[특허]Contact-less power transfer

Contact-less power transfer 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H01M-010/44 H01M-010/46
출원번호	US-0326571 (2002-12-20)
우선권정보	GB-0028425 (2002-12-06); GB-0013024 (2002-06-07); GB-0010886 (2002-05-13)
발명자 / 주소	Cheng, Lily Ka Lai Hay, James Westwood Beart, Pilgrim Giles William
출원인 / 주소	Splashpower Limited
대리인 / 주소	Garvey, Smith, Nehrbass &
인용정보	피인용 횟수 : 338 인용 특허 : 42

초록 ▼

A system and method for transferring power does not require direct electrical conductive contacts. There is provided a primary unit having a power supply and a substantially laminar surface having at least one conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor being arranged such that electromagnetic field lines generated by the at least one conductor are substantially parallel to the plane of the surface within the active area; and at least one secondary device including at least one conductor that may be wound about a core; wherein the active area has a perimeter large enough to surround the conductor or core of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit in the active area, such that when the at least one secondary device is placed on or in proximity to the active area in a predetermined orientation, the electromagnetic field induces a current in the at least one conductor of the at least one secondary device.

대표청구항 ▼

1. A system for transferring power without requiring direct electrical conductive contacts, the system comprising:i) a primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor being arranged such that electromagnetic field lines generated by the at least one conductor are generally parallel to the plane of the surface within the active area; and ii) at least one secondary device including at least one electrical conductor; wherein the active area of the primary unit has a perimeter large enough to surround the electrical conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit in the active area, such that when the at least one secondary device is placed on or in proximity to the active area in a predetermined orientation, the electromagnetic field induces a current in the at least one conductor of the at least one secondary device.2. A system as claimed in claim 1, wherein the primary unit includes a plurality of conductors configured so as to be able to generate a magnetic dipole that is switchable between different directions.3. A system as claimed in claim 2, wherein the plurality of conductors is configured so as to be able to generate a rotating magnetic dipole in or substantially parallel to the laminar surface.4. A system as claimed in claim 1, wherein the at least one conductor is substantially distributed and/or contained within the active area.5. A system as claimed in claim 1, wherein the active area is provided with a substrate of a magnetic material.6. A system as claimed in claim 1, wherein the primary unit includes at least one selectively operable capacitor adapted that a capacitance of a circuit including the at least one conductor and the at least one capacitor may be changed in response to a detected presence of one or more secondary devices.7. A system as claimed in claim 1, wherein the active area is provided with a flux guide having a relative permeability less than that of the core of the at least one secondary device.8. A system as claimed in claim 1, wherein the primary unit includes a power supply.9. A system as claimed in claim 1, wherein the at least one conductor in the secondary device is wound about a core that serves to concentrate flux therein.10. A system as claimed in claim 9, wherein the core is a magnetically permeable material.11. A system as claimed in claim 10, wherein the core is an amorphous magnetic material.12. A system as claimed in claim 9, having a core thickness of 2 mm or less.13. A system as claimed in claim 12, having a core thickness of 1 mm or less.14. A system as claimed in claim 1, wherein the secondary device comprises an inductively rechargeable battery or cell.15. A system as claimed in claim 14, wherein the inductively rechargeable battery or cell includes at least one conductor wound about a flux concentrating means.16. A system as claimed in claim 1, wherein the secondary device includes at least one electrical conductor having a substantially flat form factor.17. A system as claimed in claim 16, wherein the secondary device has a primary axis and is adapted to be rechargeable when in any rotation about its axis.18. A system as claimed in claim 1, wherein the primary unit includes a pair of conductors having adjacent coplanar windings which have mutually substantially parallel linear sections arranged so as to produce a substantially uniform electromagnetic field extending generally parallel to the plane of the windings but substantially at right angles to the parallel sections.19. A system as claimed in claim 18, wherein the windings are formed in a generally spiral shape, comprising a series of turns having substantially parallel straight sections.20. A system as claimed in claim 18, wherein the primary unit includes first and second pairs of conductors which are superimposed in substantially parallel planes with the substantially parallel linear sections of the first pair arranged generally at right angles to the substantially parallel linear sections of the second pair, and further comprising a driving circuit which is arranged to drive them in such a way as to generate a resultant field which rotates in a plane substantially parallel to the planes of the windings.21. A primary unit for transferring power in a non-conductive manner to at least one secondary device including at least one electrical conductor, the primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor of the primary unit being arranged such that electromagnetic field lines generated by the at least one conductor of the primary unit are substantially parallel to a plane of the surface within the active area, and wherein the active area has a perimeter large enough to surround the conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit in the active area.22. A primary unit as claimed in claim 21, including a plurality of primary unit conductors configured so as to be able to generate a magnetic dipole that is switchable between different directions.23. A primary unit as claimed in claim 22, wherein the plurality of primary