1
Andre B Kurs, Aristeidis Karalis, Katherine L Hall, Morris P Kesler, Marin Soljacic: Wireless energy transfer using planar capacitively loaded conducting loop resonators. WiTricity Corporation, Strategic Patents P C, October 11, 2011: US08035255 (234 worldwide citation)

Described herein are improved capabilities for a source resonator having a Q-factor Q1>100 and a characteristic size x1 coupled to an energy source, and a second resonator having a Q-factor Q2>100 and a characteristic size x2 coupled to an energy drain located a distance D from the source resonator, ...


2
Katherine L Hall, Morris P Kesler, Konrad J Kulikowski, Andrew J Campanella: Wireless energy transfer converters. WiTricity Corporation, GTC Law Group & Affiliates, July 30, 2013: US08497601 (186 worldwide citation)

Described herein are improved configurations for a wireless power converter that includes at least one receiving magnetic resonator configured to capture electrical energy received wirelessly through a first oscillating magnetic field characterized by a first plurality of parameters, and at least on ...


3
David A Schatz, Herbert T Lou, Morris P Kesler, Katherine L Hall, Konrad J Kulikowski, Eric R Giler, Ron Fiorello: Wireless energy transfer for refrigerator application. WiTricity Corporation, GTC Law Group & Affiliates, January 31, 2012: US08106539 (177 worldwide citation)

Described herein are improved configurations for a refrigerator with wireless power transfer that includes an enclosure member comprising a non-metallic material, a source comprising at least one high-Q source magnetic resonator coupled to a power source and generating an oscillating magnetic field, ...


4
David A Schatz, Katherine L Hall, Morris P Kesler, Andre B Kurs, Konrad J Kulikowski: Wireless energy transfer using repeater resonators. WiTricity Corporation, GTC Law Group & Affiliates, May 20, 2014: US08729737 (162 worldwide citation)

A bag for wireless energy transfer comprising a compartment for storing an electronic device enabled for wireless energy transfer, and at least one magnetic resonator positioned for wireless energy transfer to the electronic device, wherein a the at least one magnetic resonator optionally operates i ...


5
Steven J Ganem, Morris P Kesler, Katherine L Hall, David A Schatz: Wireless energy transfer for medical applications. WiTricity Corporation, Fish & Richardson P C, January 20, 2015: US08937408 (151 worldwide citation)

Described herein are improved configurations for a wireless power transfer. Described are methods and designs for medical environments and devices. Wireless energy transfer is utilized to eliminate cords and power cables from operating instruments and electronic equipment requiring mobility.


6
Morris P Kesler, Aristeidis Karalis, Andre B Kurs, Andrew J Campanella, Ron Fiorello, Qiang Li, Konrad Kulikowski, Eric R Giler, Frank J Pergal, David A Schatz, Katherine L Hall, Marin Soljacic: Wireless energy transfer systems. WiTricity Corporation, GTC Law Group & Affiliates, June 11, 2013: US08461719 (138 worldwide citation)

Described herein are improved capabilities for a source resonator having a Q-factor Q1>100 and a characteristic size x1 coupled to an energy source, and a second resonator having a Q-factor Q2>100 and a characteristic size x2 coupled to an energy drain located a distance D from the source resonator, ...


7
Andre B Kurs, Aristeidis Karalis, Morris P Kesler, Andrew J Campanella, Katherine L Hall, Konrad J Kulikowski, Qiang Li, Marin Soljacic: Wireless energy transfer for computer peripheral applications. WiTricity Corporation, GTC Law Group & Affiliates, March 19, 2013: US08400017 (136 worldwide citation)

Described herein are improved configurations for wireless power transfer for computer peripherals, including a source magnetic resonator, integrated into a source station and connected to a power source and power and control circuitry; a device magnetic resonator, integrated into a computer peripher ...


8
Aristeidis Karalis, Andre B Kurs, Andrew J Campanella, Konrad J Kulikowski, Katherine L Hall, Marin Soljacic, Morris P Kesler: Wireless energy transfer using field shaping to reduce loss. WiTricity Corporation, GTC Law Group & Affiliates, November 6, 2012: US08304935 (131 worldwide citation)

In embodiments of the present invention improved capabilities are described for a method and system comprising a source resonator optionally coupled to an energy source and a second resonator located a distance from the source resonator, where the source resonator and the second resonator are couple ...


9
Aristeidis Karalis, Andre B Kurs, Andrew J Campanella, Konrad J Kulikowski, Katherine L Hall, Marin Soljacic, Morris P Kesler: Wireless energy transfer using magnetic materials to shape field and reduce loss. WiTricity Corporation, GTC Law Group & Affiliates, December 4, 2012: US08324759 (128 worldwide citation)

In embodiments of the present invention improved capabilities are described for a method and system comprising a source resonator optionally coupled to an energy source and a second resonator located a distance from the source resonator, where the source resonator and the second resonator are couple ...


10
Morris P Kesler, Aristeidis Karalis, Andre B Kurs, Andrew J Campanella, Ron Fiorello, Qiang Li, Konrad J Kulikowski, Eric R Giler, David A Schatz, Katherine L Hall, Marin Soljacic: Wireless energy transfer resonator kit. WiTricity Corporation, GTC Law Group & Affiliates, July 16, 2013: US08487480 (127 worldwide citation)

Described herein are improved capabilities for a source resonator having a Q-factor Q1>100 and a characteristic size x1 coupled to an energy source, and a second resonator having a Q-factor Q2>100 and a characteristic size x2 coupled to an energy drain located a distance D from the source resonator, ...