Wireless charging technology and the future of electric transportation:
Chapter 1. Introduction. 1.1. Introduction to wireless power transfer technology; 1.2. Wireless power transfer in transportation; 1.3. Micro mobility and wireless power transfer; 1.4. Structure of the book; References -- Chapter 2. Green transportation and electric vehicles. 2.1. Future automotive p...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Warrendale, Pa.
SAE International
[2015]
|
| Schriftenreihe: | Society of Automotive Engineers. Electronic publications
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | Chapter 1. Introduction. 1.1. Introduction to wireless power transfer technology; 1.2. Wireless power transfer in transportation; 1.3. Micro mobility and wireless power transfer; 1.4. Structure of the book; References -- Chapter 2. Green transportation and electric vehicles. 2.1. Future automotive power drive trend; 2.2. Intelligent transportation system; 2.3. Electric vehicle charging systems; 2.4. WPT application to EV; 2.5. Implications of wireless charging in future transportation; References -- Chapter 3. EV charging technology: conductive and wireless. 3.1. Conductive charging; 3.2. Wireless charging; 3.3. Commercial WPT technologies; 3.4. Rollout of wireless charging; References -- Chapter 4. An overview of OLEV technology. 4.1.Background; 4.2. SMFIR technology; 4.3. Overall system; 4.4. Design of power supply infrastructure; 4.5. Design of power collection systems; 4.6. Application of SMFIR technology to bus; 4.7. Application of SMFIR technology to train; References -- Chapter 5. Wireless power transfer technical issues and challenges. 5.1. Vehicle to infrastructure communications; 5.2. Alignment to primary charging pad; 5.3. Challenge of gap variations; 5.4. Control of charging process; 5.5. Obstacle detection; 5.6. Emergency shut-down; 5.7. Normal shut-down; 5.8. Electrical safety: high-frequency isolation transformer; 5.9. Emission; 5.10. Grid connection power quality; 5.11. Installation and commissioning; 5.12. Summary; References -- Chatper 6. Markets, strategies, and standards in EVS with WPT. 6.1. Introduction; 6.2. Optimization problem for WPT in electrified vehicles; 6.3. Simulation approach to determine an optimized WPT infrastructure design; 6.4. Fields of application for fleet-operated vehicles using WPT systems; 6.5. Conclusions; References -- Chapter 7. Wireless charging of consumer electronics in the automotive industry. 7.1. Wireless charging of consumer electronics; 7.2. Design considerations; 7.3. Wireless charging in automotive Chapter 9. Long-distance power transfer. 9.1 Introduction; 9.2. History of long-distance power transfer; 9.3. Theory of long-distance power transfer; 9.4. Recent applications of long-distance power transfer; 9.5. Conclusions; References -- Chapter 10. Industrial applications of WPT. 10.1. System overview; 10.2. Crane applications; 10.3. Automated guided vehicles; 10.4. Skillet conveyor; 10.5. Transfer car; 10.6. Electric monorail system; 10.7. Sorter technology; 10.8. Clean-room technology; 10.9. Elevator systems; References -- Concluding remarks -- Index -- About the authors This book brings an in-depth analysis of the most important areas of interest in this new area, such as: Working principles of wireless power transfer technology; Current technology and its projected future impact on electric vehicles; Comparison between conductive and wireless charging of electric vehicles; Introduction to dynamic wireless charging systems; Technological challenges and international technical standards activities; Applications in consumer electronics, rail, aviation, marine, and off-road transportation; Long-distance electrical energy transfer |
