Application of Schwarz-Christoffel Mapping to Permanent-Magnet Linear Motor Analysis

Several well-known analytical techniques exist for the force profile analysis of permanent-magnet linear synchronous motors. These techniques, however, make significant simplifications in order to obtain the magnetic field distribution in the air gap. From the field distribution, the force profile c...

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Veröffentlicht in:	IEEE transactions on magnetics 2008-03, Vol.44 (3), p.352-359
Hauptverfasser:	Krop, D.C.J., Lomonova, E.A., Vandenput, A.J.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical model Cause effect analysis conformal mapping Cross-disciplinary physics: materials science rheology Electromagnetism end effects Exact sciences and technology Exact solutions Failure analysis Finite element analysis Finite element method Finite element methods Magnetic analysis Magnetic circuits magnetic equivalent circuit Magnetic fields Magnetism Mapping Materials science Mathematical analysis Mathematical models Other topics in materials science Permanent magnet motors permanent-magnet linear synchronous machine Physics Schwarz-Christoffel mapping Shape Simplification slotted structure Stress concentration Studies Synchronous motors Tensile stress
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creator	Krop, D.C.J. Lomonova, E.A. Vandenput, A.J.A.
description	Several well-known analytical techniques exist for the force profile analysis of permanent-magnet linear synchronous motors. These techniques, however, make significant simplifications in order to obtain the magnetic field distribution in the air gap. From the field distribution, the force profile can be found. These widely used techniques provide a reasonable approximation for force profile analysis, but fail to give really accurate results in the sense of the exact shape of the force profile caused by effects that due to simplification are not fully included. To obtain the exact shape for the force profile in these cases, the computationally expensive finite-element method (FEM) is often applied. In this paper, an elegant semianalytical approach is presented to acquire the force profile. First, the magnetic field distribution in the air gap is determined by means of Schwarz-Christoffel (SC) mapping. The SC mapping allows a slotted structure of the machine to be mapped to a geometrically simpler domain for which analytic solutions are available. Subsequently, the field solution in the slotted structure can be determined by applying the mapping function to the field distribution in the simplified domain. From the resulting field distribution, the force profile is calculated by means of the Maxwell stress tensor. The results are compared with those from the commonly used equivalent magnetic circuit modeling and 2-D FEM software to demonstrate the accuracy which can be reached by application of the SC method.
doi_str_mv	10.1109/TMAG.2007.914513
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These techniques, however, make significant simplifications in order to obtain the magnetic field distribution in the air gap. From the field distribution, the force profile can be found. These widely used techniques provide a reasonable approximation for force profile analysis, but fail to give really accurate results in the sense of the exact shape of the force profile caused by effects that due to simplification are not fully included. To obtain the exact shape for the force profile in these cases, the computationally expensive finite-element method (FEM) is often applied. In this paper, an elegant semianalytical approach is presented to acquire the force profile. First, the magnetic field distribution in the air gap is determined by means of Schwarz-Christoffel (SC) mapping. The SC mapping allows a slotted structure of the machine to be mapped to a geometrically simpler domain for which analytic solutions are available. Subsequently, the field solution in the slotted structure can be determined by applying the mapping function to the field distribution in the simplified domain. From the resulting field distribution, the force profile is calculated by means of the Maxwell stress tensor. The results are compared with those from the commonly used equivalent magnetic circuit modeling and 2-D FEM software to demonstrate the accuracy which can be reached by application of the SC method.</description><identifier>ISSN: 0018-9464</identifier><identifier>EISSN: 1941-0069</identifier><identifier>DOI: 10.1109/TMAG.2007.914513</identifier><identifier>CODEN: IEMGAQ</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Analytical model ; Cause effect analysis ; conformal mapping ; Cross-disciplinary physics: materials science; rheology ; Electromagnetism ; end effects ; Exact sciences and technology ; Exact solutions ; Failure analysis ; Finite element analysis ; Finite element method ; Finite element methods ; Magnetic analysis ; Magnetic circuits ; magnetic equivalent circuit ; Magnetic fields ; Magnetism ; Mapping ; Materials science ; Mathematical analysis ; Mathematical models ; Other topics in materials science ; Permanent magnet motors ; permanent-magnet linear synchronous machine ; Physics ; Schwarz-Christoffel mapping ; Shape ; Simplification ; slotted structure ; Stress concentration ; Studies ; Synchronous motors ; Tensile stress</subject><ispartof>IEEE transactions on magnetics, 2008-03, Vol.44 (3), p.352-359</ispartof><rights>2008 INIST-CNRS</rights><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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These techniques, however, make significant simplifications in order to obtain the magnetic