unit conductors is configured so as to be able to generate a rotating magnetic dipole in or substantially parallel to the laminar surface.24. A primary unit as claimed in claim 21, wherein the at least one primary unit conductor is substantially distributed and/or contained within the active area.25. A primary unit as claimed in claim 21, wherein the active area is provided with a substrate of a magnetic material.26. A primary unit as claimed in claim 21, including at least one selectively operable capacitor adapted that a capacitance of a circuit including the at least one primary unit conductor and the at least one capacitor may be changed in response to a detected presence of one or more secondary devices.27. A primary unit as claimed in claim 21, wherein the primary unit includes a power supply.28. A primary unit as claimed in claim 21, wherein the active area is provided with a flux guide having a relative permeability less than that of any core that may be provided in the at least one secondary device.29. A primary unit as claimed in claim 21, including a pair of conductors having adjacent coplanar windings which have mutually substantially parallel linear sections arranged so as to produce a substantially uniform electromagnetic field extending generally parallel to the plane of the windings but substantially at right angles to the parallel sections.30. A primary unit as claimed in claim 29, wherein the windings are formed in a generally spiral shape, comprising a series of turns having substantially parallel straight sections.31. A primary unit as claimed in claim 29, including first and second pairs of conductors which are superimposed in substantially parallel planes with the substantially parallel linear sections of the first pair arranged generally at right angles to the substantially parallel linear sections of the second pair, and further comprising a driving circuit which is arranged to drive them in such a way as to generate a resultant field which rotates in a plane substantially parallel to the planes of the windings.32. A method of transferring power in a non-conductive manner from a primary unit to a secondary device, the primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor being arranged such that electromagnetic field lines generated by the at least one conductor are generally parallel to the plane of the surface within the active area, and the secondary device having at least one electrical conductor,wherein the active area has a perimeter large enough to surround the conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit within the active area and wherein flux lines of the electromagnetic field link with the conductor of the secondary device when the device is placed on or in proximity to the active area in a predetermined orientation.33. A method according to claim 32, wherein the primary unit includes a plurality of conductors which generate a magnetic dipole that is switchable between different directions.34. A method according to claim 33, wherein the plurality of conductors generate a rotating magnetic dipole in or substantially parallel to the laminar surface.35. A method according to claim 32, wherein the at least one primary unit conductor is substantially distributed and/or contained within the active area.36. A method according to claim 32, wherein the active area is provided with a substrate of a magnetic material and wherein the magnetic material completes a magnetic circuit.37. A method according to claim 32, wherein the primary unit includes at least one capacitor that is switched in or out such that a capacitance of a circuit including the at least one primary unit conductor and the at least one capacitor may be changed in response to a detected presence of one or more secondary devices.38. A method according to claim 32, wherein the active area is provided with a flux guide having a relative permeability less than that of any core that may be provided in the at least one secondary device.39. A system for transferring power without requiring direct electrical conductive contacts, the system comprising:i) a primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor being arranged such that electromagnetic field lines generated by the at least one conductor are substantially parallel to the plane of the surface within the active area; and ii) at least one secondary device including at least one electrical conductor; wherein the active area of the primary unit has a perimeter large enough to surround the electrical conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit in the active area, such that when the at least one secondary device is placed on or in proximity to the active area in a predetermined orientation, the electromagnetic field induces a current in the at least one conductor of the at least one secondary device. 40. A primary unit for transferring power in a non-conductive manner to at least one secondary device including at least one electrical conductor, the primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor of the primary unit being arranged such that electromagnetic field lines generated by the at least one conductor of the primary unit are substantially parallel to a plane of the surface within the active area, and wherein the active area has a perimeter large enough to surround the conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit in the active area.41. A method of transferring power in a non-conductive manner from a primary unit to a secondary device, the primary unit having a substantially laminar surface with at least one electrical conductor that generates an electromagnetic field when a current flows therethrough and having an active area defined within a perimeter of the surface, the at least one conductor being arranged such that electromagnetic field lines generated by the at least one conductor are substantially parallel to the plane of the surface within the active area, and the secondary device having at least one electrical conductor, wherein the active area has a perimeter large enough to surround the conductor of the at least one secondary device in any orientation thereof substantially parallel to the surface of the primary unit within the active area and wherein flux lines of the electromagnetic field link with the conductor of the secondary device when this is placed on or in proximity to the active area.