| Beschreibung: | "Nikola Tesla's Wardenclyffe Tower experiment in Long Island in the early 1900s, the transmittance of electricity from a source to an electric device without a wire or cord has been pursued for more than a century. While current automotive industry is focused on developing static wireless charging of electric vehicles for plug-in hybrid or electric vehicles with the delivering capacity below 7 kW ranges, a few prototype technologies are demonstrated with dynamic wireless charging capabilities with more than several 10 kW ranges. One example described in this book is the historic public launch of a people mover vehicle in Seoul Grand Park, Korea, with dynamic wireless charging capability, which was led by Dr. In-Soo Suh, the principal editor of this book. Around the world, the major automakers are developing their strategies for conductive and wireless charging technologies, with concerted efforts to establish technical standards on wireless electric vehicle charging, mainly focused on the safety considerations and inter-operability"-- Provided by publisher. - Includes bibliographical references and index |
| Beschreibung: | 1 Online-Ressource color illustrations |
| ISBN: | 0768081777 9780768081770 0768081793 9780768081794 0768081785 9780768081787 1523102233 9781523102235 9780768081534 |
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| 245 | 1 | 0 | |a Wireless charging technology and the future of electric transportation |c lead author, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology (KAIST)) ; co-authors, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology), John M. Miller (Retired, Oak Ridge National Laboratory), Jorg Franke (Professor, FAU Erlangen-Nuremberg), Florian Risch (Research Assistant, FAU Erlangen-Nuremberg), Naoki Shinohara (Professor, Kyoto University), Faical Turki (Dipl.-Ing., Paul Vahle GmbH & Co. KG), Dong Ho Cho (Professor, Korea Advanced Institute of Science and Technology), Soon Man Hong (President, Korea Railroad Research Institute), Sung -Kwan Jung (Research Associate Professor, Korea Advanced Institute of Science and Technology) |
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| 500 | |a "Nikola Tesla's Wardenclyffe Tower experiment in Long Island in the early 1900s, the transmittance of electricity from a source to an electric device without a wire or cord has been pursued for more than a century. While current automotive industry is focused on developing static wireless charging of electric vehicles for plug-in hybrid or electric vehicles with the delivering capacity below 7 kW ranges, a few prototype technologies are demonstrated with dynamic wireless charging capabilities with more than several 10 kW ranges. One example described in this book is the historic public launch of a people mover vehicle in Seoul Grand Park, Korea, with dynamic wireless charging capability, which was led by Dr. In-Soo Suh, the principal editor of this book. Around the world, the major automakers are developing their strategies for conductive and wireless charging technologies, with concerted efforts to establish technical standards on wireless electric vehicle charging, mainly focused on the safety considerations and inter-operability"-- Provided by publisher. - Includes bibliographical references and index | ||
| 520 | 1 | |a Chapter 1. Introduction. 1.1. Introduction to wireless power transfer technology; 1.2. Wireless power transfer in transportation; 1.3. Micro mobility and wireless power transfer; 1.4. Structure of the book; References -- Chapter 2. Green transportation and electric vehicles. 2.1. Future automotive power drive trend; 2.2. Intelligent transportation system; 2.3. Electric vehicle charging systems; 2.4. WPT application to EV; 2.5. Implications of wireless charging in future transportation; References -- Chapter 3. EV charging technology: conductive and wireless. 3.1. Conductive charging; 3.2. Wireless charging; 3.3. Commercial WPT technologies; 3.4. Rollout of wireless charging; References -- Chapter 4. An overview of OLEV technology. 4.1.Background; 4.2. SMFIR technology; 4.3. Overall system; 4.4. Design of power supply infrastructure; 4.5. Design of power collection systems; 4.6. Application of SMFIR technology to bus; 4.7. Application of SMFIR technology to train; References -- Chapter 5. Wireless power transfer technical issues and challenges. 5.1. Vehicle to infrastructure communications; 5.2. Alignment to primary charging pad; 5.3. Challenge of gap variations; 5.4. Control of charging process; 5.5. Obstacle detection; 5.6. Emergency shut-down; 5.7. Normal shut-down; 5.8. Electrical safety: high-frequency isolation transformer; 5.9. Emission; 5.10. Grid connection power quality; 5.11. Installation and commissioning; 5.12. Summary; References -- Chatper 6. Markets, strategies, and standards in EVS with WPT. 6.1. Introduction; 6.2. Optimization problem for WPT in electrified vehicles; 6.3. Simulation approach to determine an optimized WPT infrastructure design; 6.4. Fields of application for fleet-operated vehicles using WPT systems; 6.5. Conclusions; References -- Chapter 7. Wireless charging of consumer electronics in the automotive industry. 7.1. Wireless charging of consumer electronics; 7.2. Design considerations; 7.3. Wireless charging in automotive | |
