The electromagnetic field and its accurate measurement plays an important role in a wide range of sensor applications. CST STUDIO SUITE® allows the simulation of electromagnetic fields in such devices and uses a range of state-of-the art Finite Element Method (FEM) and other complementary simulation methods. The user can choose the best method for efficiently modelling the sensor at hand. This is combined with an easy-to-use but powerful graphical user interface, comprehensive CAD and EDA import and application-oriented workflows.
Electromagnetic Simulation of a Shaded-Pole Induction Motor
Shaded-Pole Induction Motors, used mainly in household and low power applications, are renowned for their simplicity, low cost and robustness. They are also, however, notorious for their low effciency and low starting torque.
To counteract some of these...
Electroquasistatic Simulation of a High Voltage Insulator
This article demonstrates the application of the CST EM STUDIO™ (CST EMS) electroquasistatic (EQS) solver to the simulation of a high voltage insulator. It also demonstrates the difference between the results obtained from the EQS Solver and Electro-Static...
3D Non-linear Transient Simulation of an SF6 550 kV 3-Phase Gas Insulated Bus
A Gas Insulated Bus is simulated using a simple model and the low frequency transient solver in CST EM STUDIO®, demonstrating the intuitive and easy-to-use modelling features.
Derivation of a Transformer Low Frequency Equivalent Circuit using Electromagnetic Field Simulation
Equivalent circuits of electromagnetic devices are an efficient alternative to full transient EM analysis especially when phenomenon such as inrush currents are investigated.
This article shows the application of the CST EM STUDIO® (CST EMS) Magnetostatic...
TEAM Benchmark 8 - Non-Destructive Testing Example : Coil Above a Crack
The TEAM Workshop Benchmark Problem no. 8 - Coil above a crack - is solved with CST EM STUDIO™. Results are compared with measurements.