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Dibben, Jonathan Richard; Lemmens, Willy Henri; Hough, David James; Cannoodt, Hendrik; De Clercq, John, Inductive power transfer.
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Dibben, Jonathan Richard; Lemmens, Willy Henri; Hough, David James; Cannoodt, Hendrik; De Clercq, John, Inductive power transfer.
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Boys, John Talbot; Covic, Grant Anthony; Huang, Chang-Yu; Budhia, Mickel Bipin, Inductive power transfer apparatus.
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Boys, John Talbot; Huang, Chang-Yu, Inductive power transfer apparatus.
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Altunyurt, Nevin; Kautz, Richard William; Chandra, Sandeep Kamalakar Reddy, Inductive wireless power transfer system having a coupler assembly comprising moveable permeable panels.
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Soar, Roger J., Inductively coupled power and data transmission system.
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Tes, Sentrakal; Chea, Malen, Instrument for pedicure.
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Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Hall, Katherine L.; Giler, Eric R., Integrated repeaters for cell phone applications.
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Kurs, Andre B., Integrated resonator-shield structures.
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Kurs, Andre B., Integrated resonator-shield structures.
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Partovi, Afshin, Intelligent charging of multiple electric or electronic devices with a multi-dimensional inductive charger.
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Partovi, Afshin, Intelligent initiation of inductive charging process.
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Miller, Mark A.; Alderucci, Dean P.; Bradshaw, Thomas D., Interprocess communication regarding movement of game devices.
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Joshi, Rajeev, Leadframe based photo voltaic electronic assembly.
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Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Low AC resistance conductor designs.
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Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Low AC resistance conductor designs.
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Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Low AC resistance conductor designs.
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Turner, Jim; Saponas, Scott; Tan, Desney; Morris, Dan, Magnetic inductive charging with low far fields.
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Julstrom, Stephen Drake; Monroe, Timothy Scott, Magnetically coupled battery charging system.
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Julstrom, Stephen Drake; Monroe, Timothy Scott, Magnetically coupled battery charging system.
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Julstrom, Stephen Drake; Monroe, Timothy Scott, Magnetically coupled battery charging system.
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Hall, Katherine L.; Kulikowski, Konrad; Kesler, Morris P.; Kurs, Andre B.; Ganem, Steve J.; Schatz, David A.; Giler, Eric R., Mechanically removable wireless power vehicle seat assembly.
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Toncich, Stanley S.; Ozaki, Ernest T.; Mohammadian, Alireza H., Method and apparatus for adaptive tuning of wireless power transfer.
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Deng Peng, Chen, Method and apparatus for optical wireless charging.
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Tseng, Ryan, Method and apparatus for wireless power transmission.
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Tseng, Ryan, Method and apparatus for wireless power transmission.
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Mohammadian, Alireza Hormoz, Method and apparatus with negative resistance in wireless power transfers.
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Cheikh, Mohamed; Vassilieff, Youri, Method and charging bench via magnetic coupling.
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Poel, Robert; Sculley, Darrin, Method and system for locating resources and communicating within an enterprise.
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Swieter, Timothy D; Scheper, Robert; Sculley, Darrin, Method and system for locating resources and communicating within an enterprise.
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Swieter, Timothy D; Scheper, Robert; Sculley, Darrin, Method and system for locating resources and communicating within an enterprise.
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Hotelling, Steve; Pabon, Gus, Methods and apparatuses for docking a portable electronic device that has a planar like configuration and that operates in multiple orientations.
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Partovi, Afshin, Methods for improved transfer efficiency in a multi-dimensional inductive charger.
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Miller, Mark A.; Alderucci, Dean P.; Bradshaw, Thomas D., Mobile playing card devices.
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Soar, Roger J., Modular pocket with inductive power and data.
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Soar, Roger J., Modular pocket with inductive power and data.
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Binder, Yehuda, Motion sensing device which provides a signal in response to the sensed motion.
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Binder, Yehuda, Motion sensing device which provides a visual indication with a wireless signal.
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Binder, Yehuda, Motion sensing device with an accelerometer and a digital display.
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Boys, John Talbot; Covic, Grant Anthony, Multi power sourced electric vehicle.
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Boys, John Talbot; Covic, Grant Anthony, Multi power sourced electric vehicle.
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Partovi, Afshin, Multi-dimensional inductive charger and applications thereof.
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Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Schatz, David A.; Lou, Herbert Toby; Kesler, Morris P.; Hall, Katherine L.; Kulikowski, Konrad; Giler, Eric R.; Fiorello, Ron; Soljacic, Marin, Multi-resonator wireless energy transfer for exterior lighting.