| 520 | 1 | |a Chapter 9. Long-distance power transfer. 9.1 Introduction; 9.2. History of long-distance power transfer; 9.3. Theory of long-distance power transfer; 9.4. Recent applications of long-distance power transfer; 9.5. Conclusions; References -- Chapter 10. Industrial applications of WPT. 10.1. System overview; 10.2. Crane applications; 10.3. Automated guided vehicles; 10.4. Skillet conveyor; 10.5. Transfer car; 10.6. Electric monorail system; 10.7. Sorter technology; 10.8. Clean-room technology; 10.9. Elevator systems; References -- Concluding remarks -- Index -- About the authors | |
| 520 | 8 | |a This book brings an in-depth analysis of the most important areas of interest in this new area, such as: Working principles of wireless power transfer technology; Current technology and its projected future impact on electric vehicles; Comparison between conductive and wireless charging of electric vehicles; Introduction to dynamic wireless charging systems; Technological challenges and international technical standards activities; Applications in consumer electronics, rail, aviation, marine, and off-road transportation; Long-distance electrical energy transfer | |
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| id | DE-604.BV043981458 |
| illustrated | Illustrated |
| indexdate | 2024-07-31T01:10:29Z |
| institution | BVB |
| institution_GND | (DE-588)8105-X |
| isbn | 0768081777 9780768081770 0768081793 9780768081794 0768081785 9780768081787 1523102233 9781523102235 9780768081534 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029389875 |
| oclc_num | 968702772 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM |
| owner_facet | DE-91 DE-BY-TUM |
| physical | 1 Online-Ressource color illustrations |
| psigel | ZDB-10-KNL ZDB-10-ESC |
| publishDate | 2015 |
| publishDateSearch | 2015 |
| publishDateSort | 2015 |
| publisher | SAE International |
| record_format | marc |
| series2 | Society of Automotive Engineers. Electronic publications |
| spelling | Suh, Insoo Verfasser aut Wireless charging technology and the future of electric transportation lead author, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology (KAIST)) ; co-authors, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology), John M. Miller (Retired, Oak Ridge National Laboratory), Jorg Franke (Professor, FAU Erlangen-Nuremberg), Florian Risch (Research Assistant, FAU Erlangen-Nuremberg), Naoki Shinohara (Professor, Kyoto University), Faical Turki (Dipl.-Ing., Paul Vahle GmbH & Co. KG), Dong Ho Cho (Professor, Korea Advanced Institute of Science and Technology), Soon Man Hong (President, Korea Railroad Research Institute), Sung -Kwan Jung (Research Associate Professor, Korea Advanced Institute of Science and Technology) Warrendale, Pa. SAE International [2015] 1 Online-Ressource color illustrations txt rdacontent c rdamedia cr rdacarrier Society of Automotive Engineers. Electronic publications "Nikola Tesla's Wardenclyffe Tower experiment in Long Island in the early 1900s, the transmittance of electricity from a source to an electric device without a wire or cord has been pursued for more than a century. While current automotive industry is focused on developing static wireless charging of electric vehicles for plug-in hybrid or electric vehicles with the delivering capacity below 7 kW ranges, a few prototype technologies are demonstrated with dynamic wireless charging capabilities with more than several 10 kW ranges. One example described in this book is the historic public launch of a people mover vehicle in Seoul Grand Park, Korea, with dynamic wireless charging capability, which was led by Dr. In-Soo Suh, the principal editor of this book. Around the world, the major automakers are developing their strategies for conductive and wireless charging technologies, with concerted efforts to establish technical standards on wireless electric vehicle charging, mainly focused on the safety considerations and inter-operability"-- Provided by publisher. - Includes bibliographical references and index Chapter 1. Introduction. 