Verfügbarkeit: Wireless power transfer for battery charging application of electric vehicles

Wireless power transfer for battery charging application of electric vehicles:

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Bibliographische Detailangaben
1. Verfasser:	Movagharnejad, Hedieh 1987- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Garbsen TEWISS Verlag [2022]
Schriftenreihe:	Berichte aus dem IAL 03/2022
Schlagworte:	Drahtlose Energieübertragung Wireless power transfer (WPT) battery chargers capacitive compensation methodology high-frequency power converter magnetic coupler Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 238 Seiten Illustrationen, Diagramme 21 cm x 14 cm, 344 g
ISBN:	9783959007160

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Datensatz im Suchindex

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adam_text	VIII CONTENTS CONTENTS ABBREVIATIONS ............................................................................................................. XI NOMENCLATURE ........................................................................................................... XIII 1 INTRODUCTION .......................................................................................................... 1 1.1 OVERVIEW ..................................................................................................................... 1 1.2 RESEARCH MOTIVATION ................................................................................................... 2 1.3 HISTORY OF DEVELOPMENT OF WPT SYSTEM FOR EV CHARGING ..................................... 3 1.4 OBJECTIVE OF THE THESIS ............................................................................................... 7 1.5 SCIENTIFIC METHODOLOGY .............................................................................................. 8 1.6 OUTLINE OF THE THESIS .................................................................................................. 9 2 WPT LOOSELY COUPLED TRANSFORMER DESIGN ................................................... 10 2.1 INTRODUCTION AND THEORETICAL BACKGROUND ................................................................ 10 2.2 BASIC MODEL OF A TRANSFORMER .................................................................................. 13 2.2.1 TRANSFORMER EQUIVALENT CIRCUIT DIAGRAM ................................................... 15 2.3 FUNDAMENTALS OF WPT .............................................................................................. 16 2.4 DESIGN CONSTRAINTS AND METHODOLOGY ...................................................................... 19 2.5 INVESTIGATED COUPLERS ............................................................................................... 23 2.5.1 SOLENOIDAL COIL WITH FERRITE BAR PRIMARY AND SECONDARY (SOL - SOL) ...... 23 2.5.2 CIRCULAR COIL WITH FERRITE BARS (CIR - CIR) ................................................. 31 2.5.3 PLANAR RECTANGULAR COIL WITH FERRITE BARS PRIMARY AND SECONDARY (PLAN - PLAN) ......................................................................................................................... 42 2.5.4 DOUBLE D COIL WITH FERRITE BARS (DOUBLE D - DOUBLE D) ......................... 55 2.5.5 DOUBLE D COIL WITH FERRITE BARS - SOLENOIDAL COIL WITH FERRITE BAR (DOUBLE D - SOL) .................................................................................................... 68 2.5.6 DOUBLE D COIL WITH FERRITE BARS - DOUBLE D COIL INTERLEAVED WITH FERRITE BARS (DOUBLE D - DOUBLE ...................................................................................... 80 2.6 COMPARISON OF MAGNETIC COUPLERS ......................................................................... 93 CONTENTS IX 2.6.1 K AND PRESONANT /Q .......................................................................................... 93 2.6.2 MAGNETIC FIELD EMISSION PROFILE ................................................................ 97 2.6.3 INDUCTANCE VARIATION ................................................................................... 98 2.6.4 OVERALL COMPARISON ................................................................................... 101 2.7 IMPLEMENTATION OF MAGNETIC COUPLERS - EXPERIMENTAL RESULTS ........................... 104 2.8 SUMMARY ................................................................................................................ 112 3 ANALYTICAL MODEL OF THE WPT SYSTEM ............................................................ 114 3.1 INTRODUCTION ............................................................................................................ 