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Karalis, Aristeidis; Verghese, Simon; Pallo, Nathan Andrew; Kesler, Morris P.; Kulikowski, Konrad; McCauley, Alexander P.; Kurs, Andre B., Multiple connected resonators with a single electronic circuit.
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Cho, Ki-Young, No point of contact charging system.
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Katz, Noam; Roy, Arunanshu Mohan; Jonas, Jude R.; Kesler, Morris P., Object detection for wireless energy transfer systems.
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Kurs, Andre B.; Danilovic, Milisav, PWM capacitor control.
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Cook, Nigel P.; Sieber, Lukas; Widmer, Hanspeter, Packaging and details of a wireless power device.
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Cook, Nigel P.; Widmer, Hanspeter; Sieber, Lukas, Packaging and details of a wireless power device.
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Karnstedt, Curt, Phase and amplitude detection in wireless energy transfer systems.
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Cheng,Lily Ka Lai; Hay,James Westwood; Beart,Pilgrim Giles William, Portable contact-less power transfer devices and rechargeable batteries.
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Kim, Yong Hae; Kang, Seung Youl; Lee, Myung Lae; Lee, Jong Moo; Cheon, Sang Hoon; Zyung, Tae Hyoung; Jeong, Yeon Seok, Portable device and battery charging method thereof.
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Miller, Mark A.; Alderucci, Dean P.; Bradshaw, Thomas D., Portable electronic charge device for card devices.
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Campanella, Andrew J.; Hall, Katherine L.; Karalis, Aristeidis; Kesler, Morris P.; Kulikowski, Konrad; Kurs, Andre B.; Li, Qiang; Soljacic, Marin; Giler, Eric R.; Schatz, David, Position insensitive wireless charging.
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John, Michael Sasha, Power generation for implantable devices.
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John, Michael Sasha, Power generation for implantable devices.
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John, Michael Sasha, Power generation for implantable devices.
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Partovi, Afshin; Sears, Michael, Power source, charging system, and inductive receiver for mobile devices.
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Partovi, Afshin; Sears, Michael, Power source, charging system, and inductive receiver for mobile devices.
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Shearer, John G.; Greene, Charles E.; Harrist, Daniel W., Power transmission network.
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Cheng,Lily Ka Lai; Hay,James Westwood; Beart,Pilgrim Giles William, Primary units, methods and systems for contact-less power transfer.
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Chatterjee, Manjirnath; Skillman, Peter N.; Matsuoka, Yoshimichi, Proximity detection alarm for an inductively charged mobile computing device.
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Kesler, Morris P.; Alinger, Dustin J.; Twelker, Karl; Atasoy, Oguz; Vora, Shrenik; Katz, Noam, RFID tag and transponder detection in wireless energy transfer systems.
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Mohammadian, Alireza Hormoz; Kasturi, Sreenivas; Kirby, Miles Alexander Lyell; Ozaki, Ernest T.; Toncich, Stanley Slavko; Tran, Allen Minh-Triet, Receive antenna for wireless power transfer.
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Julstrom, Stephen D.; Monroe, Timothy S.; Killion, Mead C.; Oltman, John E., Rechargeable battery assemblies and methods of constructing rechargeable battery assemblies.
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Mohammadian, Alireza Hormoz; Ozaki, Ernest T.; Grob, Matthew S., Repeaters for enhancement of wireless power transfer.
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Mohammadian, Alireza Hormoz; Ozaki, Ernest T.; Grob, Matthew S., Repeaters for enhancement of wireless power transfer.
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Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J.; Feldstein, Michael A.; Efe, Volkan, Resonator arrays for wireless energy transfer.
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Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J.; Feldstein, Michael A.; Efe, Volkan, Resonator arrays for wireless energy transfer.
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Kurs, Andre B.; Lestoquoy, Guillaume; Kesler, Morris P., Resonator balancing in wireless power transfer systems.
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Jonas, Jude R.; MacDonald, Matthew J.; Kesler, Morris P.; Kurs, Andre B.; Sirota, Jonathan; Kulikowski, Konrad J.; Amirkhani, Hamik, Resonator enclosure.
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Kesler, Morris P.; Kulikowski, Konrad; Hall, Katherine L.; Kurs, Andre B., Resonator enclosure.
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Efe, Volkan; Hall, Katherine L.; McCauley, Alexander Patrick; Kesler, Morris P., Resonator fine tuning.
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Kurs, Andre B.; Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J., Resonator optimizations for wireless energy transfer.
