Add to ORKGA practical approach for magnetic core-loss characterization up to a few megahertz is presented. An error analysis is for the first time performed, revealing that corrections are needed to compensate for errors introduced by the extra phase shift inherent in a measurement setup, and by shunt parasitic capacitance associated with an inductive device under test. A simple technique is then proposed to control the error so as to satisfy prescribed tolerances. Extensive measurements done on a TDK PC40 core yield results which support the analysis. Several sample cores are then characterized at a few megahertz
Abstract Accurate loss estimation of magnetic components is crucial for power electronics engineers....
This paper investigates the loss characteristics of RF magnetic materials for power conversion appli...
In this paper, the problem of estimating the core losses for inductive components is addressed. A no...
A practical approach for magnetic core-loss characterization up to a few megahertz is presented. An ...
As an essential component in power applications, magnetic cores and their design play an important r...
Accuracy of a direct measurement of core-loss power is severely limited in many applications by the ...
Accurate core-loss characterization is essential to push the power density of power converters to th...
A new method have been developed based upon analogue-to-digital conversion techniques and memories. ...
Magnetic materials are used in the manufacturing of transformers, electrical machines, converters an...
198 p.In this thesis a new method is presented to measure the magnetic core losses. This method uses...
This thesis describes a simple method of constructing core loss of Mn-Zn magnetic materials at high...
With the increasing switching frequencies and power densities in modern power converters, magnetic c...
The basic magnetic properties under various operating conditions encountered in the state-of-the-art...
In this report, a new method is presented to measure the magnetic core losses at high frequencies.RP...
Electrical measurement is a common method to determine core losses of inductive components. In such ...
Abstract Accurate loss estimation of magnetic components is crucial for power electronics engineers....
This paper investigates the loss characteristics of RF magnetic materials for power conversion appli...
In this paper, the problem of estimating the core losses for inductive components is addressed. A no...
A practical approach for magnetic core-loss characterization up to a few megahertz is presented. An ...
As an essential component in power applications, magnetic cores and their design play an important r...
Accuracy of a direct measurement of core-loss power is severely limited in many applications by the ...
Accurate core-loss characterization is essential to push the power density of power converters to th...
A new method have been developed based upon analogue-to-digital conversion techniques and memories. ...
Magnetic materials are used in the manufacturing of transformers, electrical machines, converters an...
198 p.In this thesis a new method is presented to measure the magnetic core losses. This method uses...
This thesis describes a simple method of constructing core loss of Mn-Zn magnetic materials at high...
With the increasing switching frequencies and power densities in modern power converters, magnetic c...
The basic magnetic properties under various operating conditions encountered in the state-of-the-art...
In this report, a new method is presented to measure the magnetic core losses at high frequencies.RP...
Electrical measurement is a common method to determine core losses of inductive components. In such ...
Abstract Accurate loss estimation of magnetic components is crucial for power electronics engineers....
This paper investigates the loss characteristics of RF magnetic materials for power conversion appli...
In this paper, the problem of estimating the core losses for inductive components is addressed. A no...