114 3.2 CAPACITIVE COMPENSATION ....................................................................................... 115 3.3 HIGH-FREQUENCY INVERTER FOR WPT ......................................................................... 116 3.4 SOFT-SWITCHING CHARACTERISTICS ............................................................................... 118 3.5 CIRCUIT MODEL (FUNDAMENTAL TOPOLOGIES) .............................................................. 120 3.5.1 EFFECTIVE EQUIVALENT LOAD RESISTANCE IN SS COMPENSATED CONVERTER.... 123 3.5.2 EFFECTIVE EQUIVALENT LOAD RESISTANCE IN SP COMPENSATED CONVERTER.... 125 3.6 DESIGN REQUIREMENTS FOR COMPENSATION ................................................................ 126 3.7 ANALYTICAL STUDY ON DESIGN METRICS ...................................................................... 128 3.7.1 LOAD-INDEPENDENT OUTPUT TO INPUT VOLTAGE TRANSFER RATIO ..................... 128 3.7.2 LOAD-INDEPENDENT OUTPUT CURRENT TO INPUT VOLTAGE ................................ 135 3.7.3 CONVERSION EFFICIENCY .............................................................................. 141 3.7.4 SOFT SWITCHING ......................................................................................... 154 3.7.5 FROM K INDEPENDENCY ............................................................................... 161 3.7.6 COMPONENT DIMENSIONING ........................................................................ 165 3.8 SUMMARY AND COMPARATIVE STUDY .......................................................................... 169 4 APPLICATION SCENARIOS ..................................................................................... 173 4.1 PHYSICAL POSITION OFFSETS DEFINITION ................................................................... 173 4.2 TECHNICAL SIMULATION DATA AND LOSS MODEL OF POWER ELECTRONICS ........................ 175 4.2.1 DIODE ........................................................................................................ 175 4.2.2 MOSFET .................................................................................................. 177 4.2.3 TECHNICAL SIMULATION DATA ...................................................................... 181 4.3 WPT SYSTEM DESIGN SCENARIO FOR SS COMPENSATED CONVERTER ............................ 182 4.3.1 OPTIMUM FREQUENCY OF OPERATION FOR SS TOPOLOGY ............................... 183 4.3.2 SIMULATION RESULTS FOR SS TOPOLOGY ....................................................... 184 X CONTENTS 4.4 WPT SYSTEM DESIGN SCENARIO FOR SP COMPENSATED CONVERTER ........................... 191 4.4.1 OPTIMUM FREQUENCY OF OPERATION FOR SP TOPOLOGY ................................ 191 4.4.2 SIMULATION RESULTS FOR SP TOPOLOGY ........................................................ 192 4.5 EXPERIMENTAL SETUP ............................................................................................... 198 4.5.1 EXPERIMENTAL RESULTS OF SS COMPENSATED WPT SYSTEM ........................ 200 4.5.2 EXPERIMENTAL RESULTS OF SP COMPENSATED WPT SYSTEM ........................ 209 4.6 SUMMARY ............................................................................................................... 222 5 SUMMARY AND CONCLUSION .................................................................... 225 REFERENCES .............................................................................................................. 231 CURRICULUM VITAE ..................................................................................................... 239
adam_txt	VIII CONTENTS CONTENTS ABBREVIATIONS . XI NOMENCLATURE . XIII 1 INTRODUCTION . 1 1.1 OVERVIEW . 1 1.2 RESEARCH MOTIVATION . 2 1.3 HISTORY OF DEVELOPMENT OF WPT SYSTEM FOR EV CHARGING . 3 1.4 OBJECTIVE OF THE THESIS . 7 1.5 SCIENTIFIC METHODOLOGY . 8 1.6 OUTLINE OF THE THESIS . 9 2 WPT LOOSELY COUPLED TRANSFORMER DESIGN . 10 2.1 INTRODUCTION AND THEORETICAL BACKGROUND . 10 2.2 BASIC MODEL OF A TRANSFORMER . 13 2.2.1 TRANSFORMER EQUIVALENT CIRCUIT DIAGRAM . 15 2.3 FUNDAMENTALS OF WPT . 16 2.4 DESIGN CONSTRAINTS AND METHODOLOGY . 19 2.5 INVESTIGATED COUPLERS . 23 2.5.1 SOLENOIDAL COIL WITH FERRITE BAR PRIMARY AND SECONDARY (SOL - SOL) . 23 2.5.2 CIRCULAR COIL WITH FERRITE BARS (CIR - CIR) . 31 2.5.3 PLANAR RECTANGULAR COIL WITH FERRITE BARS PRIMARY AND SECONDARY (PLAN - PLAN) . 42 2.5.4 DOUBLE D COIL WITH FERRITE BARS (DOUBLE D - DOUBLE D) . 55 2.5.5 DOUBLE D COIL WITH FERRITE BARS - SOLENOIDAL COIL WITH FERRITE BAR (DOUBLE D - SOL) . 68 2.5.6 DOUBLE D COIL WITH FERRITE BARS - DOUBLE D COIL INTERLEAVED WITH FERRITE BARS (DOUBLE D - DOUBLE . 