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Toncich, Stanley Slavko; Von Novak, III, William Henry, Reverse link signaling via receive antenna impedance modulation.
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Toncich, Stanley Slavko; Von Novak, William H., Reverse link signaling via receive antenna impedance modulation.
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Kesler, Morris P.; Kulikowski, Konrad; Lou, Herbert Toby; Hall, Katherine L.; Fiorello, Ron; Verghese, Simon; Kurs, Andre B.; Karalis, Aristeidis; Campanella, Andrew J., Safety systems for wireless energy transfer in vehicle applications.
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Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Hall, Katherine L.; Campanella, Andrew J.; Kulikowski, Konrad J., Secure wireless energy transfer.
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Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Hall, Katherine L.; Campanella, Andrew J.; Kulikowski, Konrad, Secure wireless energy transfer for vehicle applications.
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Kesler, Morris P.; Hall, Katherine L.; Karalis, Aristeidis; Kurs, Andre B.; Soljacic, Marin; Kulikowski, Konrad; Campanella, Andrew J., Secure wireless energy transfer in medical applications.
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Baarman, David W.; Moore, Colin J.; Taylor, Joshua B.; Mollema, Scott A.; Stoner, Jr., William T.; Moes, Benjamin C., Selectable coil array.
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MacWilliams, Graham T.; MacWilliams, Duncan S., Self-configuring charging techniques for electronic devices.
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Cook, Nigel P.; Widmer, Hanspeter; Sieber, Lukas, Short range efficient wireless power transfer including a charging base transmitter built into a desktop component and a power relay integrated into a desktop.
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Toncich, Stanley Slavko; Von Novak, III, William Henry, Signaling charging in wireless power environment.
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Toncich, Stanley Slavko; Von Novak, William H., Signaling charging in wireless power environment.
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Beasley, Charles; Neiman, Rachel Anne; Castaneda Roldan, Felipe Efrain; Scheper, Robert M., Smart locker.
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Sculley, Darrin; Anderson, Bo; Neiman, Rachel Anne; Buckingham, Brandon, Smart workstation method and system.
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Soar, Roger J., Soldier system wireless power and data transmission.
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Messer, Jeffrey, Solid state tesla coil suit.
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Scheper, Robert; Sculley, Darrin, Space guidance and management system and method.
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Scheper, Robert; Sculley, Darrin, Space guidance and management system and method.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Binder, Yehuda, System and method for a motion sensing device which provides a visual or audible indication.
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Partovi, Afshin, System and method for charging or powering devices, such as robots, electric vehicles, or other mobile devices or equipment.
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Raghunathan, Arun Kumar; Ramachandrapanicker, Somakumar; Bhat, Suma Memana Narayana; Bhogineni, Satishbabu, System and method for contactless exchange of power.
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Messer, Jeffrey, System and method for controlling an electromagnetic field generator.
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Cook, Nigel P.; Widmer, Hanspeter; Sieber, Lukas, System and method for efficient wireless power transfer to devices located on and outside a charging base.
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Partovi, Afshin; Sears, Michael, System and method for inductive charging of portable devices.
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Partovi, Afshin; Sears, Michael, System and method for inductive charging of portable devices.
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Partovi, Afshin, System and method for powering or charging receivers or devices having small surface areas or volumes.
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Partovi, Afshin; Sears, Michael, System and method that provides efficiency and flexiblity in inductive charging.
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Hall, Katherine L.; Kulikowski, Konrad J.; Kesler, Morris P.; Kurs, Andre B.; Ganem, Steven J.; Schatz, David A.; Giler, Eric R., System for wireless energy distribution in a vehicle.
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Partovi, Afshin, System for wireless power transfer that supports interoperability, and multi-pole magnets for use therewith.
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Partovi, Afshin, Systems and method for positioning freedom, and support of different voltages, protocols, and power levels in a wireless power system.
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Partovi, Afshin, Systems and method for wireless power transfer.
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Whitehead, Lorne A., Systems and methods for dipole enhanced inductive power transfer.
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Julstrom, Stephen Drake; Monroe, Timothy Scott, Systems and methods for maintaining a drive signal to a resonant circuit at a resonant frequency.
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Partovi, Afshin, Systems and methods for providing positioning freedom, and support of different voltages, protocols, and power levels in a wireless power system.
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John, Michael Sasha; Hall, Katherine L.; Kulikowski, Konrad J.; Kesler, Morris P.; Kurs, Andre B.; Roy, Arunanshu M.; Guckaya, Gozde, Systems and methods for wireless power system with improved performance and/or ease of use.
