20KW wireless EV charging @ 90% efficiency and 3X rate of plug-in charging

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

This ability can help accelerate the adoption and convenience of electric vehicles. Industry partners from Toyota, Cisco Systems, Evatran, and Clemson University International Center for Automotive Research contributed to the technology development demonstrated today at ORNL.

ORNL’s power electronics team achieved this world’s first 20-kilowatt wireless charging system for passenger cars by developing a unique architecture that included an ORNL-built inverter, isolation transformer, vehicle-side electronics and coupling technologies in less than three years. For the demonstration, researchers integrated the single-converter system into an electric Toyota RAV4 equipped with an additional 10-kilowatt hour battery.

The researchers are already looking ahead to their next target of 50-kilowatt wireless charging, which would match the power levels of commercially available plug-in quick chargers. Providing the same speed with the convenience of wireless charging could increase consumer acceptance of electric vehicles and is considered a key enabler for hands-free, autonomous vehicles. Higher power levels are also essential for powering larger vehicles such as trucks and buses.

As the researchers advance their system to higher power levels, one of their chief considerations is safety.

The high-frequency magnetic fields employed in power transfer across a large air gap are focused and shielded. magnetic fringe fields decrease rapidly to levels well below limits set by international standards, including inside the vehicle, to ensure personal safety.”

Convenience and simplicity are at the heart of the ORNL system, which places a strong emphasis on radio communications in the power regulation feedback channel augmented by software control algorithms. The result is minimization of vehicle on-board complexity as ORNL and partners pursue the long-range goal of connected vehicles, wireless communications and in-motion charging. While the team’s initial focus has been static, or motionless, wireless charging, the researchers also evaluated and demonstrated the system’s dynamic charging capabilities.

Energy Efficiency and Renewable Energy’s Vehicle Technologies Office provided funding for this competitively-selected project as part of a broad portfolio in support of DOE’s EV Everywhere Grand Challenge, which aims to make plug-in electric vehicles as affordable to own and operate as today’s gasoline-powered vehicles by 2022.

Toyota provided several vehicles for the research, including RAV4s, a Scion and a Plug-in Prius.

Other members of the ORNL project team are current staff members Steven Campbell, Paul Chambon, Omer Onar, Burak Ozpineci, Larry Seiber, Lixin Tang, Cliff White and Randy Wiles as well as retired staff members Curt Ayers, Chester Coomer and John Miller. The research and demonstration took place at ORNL’s National Transportation Research Center, a DOE User Facility.

WiTricity will offer Rezence demos for connected cars & homes @intlCES

witricityWiTricity, will give CES attendees a behind-the-scenes look at the commercial future of its wireless charging technology. Demos will include a Rezence-ready wireless charging hotspot. There will be Rezence-enabled consumer and automotive demonstrations, and hands-on experience with Prodigy demo units.

WiTricity recently announced the WiTricity A4WP Partner Program and WiT-5000C3 development kit. WiTricity is working with several major brands to propel Rezence adoption and ensure interoperability across applications.

For Automotive EV and in-vehicle charging, WiTricity will show how its technology is used to safely and efficiently charge electric vehicles (EVs) and hybrid electric vehicles (HEVs) wirelessly with WiTricity’s “park-and-charge” solution.

The WiTricity A4WP partner program offers essential tools that Original Design Manufacturers (ODMs) and Original Equipment Manufacturers (OEMs) need to create Rezence-ready solutions.

Toyota will be offering wireless charging of Prius in the 2016 model year.

Double decked-out wireless charged buses stopping in London

londonbusWhen you think of London and the big red double deck buses, you don’t think of bleeding edge technology. However next year, some hybrid London buses will recharge while they are stopped at bus stops. The buses will not have to plug-in to a charger but will have battery juice topped off  by wireless inductive charging.

The wireless chargers will be built into  bus stops in London, next year  The Enviro400H E400 hybrid buses, with wireless charging capabilities, will run on route 69 between Canning Town and Walthamstow. The inductive charging to on-board batteries will occur at the bus stops at either ends of the route.

Cadillac takes wireless charging cue with Powermat in emblematic move

ccadillacwirelessGM announced that Cadillac will add wireless charging of smartphones in the 2015 model ATS sport sedan and coupe launching this fall. The wireless charging will be compatible with Powermat and other in-phone wireless charging technologies, therefore  once inside the car, you place the smartphone on the mat and you don’t have to connect a cord to charge it.

Because people keep their smartphones with them all day and Bluetooth uses a lot of battery juice, wireless charging in cars is an ideal solution.

Wireless Car Charging Pads to Land Profits

nissanleafchargingThere are not many EV cars such as the Toyota Prius EV that can be charged wirelessly, yet, however a new report for WinterGreen Research shows lots of wireless charging pads landing for cars in the next few years, to the tune of $4.6 Billion in 2019.

Worldwide wireless car charging markets should achieve significant growth, notes the report.