80 2.6 COMPARISON OF MAGNETIC COUPLERS . 93 CONTENTS IX 2.6.1 K AND PRESONANT /Q . 93 2.6.2 MAGNETIC FIELD EMISSION PROFILE . 97 2.6.3 INDUCTANCE VARIATION . 98 2.6.4 OVERALL COMPARISON . 101 2.7 IMPLEMENTATION OF MAGNETIC COUPLERS - EXPERIMENTAL RESULTS . 104 2.8 SUMMARY . 112 3 ANALYTICAL MODEL OF THE WPT SYSTEM . 114 3.1 INTRODUCTION . 114 3.2 CAPACITIVE COMPENSATION . 115 3.3 HIGH-FREQUENCY INVERTER FOR WPT . 116 3.4 SOFT-SWITCHING CHARACTERISTICS . 118 3.5 CIRCUIT MODEL (FUNDAMENTAL TOPOLOGIES) . 120 3.5.1 EFFECTIVE EQUIVALENT LOAD RESISTANCE IN SS COMPENSATED CONVERTER. 123 3.5.2 EFFECTIVE EQUIVALENT LOAD RESISTANCE IN SP COMPENSATED CONVERTER. 125 3.6 DESIGN REQUIREMENTS FOR COMPENSATION . 126 3.7 ANALYTICAL STUDY ON DESIGN METRICS . 128 3.7.1 LOAD-INDEPENDENT OUTPUT TO INPUT VOLTAGE TRANSFER RATIO . 128 3.7.2 LOAD-INDEPENDENT OUTPUT CURRENT TO INPUT VOLTAGE . 135 3.7.3 CONVERSION EFFICIENCY . 141 3.7.4 SOFT SWITCHING . 154 3.7.5 FROM K INDEPENDENCY . 161 3.7.6 COMPONENT DIMENSIONING . 165 3.8 SUMMARY AND COMPARATIVE STUDY . 169 4 APPLICATION SCENARIOS . 173 4.1 PHYSICAL POSITION OFFSETS DEFINITION . 173 4.2 TECHNICAL SIMULATION DATA AND LOSS MODEL OF POWER ELECTRONICS . 175 4.2.1 DIODE . 175 4.2.2 MOSFET . 177 4.2.3 TECHNICAL SIMULATION DATA . 181 4.3 WPT SYSTEM DESIGN SCENARIO FOR SS COMPENSATED CONVERTER . 182 4.3.1 OPTIMUM FREQUENCY OF OPERATION FOR SS TOPOLOGY . 183 4.3.2 SIMULATION RESULTS FOR SS TOPOLOGY . 184 X CONTENTS 4.4 WPT SYSTEM DESIGN SCENARIO FOR SP COMPENSATED CONVERTER . 191 4.4.1 OPTIMUM FREQUENCY OF OPERATION FOR SP TOPOLOGY . 191 4.4.2 SIMULATION RESULTS FOR SP TOPOLOGY . 192 4.5 EXPERIMENTAL SETUP . 198 4.5.1 EXPERIMENTAL RESULTS OF SS COMPENSATED WPT SYSTEM . 200 4.5.2 EXPERIMENTAL RESULTS OF SP COMPENSATED WPT SYSTEM . 209 4.6 SUMMARY . 222 5 SUMMARY AND CONCLUSION . 225 REFERENCES . 231 CURRICULUM VITAE . 239
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author	Movagharnejad, Hedieh 1987-
author_GND	(DE-588)1265780129
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ctrlnum	(OCoLC)1341403345 (DE-599)DNB1265300232
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Elektrotechnik / Elektronik / Nachrichtentechnik
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spelling	Movagharnejad, Hedieh 1987- Verfasser (DE-588)1265780129 aut Wireless power transfer for battery charging application of electric vehicles Hedieh Movagharnejad Garbsen TEWISS Verlag [2022] XVIII, 238 Seiten Illustrationen, Diagramme 21 cm x 14 cm, 344 g txt rdacontent n rdamedia nc rdacarrier Berichte aus dem IAL 03/2022 Dissertation Gottfried Wilhelm Leibniz Universität Hannover 2022 Drahtlose Energieübertragung (DE-588)103887131X gnd rswk-swf Wireless power transfer (WPT) battery chargers capacitive compensation methodology high-frequency power converter magnetic coupler (DE-588)4113937-9 Hochschulschrift gnd-content Drahtlose Energieübertragung (DE-588)103887131X s DE-604 TEWISS - Technik und Wissen GmbH (DE-588)1067143165 pbl Berichte aus dem IAL 03/2022 (DE-604)BV047021421 2022,3 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033866692&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220813 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Movagharnejad, Hedieh 1987- Wireless power transfer for battery charging application of electric vehicles Berichte aus dem IAL Drahtlose Energieübertragung (DE-588)103887131X gnd
subject_GND	(DE-588)103887131X (DE-588)4113937-9
title	Wireless power transfer for battery charging application of electric vehicles
title_auth	Wireless power transfer for battery charging application of electric vehicles
title_exact_search	Wireless power transfer for battery charging application of electric vehicles
title_exact_search_txtP	Wireless power transfer for battery charging application of electric vehicles
title_full	Wireless power transfer for battery charging application of electric vehicles Hedieh Movagharnejad
title_fullStr	Wireless power transfer for battery charging application of electric vehicles Hedieh Movagharnejad
title_full_unstemmed	Wireless power transfer for battery charging application of electric vehicles Hedieh Movagharnejad
title_short	Wireless power transfer for battery charging application of electric vehicles
title_sort	wireless power transfer for battery charging application of electric vehicles
topic	Drahtlose Energieübertragung (DE-588)103887131X gnd
topic_facet	Drahtlose Energieübertragung Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033866692&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV047021421
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