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John, Michael Sasha; Hall, Katherine L.; Kulikowski, Konrad J.; Kesler, Morris P.; Kurs, Andre B.; Roy, Arunanshu M.; Guckaya, Gozde, Systems and methods for wireless power system with improved performance and/or ease of use.
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John, Michael Sasha; Hall, Katherine L.; Kulikowski, Konrad J.; Kesler, Morris P.; Kurs, Andre B.; Roy, Arunanshu M.; Guckaya, Gozde, Systems and methods for wireless power system with improved performance and/or ease of use.
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Partovi, Afshin, Systems and methods for wireless power transfer.
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Ozaki, Ernest T.; Burdo, Rinat; Farahani, Shahin, Systems and methods relating to multi-dimensional wireless charging.
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MacWilliams, Graham T.; MacWilliams, Duncan S., Techniques and systems for charging electronic devices.
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MacWilliams, Graham T.; MacWilliams, Duncan S., Techniques and systems for generating power using multi-spectrum energy.
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Fiorello, Ron; Kulikowski, Konrad J., Temperature compensation in a wireless transfer system.
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Waffenschmidt, Eberhard; Roehrlich, Rafael; Deckers, Michael; Van Wageningen, Dries, Transmitter module for use in a modular power transmitting system.
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Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Hall, Katherine L.; Campanella, Andrew J., Tunable wireless energy transfer for in-vehicle applications.
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Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Schatz, David A.; Kesler, Morris P.; Hall, Katherine L.; Giler, Eric R.; Soljacic, Marin, Tunable wireless energy transfer for outdoor lighting applications.
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Campanella, Andrew J.; Lou, Herbert T.; Kesler, Morris P.; Hall, Katherine L.; Fiorello, Ron; Karalis, Aristeidis, Tunable wireless energy transfer systems.
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Campanella, Andrew J.; Lou, Herbert T.; Kesler, Morris P.; Hall, Katherine L.; Fiorello, Ron; Karalis, Aristeidis, Tunable wireless energy transfer systems.
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Karalis, Aristeidis; Kesler, Morris P.; Hall, Katherine L.; Pallo, Nathan Andrew, Tunable wireless power architectures.
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Karalis, Aristeidis; Kesler, Morris P.; Hall, Katherine L.; Pallo, Nathan Andrew, Tunable wireless power architectures.
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Kopychev, Andrey; Hecht, Gideon; Wellings, Peter J., User interface powered via an inductive coupling.
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Kopychev, Andrey; Hecht, Gideon; Wellings, Peter J., User interface powered via an inductive coupling.
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Blanchard, Robert R., Vehicle cabin power transfer arrangement.
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Soar, Roger J., Vehicle seat inductive charger and data transmitter.
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Soar, Roger J., Vehicle seat inductive charger and data transmitter.
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Thompson, Eric, Vertical docking station.
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Buenrostro, Christopher; Hlebowitsh, Paul Gerardus, Voltage source isolation in wireless power transfer systems.
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Ryann, William F., Wearable electronic pieces and organizer.
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Dayan,Tal; Goren,Ofer; Stein,Elliott J.; Kikinis,Dan, Wirefree mobile device power supply method & system with free positioning.
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Sip, Kim-Yeung, Wireless charger and wireless charging method thereof.
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Jeong, Seong Heon; Kim, Jeong Il, Wireless charger with uniform H-field generator and EMI reduction.
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Vu, Long Ngoc; Johnson, Randall; Cat, Quan; Adams, Aaron; Galler, Richard, Wireless charging assembly for a vehicle.
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Jakubowski, Daniel Benjamin, Wireless charging of electronic devices.
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Ganem, Steven J.; Schatz, David A.; Kesler, Morris P.; Giler, Eric R.; Hall, Katherine L., Wireless energy distribution system.
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Karalis, Aristeidis; Kurs, Andre B.; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Karalis, Aristeidis; Kurs, Andre B.; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Karalis, Aristeidis; Kurs, Andre B.; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Karalis, Aristeidis; Kurs, Andre B.; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Karalis, Aristeidis; Kurs, Andre B.; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Karalis, Aristeidis; Kurs, Andre B; Moffatt, Robert; Joannopoulos, John D.; Fisher, Peter H.; Soljacic, Marin, Wireless energy transfer.
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Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer across a distance to a moving device.
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Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer across variable distances.
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Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer across variable distances using field shaping with magnetic materials to improve the coupling factor.
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Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer across variable distances with high-Q capacitively-loaded conducting-wire loops.
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Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J.; Campanella, Andrew J., Wireless energy transfer converters.
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Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J.; Campanella, Andrew J., Wireless energy transfer converters.