1.1. Introduction to wireless power transfer technology; 1.2. Wireless power transfer in transportation; 1.3. Micro mobility and wireless power transfer; 1.4. Structure of the book; References -- Chapter 2. Green transportation and electric vehicles. 2.1. Future automotive power drive trend; 2.2. Intelligent transportation system; 2.3. Electric vehicle charging systems; 2.4. WPT application to EV; 2.5. Implications of wireless charging in future transportation; References -- Chapter 3. EV charging technology: conductive and wireless. 3.1. Conductive charging; 3.2. Wireless charging; 3.3. Commercial WPT technologies; 3.4. Rollout of wireless charging; References -- Chapter 4. An overview of OLEV technology. 4.1.Background; 4.2. SMFIR technology; 4.3. Overall system; 4.4. Design of power supply infrastructure; 4.5. Design of power collection systems; 4.6. Application of SMFIR technology to bus; 4.7. Application of SMFIR technology to train; References -- Chapter 5. Wireless power transfer technical issues and challenges. 5.1. Vehicle to infrastructure communications; 5.2. Alignment to primary charging pad; 5.3. Challenge of gap variations; 5.4. Control of charging process; 5.5. Obstacle detection; 5.6. Emergency shut-down; 5.7. Normal shut-down; 5.8. Electrical safety: high-frequency isolation transformer; 5.9. Emission; 5.10. Grid connection power quality; 5.11. Installation and commissioning; 5.12. Summary; References -- Chatper 6. Markets, strategies, and standards in EVS with WPT. 6.1. Introduction; 6.2. Optimization problem for WPT in electrified vehicles; 6.3. Simulation approach to determine an optimized WPT infrastructure design; 6.4. Fields of application for fleet-operated vehicles using WPT systems; 6.5. Conclusions; References -- Chapter 7. Wireless charging of consumer electronics in the automotive industry. 7.1. Wireless charging of consumer electronics; 7.2. Design considerations; 7.3. Wireless charging in automotive Chapter 9. Long-distance power transfer. 9.1 Introduction; 9.2. History of long-distance power transfer; 9.3. Theory of long-distance power transfer; 9.4. Recent applications of long-distance power transfer; 9.5. Conclusions; References -- Chapter 10. Industrial applications of WPT. 10.1. System overview; 10.2. Crane applications; 10.3. Automated guided vehicles; 10.4. Skillet conveyor; 10.5. Transfer car; 10.6. Electric monorail system; 10.7. Sorter technology; 10.8. Clean-room technology; 10.9. Elevator systems; References -- Concluding remarks -- Index -- About the authors This book brings an in-depth analysis of the most important areas of interest in this new area, such as: Working principles of wireless power transfer technology; Current technology and its projected future impact on electric vehicles; Comparison between conductive and wireless charging of electric vehicles; Introduction to dynamic wireless charging systems; Technological challenges and international technical standards activities; Applications in consumer electronics, rail, aviation, marine, and off-road transportation; Long-distance electrical energy transfer Electricity in transportation Electronics in transportation Electromagnetic induction Battery chargers Electric vehiclesxBatteries Electric power transmission Elektrofahrzeug (DE-588)4151795-7 gnd rswk-swf Drahtlose Energieübertragung (DE-588)103887131X gnd rswk-swf Elektrische Aufladung (DE-588)4151718-0 gnd rswk-swf Elektrofahrzeug (DE-588)4151795-7 s Elektrische Aufladung (DE-588)4151718-0 s Drahtlose Energieübertragung (DE-588)103887131X s 1\p DE-604 Lee, Byung Soon ca. 20./21. Jh. Sonstige (DE-588)12394323X oth Cho, Dong-Ho Sonstige oth Risch, Florian Sonstige (DE-588)105839116X oth Turki, Faical 