An Alternative Method to Accurately Model Magnetic Components Using Ansys HFSS 3D

The trend of using wide band-gap devices in power electronics has increased the capability of power converters to shrink more in size and weight as they can operate at higher frequency (MHz range). This provides the opportunity to make power modules more compact, low profile, and portable. This huge enhancement in active components pushes the limitations of high power converter to passive components. The passive components behave differently at high frequency due to the variation in permeability of magnetic cores, skin and proximity effect, inter-winding and intra-winding capacitance; especially at MHz range the parasitics might be the dominant factor. To mitigate the challenges of using passive components at high frequency, modeling of the magnetic components considering parasitics should be re-evaluated since the lumped models can not accurately represent the behavior of the inductors or transformers in simulations. Finite element method (FEM) based simulations such as Ansys Maxwell 3D are common tools to simulate magnetic components using quasi-static approximation of Maxwell's equations. In this paper, an accurate modeling method is proposed using Ansys HFSS 3D which is a full-wave solver and using the scattering parameter of the simulated component, a model can be generated to be used in the circuit simulation. It has been elaborately investigated that it can precisely model the magnetic component without any simplifying assumption in the design process. To validate the accuracy of this method, a flat wire inductor is modeled in HFSS 3D and MAXWELL 3D and the results are analyzed in Ansys CIRCUIT and SIMPLORER. The inductor is accurately measured using Agilent E5061B vector network analyzer and it is verified that the simulation results from HFSS can closely represent the behavior of the passive component at high frequency range to be used in time domain circuit simulations.

Automated summary

The trend of using wide band-gap devices in power electronics has improved the capability of power converters by allowing them to operate at higher frequencies. However, this poses challenges for passive components, as their behavior at high frequencies differs from that at low frequencies. To accurately model passive components, a method using Ansys HFSS 3D is proposed in this paper. This method utilizes a full-wave solver and the scattering parameter of the simulated component to generate a model for circuit simulations.