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Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad J.; Campanella, Andrew J., Wireless energy transfer converters.
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Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Li, Qiang; Soljacic, Marin, Wireless energy transfer for computer peripheral applications.
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Kesler, Morris P.; Hall, Katherine L.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Campanella, Andrew J.; Schatz, David A., Wireless energy transfer for implantable devices.
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Kesler, Morris P.; Hall, Katherine L.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Campanella, Andrew J.; Schatz, David A., Wireless energy transfer for implantable devices.
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Kesler, Morris P.; Hall, Katherine L.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Campanella, Andrew J.; Schatz, David A., Wireless energy transfer for implantable devices.
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Kesler, Morris P.; Hall, Katherine L.; Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Campanella, Andrew J.; Schatz, David A., Wireless energy transfer for implantable devices.
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Ganem, Steven J.; Kesler, Morris P.; Hall, Katherine L.; Schatz, David A., Wireless energy transfer for medical applications.
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Ganem, Steven J.; Kesler, Morris P.; Hall, Katherine L.; Schatz, David A., Wireless energy transfer for medical applications.
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Lou, Herbert T.; Kesler, Morris P.; Hall, Katherine L.; Giler, Eric R.; Kulikowski, Konrad J., Wireless energy transfer for packaging.
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Kesler, Morris P.; Hall, Katherine L.; Giler, Eric R.; Kulikowski, Konrad J.; Campanella, Andrew J.; Verghese, Simon, Wireless energy transfer for photovoltaic panels.
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Kesler, Morris P.; Hall, Katherine L.; Giler, Eric R.; Kulikowski, Konrad J.; Campanella, Andrew J.; Verghese, Simon, Wireless energy transfer for photovoltaic panels.
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McCauley, Alexander Patrick; Kesler, Morris P.; Efe, Volkan; Hall, Katherine L., Wireless energy transfer for rechargeable batteries.
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McCauley, Alexander Patrick; Kesler, Morris P.; Efe, Volkan; Hall, Katherine L., Wireless energy transfer for rechargeable batteries.
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McCauley, Alexander Patrick; Kesler, Morris P.; Efe, Volkan; Hall, Katherine L., Wireless energy transfer for rechargeable batteries.
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Schatz, David A.; Lou, Herbert T.; Kesler, Morris P.; Hall, Katherine L.; Kulikowski, Konrad J.; Giler, Eric R.; Fiorello, Ron, Wireless energy transfer for refrigerator application.
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Schatz, David A.; Karalis, Aristeidis; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R.; Kurs, Andre B.; Kulikowski, Konrad J., Wireless energy transfer for supplying power and heat to a device.
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Kurs, Andre B.; Karalis, Aristeidis; Soljacic, Marin; Hall, Katherine L.; Kesler, Morris P.; Campanella, Andrew J., Wireless energy transfer for vehicles.
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Atasoy, Oguz; Lorenz, Peter, Wireless energy transfer for wearables.
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Kurs, Andre B.; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R., Wireless energy transfer in lossy environments.
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Kurs, Andre B.; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R., Wireless energy transfer in lossy environments.
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Kurs, Andre B.; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R., Wireless energy transfer in lossy environments.
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Verghese, Simon; Efe, Volkan; Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; McCauley, Alexander Patrick; Hijarrubia, Maria Empar Rollano, Wireless energy transfer modeling tool.
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Verghese, Simon; Efe, Volkan; Kesler, Morris P.; Kurs, Andre B.; Karalis, Aristeidis; McCauley, Alexander Patrick; Hijarrubia, Maria Empar Rollano, Wireless energy transfer modeling tool.
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Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer over a distance at high efficiency.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer over distance using field shaping to improve the coupling factor.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer over distances to a moving device.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer over variable distances between resonators of substantially similar resonant frequencies.
상세보기
Fiorello, Ron; Kesler, Morris P.; Kurs, Andre B.; Kulikowski, Konrad J.; Ganem, Steven J., Wireless energy transfer resonator enclosures.
상세보기
Kesler, Morris P.; Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Fiorello, Ron; Li, Qiang; Kulikowski, Konrad J.; Giler, Eric R.; Schatz, David A.; Hall, Katherine L.; Soljacic, Marin, Wireless energy transfer resonator kit.
상세보기
Kurs, Andre B.; Kesler, Morris P.; Hall, Katherine L.; Fiorello, Ron; MacDonald, Matthew J., Wireless energy transfer resonator thermal management.
상세보기
Kurs, Andre B.; Kesler, Morris P.; Hall, Katherine L.; Fiorello, Ron; MacDonald, Matthew J., Wireless energy transfer resonator thermal management.
