Capabilities
3D Finite Element Analysis: Gain deep insights into spatial and material influences.
Solver Options:
Optimize the electromagnetic, thermal, and structural performance of motors and generators with cloud-native 3D simulation. Quickly evaluate torque, efficiency, and losses across different operating conditions – from evaluating torque density to improving cooling strategies. Eliminate hardware limitations, explore more design variants, and accelerate innovation with confidence.
Accelerate the design and optimization of transformers and power devices with cloud-native 3D electromagnetic simulation. Evaluate core losses, thermal behavior, and mechanical stresses under real operating conditions. From virtual prototyping of 3-phase transformers to optimizing insulation and cooling strategies, engineers can explore more design variants, reduce costly prototypes, and deliver safer, more efficient power systems to market faster.
Design safer, more efficient wireless charging systems with cloud-native 3D electromagnetic simulation. Instantly evaluate inductive coupling, coil alignment, and energy transfer efficiency across different operating scenarios. From consumer electronics to medical devices and electric vehicles, engineers can virtually prototype wireless power transfer systems at scale, ensuring reliability, safety, and faster time-to-market.
Accurately model axial flux permanent magnet couplings to analyze torque transfer, efficiency, and thermal effects without mechanical contact. SimScale enables engineers to explore more design variations in less time, optimize performance, and minimize losses. From industrial drives to specialized machinery, magnetic coupling designs can be validated virtually, reducing prototyping costs and accelerating development of reliable, contactless power transmission systems.
Virtually prototype and optimize induction heating systems for applications ranging from cooking and hardening to welding and forming. Engineers can evaluate coil designs, frequency selection, and thermal effects in detail, ensuring efficient energy transfer and uniform heating. This enables reduced development costs, improved reliability, and higher performance across diverse induction heating applications.
Design and refine solenoids, clutches, and actuators by virtually testing magnetic fields, force output, and thermal behavior under realistic conditions. Engineers can optimize coil geometry, response speed, and energy efficiency, while evaluating durability in precision applications. This approach reduces reliance on physical prototypes and ensures reliable performance across industrial and consumer electromechanical systems.
Electromagnetic simulation enables engineers to design and optimize probes for non-destructive testing with greater precision. By virtually analyzing electromagnetic field distribution, sensitivity, and penetration depth, probe designs can be refined to detect cracks and defects with high accuracy. This approach ensures efficient fault detection across a wide range of materials and defect sizes, reducing development costs while improving the reliability of inspections.
Electromagnetic simulation of busbars enables engineers to optimize current distribution, minimize skin effect, and reduce resistive losses in high-power applications. Thermal analysis helps predict heat generation, identify hotspots, and evaluate cooling strategies to ensure safe and reliable operation under heavy loads. This approach supports the design of efficient, durable busbars for industrial, automotive, and power distribution systems.
Want to run electromagnetic simulations of your own?
In the past two years, SimScale has helped Solero pursue 10 new business opportunities in ride dynamics suspension solenoids, battery cooling, and transmission solenoids.
Check out all the success stories of our customers in the battery & electronics industry, including Solero, Katapult, Bold, and more!
See All StoriesCheck out the latest battery simulations performed in SimScale and validated against experimental and/or analytical results.
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