Qualcomm partnership demonstrates dynamic electric vehicle charging

Qualcomm Technologies, in partnership with Renault and Vedecom, has demonstrated dynamic wireless electric vehicle charging (DEVC), based on its Halo wireless electric vehicle charging technology (WEVC), to enable electric vehicles to charge dynamically at up to 20 kilowatts at highway speeds.
May 22, 2017 Read time: 2 mins
213 Qualcomm Technologies, in partnership with Renault and Vedecom, has demonstrated dynamic wireless electric vehicle charging (DEVC), based on its Halo wireless electric vehicle charging technology (WEVC), to enable electric vehicles to charge dynamically at up to 20 kilowatts at highway speeds.


Qualcomm Technologies also demonstrated simultaneous charging, in which two vehicles on the same track can charge dynamically at the same time, picking up charge in both directions along the track and in reverse.

The charging demonstrations took place at the 100-metre test track built by Vedecom at Satory Versailles, France, as part of the EU FABRIC project, which is looking at the viability of wireless DEVC.

Qualcomm Technologies and Vedecom integrated the transmission source portion of the Qualcomm Halo DEVC system into the test track, while Vedecom and Renault integrated the receiving portion into two Renault Kangoo vehicles.

Following the demonstration, the Qualcomm Halo DEVC system will be handed over to Vedecom to perform tests for FABRIC. These tests will evaluate the operation, safety and efficiency of energy transfer to the vehicles for a wide range of practical scenarios including vehicle identification and authorisation on entering the track, power level agreement between track and vehicle, speed and alignment of the vehicle along the track.

Related Content

  • June 11, 2015
    Transportation applications move to machine vision’s mainstream
    The adaptation of machine vision to transport applications continues apace. That the machine vision industry is taking traffic installations seriously is evident by the amount of hardware and software products tailor-made for ITS applications that are now available on the market. A good example comes from US-based Gridsmart Technologies which has developed a single wire fisheye camera that provides a horizon to horizon view for use at intersections. Not only does the single camera replace four or more in a
    Read More
  • May 24, 2016
    High-speed WIM moves onto the main highway
    High-speed weigh-in-motion is starting to make its mark on both sides of the Atlantic. As a transit country the Czech Republic experiences a large number of overloaded vehicles, which greatly increase highway maintenance costs. This prompted its Transport Ministry to trial an extension of the capabilities of the existing truck tolling system to allow the dynamic high-speed weighing of cargo vehicles. In effect the tolling enforcement gantries become weigh-in-motion (WIM) locations.
    Read More
  • March 17, 2016
    Inland waterways can de-stress city roads
    David Crawford looks at an under-utilised solution for city-centre deliveries. The use of rivers and canals for moving freight is a well-established mode in North Western Europe, where it can take advantage of an intensively developed network. In the Netherlands, 40% of the total volume of goods transported internally goes by water; the figure for Flanders (the neighbouring Dutch-speaking region of Belgium) is 11.5%.
    Read More
  • February 2, 2012
    Communications for cooperative infrastructures and safety
    Scott Andrews of Cogenia Partners, LLC details the findings of the VII Proof Of Concept work carried out to verify the effectiveness of 5.9GHz-based communication for future US cooperative infrastructures
    Read More

Highlighted Content