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Thread: 20-kilowatt wireless charging for vehicles, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA

  1. #1

    20-kilowatt wireless charging for vehicles, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA


  2. #2


    Wireless power transfer

    Published on Jul 22, 2013

    Wireless Power Transfer is an innovative approach using magnetic resonance coupling of air core transformers designed for today's growing plug-in electric vehicle market. This technology can provide a convenient, safe and flexible means to charge electric vehicles under stationary and dynamic conditions.

    Plug-in Electric Vehicles (PEV) are burdened by the need for cable and plug charger, galvanic isolation of the on-board electronics, bulk and cost of this charger and the large energy storage system (ESS) packs needed.

    With a system where you have to physically plug in there are a number of occasions where the owner could very well forget to charge the vehicle.

    For stationary applications (like charging of a PHEV at home), ORNL's innovative wireless power transfer technology adds a convenience factor compared to actually plugging in which will mean that the vehicle will have a full charge every morning.

    Electric vehicle charging must be safe, compact and efficient in order to be convenient for customers.

    By reconfiguring the transformer and altering the resonance frequency, energy is transferred to the battery with lower energy losses and with fewer demands on the primary circuit by the rest of the transformer system.

    The ORNL discovery shows that sufficient power for the battery can be transferred from the primary to secondary circuits without significant energy losses if the operating frequency is set at 50% to 95% of the resonance frequency of the circuit. The electrical power is then transmitted to the chargeable battery, which is electrically coupled to the secondary circuit through the air core transformer.

    Some advantages include:
    •Reduced energy losses during transfer of energy to the battery.
    •A charge potential that is relatively unaffected by up to 25% misalignment of vehicle.
    •Other receiving components draw less power from the primary circuit.

    These advantages allow wireless power technology applications to expand at the workplace and beyond as the demand for EV rises.

    For vehicles that operate over a fixed route such as busses and shuttle vehicles, Wireless Power Transfer (WPT) means that a smaller battery pack can be used. In the traditional system, the battery pack is designed to accommodate the needs of the entire route or shift.

    With WPT the battery can be downsized because it can be charged when the vehicle stops on its route (a rental car shuttle bus, for example, can charge when it waits in the terminal and again when it waits at the rental car place.
    Thus the battery only needs enough charge to get to the next stop. This decrease in battery size means significant cost savings to electrify the vehicle.

    This technology enables efficient "opportunity charging stations" for predefined routes and planned stops reducing down time. Charging can occur in minutes.

    This improvement also eliminates the harmful emissions that occur in garages while buses are at idle during charging.

    In larger cities, dynamic charging offers an even greater impact utilizing existing infrastructure. As vehicles travel along busy freeways and interstate systems, wireless charging can occur while the vehicle is in motion.
    With this technology a vehicle essentially has unlimited electric range while using a relatively small battery pack.

    In-motion charging stations use vehicle sensors to alert the driver.

    Traveling at normal speeds, sensors establish in-motion charging.

    WPT transmit pads sequentially energize to the negotiated power level based on vehicle speed and its requested charging energy. Lower power when vehicle speed is slow and much higher power for faster moving vehicles.


    Vehicle to Infrastructure communications (V2I) coordinates WPT charging level according to on-board battery pack state-of-charge.

    V2I activates the roadway transmit pads placing them in standby mode and negotiates charging fee based on prevailing grid rate and vehicle energy demand


    Dynamic charging would allow electricity to supply a very large fraction of the energy for the transportation sector and reduce greatly petroleum consumption.
    Previously worrisome traffic delays now provide longer periods of charge while passing over in-motion chargers.

    Inclement weather such as rain and snow do not affect the charging capability.

    At ORNL, we are working to develop the robust nature of wireless power technology to provide a convenient, safe and flexible means to charge electric vehicles under stationary and dynamic conditions.

  3. #3


    ORNL surges forward with 20-kilowatt wireless charging for electric vehicles

    Published on Mar 31, 2016

    A 20-kilowatt wireless charging system demonstrated at Department of Energy’s Oak Ridge National Laboratory has achieved 90 percent efficiency and at three times the rate of the plug-in systems commonly used for electric vehicles today.

    "ORNL surges forward with 20-kilowatt wireless charging for vehicles"

    by Ron Walli
    March 31,2016

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