field distribution in the air gap. From the field distribution, the force profile can be found. These widely used techniques provide a reasonable approximation for force profile analysis, but fail to give really accurate results in the sense of the exact shape of the force profile caused by effects that due to simplification are not fully included. To obtain the exact shape for the force profile in these cases, the computationally expensive finite-element method (FEM) is often applied. In this paper, an elegant semianalytical approach is presented to acquire the force profile. First, the magnetic field distribution in the air gap is determined by means of Schwarz-Christoffel (SC) mapping. The SC mapping allows a slotted structure of the machine to be mapped to a geometrically simpler domain for which analytic solutions are available. Subsequently, the field solution in the slotted structure can be determined by applying the mapping function to the field distribution in the simplified domain. From the resulting field distribution, the force profile is calculated by means of the Maxwell stress tensor. The results are compared with those from the commonly used equivalent magnetic circuit modeling and 2-D FEM software to demonstrate the accuracy which can be reached by application of the SC method.</description><subject>Analytical model</subject><subject>Cause effect analysis</subject><subject>conformal mapping</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Electromagnetism</subject><subject>end effects</subject><subject>Exact sciences and technology</subject><subject>Exact solutions</subject><subject>Failure analysis</subject><subject>Finite element analysis</subject><subject>Finite element method</subject><subject>Finite element methods</subject><subject>Magnetic analysis</subject><subject>Magnetic circuits</subject><subject>magnetic equivalent circuit</subject><subject>Magnetic fields</subject><subject>Magnetism</subject><subject>Mapping</subject><subject>Materials science</subject><subject>Mathematical analysis</subject><subject>Mathematical models</subject><subject>Other topics in materials science</subject><subject>Permanent magnet motors</subject><subject>permanent-magnet linear synchronous machine</subject><subject>Physics</subject><subject>Schwarz-Christoffel mapping</subject><subject>Shape</subject><subject>Simplification</subject><subject>slotted structure</subject><subject>Stress concentration</subject><subject>Studies</subject><subject>Synchronous motors</subject><subject>Tensile stress</subject><issn>0018-9464</issn><issn>1941-0069</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp90U1rGzEQBmBRWqib9B7IZQmkPa0z-lqtjsY0acGmgTrnRZJHicJ6tZHWlOTXR8Yhhx56EkLPvIx4CTmjMKcU9NVmvbiZMwA111RIyj-QGdWC1gCN_khmALSttWjEZ_Il58dyLQhmZLMYxz44M4U4VNFXf9zDX5Ne6uVDCnmK3mNfrc04huG-mmJ1i2lnBhymem3uB5yqVRjQpGodp5iqxWD65xzyKfnkTZ_x69t5Qu6uf2yWP-vV75tfy8WqdoLJqdZ-qxV6S61UjaMc_bZVLfNceS8sWI_aigZpq51Gy0BxMFsruOXSCta2_IR8P-aOKT7tMU_dLmSHfV9WjPvctUqCotCyIr_9V3LRSF22KPDiH_gY96n8q6Q1jGoJIAqCI3Ip5pzQd2MKO5OeOwrdoY3u0EZ3aKM7tlFGLt9yTXam98kMLuT3OQaUKslUcedHFxDx_VkIKRVw_gp-k5Jt</recordid><startdate>20080301</startdate><enddate>20080301</enddate><creator>Krop, D.C.J.</creator><creator>Lomonova, E.A.</creator><creator>Vandenput, A.J.A.</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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These techniques, however, make significant simplifications in order to obtain the magnetic field distribution in the air gap. From the field distribution, the force profile can be found. These widely used techniques provide a reasonable approximation for force profile analysis, but fail to give really accurate results in the sense of the exact shape of the force profile caused by effects that due to simplification are not fully included. To obtain the exact shape for the force profile in these cases, the computationally expensive finite-element method (FEM) is often applied. In this paper, an elegant semianalytical approach is presented to acquire the force profile. First, the magnetic field distribution in the air gap is determined by means of Schwarz-Christoffel (SC) mapping. The SC mapping allows a slotted structure of the machine to be mapped to a geometrically simpler domain for which analytic solutions are available. Subsequently, the field solution in the slotted structure can be determined by applying the mapping function to the field distribution in the simplified domain. From the resulting field distribution, the force profile is calculated by means of the Maxwell stress tensor. The results are compared with those from the commonly used equivalent magnetic circuit modeling and 2-D FEM software to demonstrate the accuracy which can be reached by application of the SC method.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TMAG.2007.914513</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analytical model Cause effect analysis conformal mapping Cross-disciplinary physics: materials science rheology Electromagnetism end effects Exact sciences and technology Exact solutions Failure analysis Finite element analysis Finite element method Finite element methods Magnetic analysis Magnetic circuits magnetic equivalent circuit Magnetic fields Magnetism Mapping Materials science Mathematical analysis Mathematical models Other topics in materials science Permanent magnet motors permanent-magnet linear synchronous machine Physics Schwarz-Christoffel mapping Shape Simplification slotted structure Stress concentration Studies Synchronous motors Tensile stress
title	Application of Schwarz-Christoffel Mapping to Permanent-Magnet Linear Motor Analysis
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