I'm modeling a coil-over-steel-plate system using 2D Perpendicular Induction Currents, Vector Potential mode (emqa), time harmonic analysis (f=1.0 MHz).
The calculated induced current density Jz at the plate surface (please see the attached picture) is exactly 0. However, 0.001 mm into the plate will give a induced current density of the order of 10^8 [A/m^2].
Why am I getting zero induced current density at conductor boundary? I checked the 2D eddy current model in the model library (axi-symmetric mode), the induced current density at conductor boundary is not zero and is continuous to its inside values.
Any hint will be greatly appreciated!
The calculated induced current density Jz at the plate surface (please see the attached picture) is exactly 0. However, 0.001 mm into the plate will give a induced current density of the order of 10^8 [A/m^2].
Why am I getting zero induced current density at conductor boundary? I checked the 2D eddy current model in the model library (axi-symmetric mode), the induced current density at conductor boundary is not zero and is continuous to its inside values.
Any hint will be greatly appreciated!