Limiting loop proximity hysteresis model

Luiz Alberto Luz De Almeida; Gurdip Singh Deep; Antonio Marcus Nogueira Lima; Helmut Neff

Limiting loop proximity hysteresis model

Luiz Alberto Luz De Almeida
, Gurdip Singh Deep
, Antonio Marcus Nogueira Lima
, Helmut Neff

Federal University of Bahia
Universidade Federal de Campina Grande
Vir Biosensor

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

This paper introduces a simple algebraic limiting loop proximity ((L²P)) model to describe magnetic hysteresis. With only four parameters, it has low computational cost and reduced mathematical complexity, thus permitting a fast numerical implementation and simple parameter estimation procedure. The paper presents simulation results and discusses the model performance in terms of its capacity to represent common nonlinearities of the magnetic hysteresis phenomenon. The model avoids the heavy computational burden that results when magnetic hysteresis is included in computer-aided tools for electromagnetic devices and circuit analysis-for example, when hysteresis is combined with the finite-element method. The model also avoids the need to use repeated numerical approximation steps to adjust traditional models to experimental data.

Original language	English
Pages (from-to)	523-528
Number of pages	6
Journal	IEEE Transactions on Magnetics
Volume	39
Issue number	2 II
State	Published - Jan 2003
Externally published	Yes

Keywords

Accommodation
Jiles model
Magnetic hysteresis
Major loop
Memory sequence
Minor loop
Preisach model

Cite this

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title = "Limiting loop proximity hysteresis model",

abstract = "This paper introduces a simple algebraic limiting loop proximity ((L2P)) model to describe magnetic hysteresis. With only four parameters, it has low computational cost and reduced mathematical complexity, thus permitting a fast numerical implementation and simple parameter estimation procedure. The paper presents simulation results and discusses the model performance in terms of its capacity to represent common nonlinearities of the magnetic hysteresis phenomenon. The model avoids the heavy computational burden that results when magnetic hysteresis is included in computer-aided tools for electromagnetic devices and circuit analysis-for example, when hysteresis is combined with the finite-element method. The model also avoids the need to use repeated numerical approximation steps to adjust traditional models to experimental data.",

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AU - De Almeida, Luiz Alberto Luz

AU - Deep, Gurdip Singh

AU - Lima, Antonio Marcus Nogueira

AU - Neff, Helmut

PY - 2003/1

Y1 - 2003/1

N2 - This paper introduces a simple algebraic limiting loop proximity ((L2P)) model to describe magnetic hysteresis. With only four parameters, it has low computational cost and reduced mathematical complexity, thus permitting a fast numerical implementation and simple parameter estimation procedure. The paper presents simulation results and discusses the model performance in terms of its capacity to represent common nonlinearities of the magnetic hysteresis phenomenon. The model avoids the heavy computational burden that results when magnetic hysteresis is included in computer-aided tools for electromagnetic devices and circuit analysis-for example, when hysteresis is combined with the finite-element method. The model also avoids the need to use repeated numerical approximation steps to adjust traditional models to experimental data.

AB - This paper introduces a simple algebraic limiting loop proximity ((L2P)) model to describe magnetic hysteresis. With only four parameters, it has low computational cost and reduced mathematical complexity, thus permitting a fast numerical implementation and simple parameter estimation procedure. The paper presents simulation results and discusses the model performance in terms of its capacity to represent common nonlinearities of the magnetic hysteresis phenomenon. The model avoids the heavy computational burden that results when magnetic hysteresis is included in computer-aided tools for electromagnetic devices and circuit analysis-for example, when hysteresis is combined with the finite-element method. The model also avoids the need to use repeated numerical approximation steps to adjust traditional models to experimental data.

KW - Accommodation

KW - Jiles model

KW - Magnetic hysteresis

KW - Major loop

KW - Memory sequence

KW - Minor loop

KW - Preisach model

UR - https://www.scopus.com/pages/publications/0037230394

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VL - 39

SP - 523

EP - 528

JO - IEEE Transactions on Magnetics

JF - IEEE Transactions on Magnetics

IS - 2 II

ER -

Limiting loop proximity hysteresis model

Abstract

Keywords

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