1976- Sonstige (DE-588)133695131 oth Sŏ, In-su Sonstige oth Franke, Jorg Sonstige oth Miller, John M. Sonstige oth Shinohara, Naoki Sonstige (DE-588)1046378236 oth Hong, Soon-Man Sonstige oth Society of Automotive Engineers (DE-588)8105-X isb http://app.knovel.com/hotlink/toc/id:kpWCTFET08/wireless-charging-technology Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Suh, Insoo Wireless charging technology and the future of electric transportation Electricity in transportation Electronics in transportation Electromagnetic induction Battery chargers Electric vehiclesxBatteries Electric power transmission Elektrofahrzeug (DE-588)4151795-7 gnd Drahtlose Energieübertragung (DE-588)103887131X gnd Elektrische Aufladung (DE-588)4151718-0 gnd |
| subject_GND | (DE-588)4151795-7 (DE-588)103887131X (DE-588)4151718-0 |
| title | Wireless charging technology and the future of electric transportation |
| title_auth | Wireless charging technology and the future of electric transportation |
| title_exact_search | Wireless charging technology and the future of electric transportation |
| title_full | Wireless charging technology and the future of electric transportation lead author, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology (KAIST)) ; co-authors, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology), John M. Miller (Retired, Oak Ridge National Laboratory), Jorg Franke (Professor, FAU Erlangen-Nuremberg), Florian Risch (Research Assistant, FAU Erlangen-Nuremberg), Naoki Shinohara (Professor, Kyoto University), Faical Turki (Dipl.-Ing., Paul Vahle GmbH & Co. KG), Dong Ho Cho (Professor, Korea Advanced Institute of Science and Technology), Soon Man Hong (President, Korea Railroad Research Institute), Sung -Kwan Jung (Research Associate Professor, Korea Advanced Institute of Science and Technology) |
| title_fullStr | Wireless charging technology and the future of electric transportation lead author, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology (KAIST)) ; co-authors, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology), John M. Miller (Retired, Oak Ridge National Laboratory), Jorg Franke (Professor, FAU Erlangen-Nuremberg), Florian Risch (Research Assistant, FAU Erlangen-Nuremberg), Naoki Shinohara (Professor, Kyoto University), Faical Turki (Dipl.-Ing., Paul Vahle GmbH & Co. KG), Dong Ho Cho (Professor, Korea Advanced Institute of Science and Technology), Soon Man Hong (President, Korea Railroad Research Institute), Sung -Kwan Jung (Research Associate Professor, Korea Advanced Institute of Science and Technology) |
| title_full_unstemmed | Wireless charging technology and the future of electric transportation lead author, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology (KAIST)) ; co-authors, In-Soo Suh (Professor, Korea Advanced Institute of Science and Technology), John M. Miller (Retired, Oak Ridge National Laboratory), Jorg Franke (Professor, FAU Erlangen-Nuremberg), Florian Risch (Research Assistant, FAU Erlangen-Nuremberg), Naoki Shinohara (Professor, Kyoto University), Faical Turki (Dipl.-Ing., Paul Vahle GmbH & Co. KG), Dong Ho Cho (Professor, Korea Advanced Institute of Science and Technology), Soon Man Hong (President, Korea Railroad Research Institute), Sung -Kwan Jung (Research Associate Professor, Korea Advanced Institute of Science and Technology) |
| title_short | Wireless charging technology and the future of electric transportation |
| title_sort | wireless charging technology and the future of electric transportation |
| topic | Electricity in transportation Electronics in transportation Electromagnetic induction Battery chargers Electric vehiclesxBatteries Electric power transmission Elektrofahrzeug (DE-588)4151795-7 gnd Drahtlose Energieübertragung (DE-588)103887131X gnd Elektrische Aufladung (DE-588)4151718-0 gnd |
| topic_facet | Electricity in transportation Electronics in transportation Electromagnetic induction Battery chargers Electric vehiclesxBatteries Electric power transmission Elektrofahrzeug Drahtlose Energieübertragung Elektrische Aufladung |
| url | http://app.knovel.com/hotlink/toc/id:kpWCTFET08/wireless-charging-technology |
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