Magnetic components using soft core materials are widely used in power electronic converters. The hysteresis effect of the material leads to power loss and harmonic distortion. If this effect can be modelled in system-level time-domain simulation, the performance of the magnetic component in combination with power converters can be predicted more accurately during the design phase. This work proposes an approach to model the hysteresis effect of soft magnetic materials in magnetic circuits based on the permeance-capacitance analogy
Lumped magnetic circuit provides possibility for fast transient simulation of magnetic component tog...
Abstract: The paper deals with a comparison of two published approaches to modelling the properties ...
There is a strong need in the power electronics community to have design tools capable of performing...
This paper introduces a thermally-compensated magnetic hysteresis model, capable of accurately deter...
In this article, a systematic procedure to derive equivalent circuit networks accurately reproducing...
Gyrator-Capacitor (G-C) models of electro¬magnetic devices provide a robust and convenient approach ...
IEEE Applied Power Electronics Conference and Exposition (APEC) (33th, 2018, San Antonio, Texas
A model that describes the magnetic behavior of nanocrystalline ring cores is useful for simulations...
We present experimental measurement of thermal effects on magnetic hysteresis of soft ferrite cores ...
Hysteresis phenomenon is a distinctive approach to describe the natural behavior of the magnetic mat...
The ability to predict the properties of magnetic materials in a device is essential to ensuring th...
Characterization of magnetic cores is an indispensable task in order to securely accomplish the req...
This paper proposes a method to include the anisotropic hysteresis characteristics of soft-magnetic ...
A compact equivalent-circuit model for ferroelectric switching devices is derived from a general mod...
A time-domain model including the core losses of a nonlinear inductor is proposed. The model can be ...
Lumped magnetic circuit provides possibility for fast transient simulation of magnetic component tog...
Abstract: The paper deals with a comparison of two published approaches to modelling the properties ...
There is a strong need in the power electronics community to have design tools capable of performing...
This paper introduces a thermally-compensated magnetic hysteresis model, capable of accurately deter...
In this article, a systematic procedure to derive equivalent circuit networks accurately reproducing...
Gyrator-Capacitor (G-C) models of electro¬magnetic devices provide a robust and convenient approach ...
IEEE Applied Power Electronics Conference and Exposition (APEC) (33th, 2018, San Antonio, Texas
A model that describes the magnetic behavior of nanocrystalline ring cores is useful for simulations...
We present experimental measurement of thermal effects on magnetic hysteresis of soft ferrite cores ...
Hysteresis phenomenon is a distinctive approach to describe the natural behavior of the magnetic mat...
The ability to predict the properties of magnetic materials in a device is essential to ensuring th...
Characterization of magnetic cores is an indispensable task in order to securely accomplish the req...
This paper proposes a method to include the anisotropic hysteresis characteristics of soft-magnetic ...
A compact equivalent-circuit model for ferroelectric switching devices is derived from a general mod...
A time-domain model including the core losses of a nonlinear inductor is proposed. The model can be ...
Lumped magnetic circuit provides possibility for fast transient simulation of magnetic component tog...
Abstract: The paper deals with a comparison of two published approaches to modelling the properties ...
There is a strong need in the power electronics community to have design tools capable of performing...