Oak Ridge National Laboratory Wireless Charging of Electric Vehicles - CRADA Report | |
Onar, Omer C.1  Campbell, Steven L.1  Seiber, Larry Eugene1  White, Cliff P.1  Chinthavali, Madhu Sudhan1  Tang, Lixin1  Chambon, Paul H.1  Ozpineci, Burak1  Smith, David E.2  | |
[1] Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Power Electronics and Electric Machinery Group (PEEM). Electrical and Electronics Systems Research Division;Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Center for Transportation Analysis (CTA). Vehicle Systems Research Group (VSR). Energy and Transportation Science Division (ETSD) | |
关键词: wireless power transfer; wireless charging; plug-in electric vehicle charger; | |
DOI : 10.2172/1263875 RP-ID : ORNL/TM--2016/296 PID : OSTI ID: 1263875 |
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学科分类:航空航天科学 | |
美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
Wireless power transfer (WPT) is a paradigm shift in electric-vehicle (EV) charging that offers the consumer an autonomous, safe, and convenient option to conductive charging and its attendant need for cables. With WPT, charging process can be fully automated due to the vehicle and grid side radio communication systems, and is non-contacting; therefore issues with leakage currents, ground faults, and touch potentials do not exist. It also eliminates the need for touching the heavy, bulky, dirty cables and plugs. It eliminates the fear of forgetting to plug-in and running out of charge the following day and eliminates the tripping hazards in public parking lots and in highly populated areas such as shopping malls, recreational areas, parking buildings, etc. Furthermore, the high-frequency magnetic fields employed in power transfer across a large air gap are focused and shielded, so that fringe fields (i.e., magnetic leakage/stray fields) attenuate rapidly over a transition region to levels well below limits set by international standards for the public zone (which starts at the perimeter of the vehicle and includes the passenger cabin). Oak Ridge National Laboratory s approach to WPT charging places strong emphasis on radio communications in the power regulation feedback channel augmented with software control algorithms. The over-arching goal for WPT is minimization of vehicle on-board complexity by keeping the secondary side content confined to coil tuning, rectification, filtering, and interfacing to the regenerative energy-storage system (RESS). This report summarizes the CRADA work between the Oak Ridge National Laboratory and the Toyota Research Institute of North America, Toyota Motor Engineering and Manufacturing North America (TEMA) on the wireless charging of electric vehicles which was funded by Department of Energy under DE-FOA-000667. In this project, ORNL is the lead agency and Toyota TEMA is one of the major partners. Over the course of the project, ORNL and Toyota TEMA worked closely on the vehicle integration plans, compatibility, and the interoperability of the wireless charging technology developed by ORNL for the vehicles manufactured by Toyota. These vehicles include a Toyota Prius Plug-in Hybrid electric vehicle, a Scion iQ electric vehicle, and two Toyota RAV4 electric vehicles. The research include not only the hardware integration but also the controls and communication systems development to control and automate the charging process for these vehicles by utilizing a feedback channel from vehicle to the stationary unit for power regulation.
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