상세보기
Kesler, Morris P.; Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Fiorello, Ron; Li, Qiang; Kulikowski, Konrad; Giler, Eric R.; Pergal, Frank J.; Schatz, David A.; Hall, Katherine L.; Soljacic, Marin, Wireless energy transfer systems.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Li, Qiang; Soljacic, Marin, Wireless energy transfer systems.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Li, Qiang; Soljacic, Marin, Wireless energy transfer systems.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer to a moving device between high-Q resonators.
상세보기
Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P.; Karalis, Aristeidis, Wireless energy transfer using conducting surfaces to shape field and improve K.
상세보기
Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P.; Karalis, Aristeidis, Wireless energy transfer using conducting surfaces to shape fields and reduce loss.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer using field shaping to reduce loss.
상세보기
Schatz, David A.; Karalis, Aristeidis; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R.; Kurs, Andre B.; Kulikowski, Konrad J., Wireless energy transfer using high Q resonators for lighting applications.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer using magnetic materials to shape field and reduce loss.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer using object positioning for improved k.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer using object positioning for low loss.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin, Wireless energy transfer using planar capacitively loaded conducting loop resonators.
상세보기
Giler, Eric R.; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Karalis, Aristeidis; Kurs, Andre B.; Li, Qiang; Ganem, Steven J., Wireless energy transfer using repeater resonators.
상세보기
Schatz, David A.; Hall, Katherine L.; Kesler, Morris P.; Kurs, Andre B.; Kulikowski, Konrad J., Wireless energy transfer using repeater resonators.
상세보기
Schatz, David A.; Hall, Katherine L.; Kesler, Morris P.; Kurs, Andre B.; Kulikowski, Konrad J., Wireless energy transfer using repeater resonators.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Wireless energy transfer using variable size resonators and system monitoring.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Wireless energy transfer using variable size resonators and system monitoring.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Wireless energy transfer using variable size resonators and system monitoring.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J.; Hall, Katherine L.; Kulikowski, Konrad J.; Soljacic, Marin, Wireless energy transfer using variable size resonators and systems monitoring.
상세보기
Schatz, David A.; Lou, Herbert T.; Kesler, Morris P.; Hall, Katherine L.; Kulikowski, Konrad J.; Giler, Eric R.; Fiorello, Ron, Wireless energy transfer with feedback control for lighting applications.
상세보기
Schatz, David A.; Karalis, Aristeidis; Hall, Katherine L.; Kesler, Morris P.; Soljacic, Marin; Giler, Eric R.; Kurs, Andre B.; Kulikowski, Konrad J., Wireless energy transfer with frequency hopping.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q at high efficiency.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q capacitively loaded conducting loops.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q devices at variable distances.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q from more than one source.
상세보기
Karalis, Aristeidis; Kurs, Andre B.; Campanella, Andrew J.; Kulikowski, Konrad J.; Hall, Katherine L.; Soljacic, Marin; Kesler, Morris P., Wireless energy transfer with high-Q resonators using field shaping to improve K.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q similar resonant frequency resonators.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q sub-wavelength resonators.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless energy transfer with high-Q to more than one device.
상세보기
Kesler, Morris P.; Hall, Katherine L.; Fiorello, Ron; Feldstein, Michael Alan; Efe, Volkan; Kulikowski, Konrad; Kurs, Andre B., Wireless energy transfer with multi resonator arrays for vehicle applications.
상세보기
Kurs, Andre B.; Kesler, Morris P.; Hall, Katherine L.; Karalis, Aristeidis; Verghese, Simon; Efe, Volkan; Soljacic, Marin; McCauley, Alexander P.; Hijarrubia, Maria Empar Rollano, Wireless energy transfer with reduced fields.
상세보기
Kesler, Morris P.; Hall, Katherine L.; Campanella, Andrew J.; Karalis, Aristeidis; Kurs, Andre B.; Soljacic, Marin; Kulikowski, Konrad, Wireless energy transfer with resonator arrays for medical applications.
상세보기
Kesler, Morris P.; Hall, Katherine L.; Kulikowski, Konrad; Karalis, Aristeidis; Kurs, Andre B.; Soljacic, Marin; Campanella, Andrew J.; Efe, Volkan, Wireless energy transfer with variable size resonators for implanted medical devices.
상세보기
Hall, Katherine L.; Efe, Volkan; Kesler, Morris P.; Campanella, Andrew J.; Karalis, Aristeidis; Kurs, Andre B.; Soljacic, Marin; Kulikowski, Konrad, Wireless energy transfer with variable size resonators for medical applications.
상세보기
Karalis, Aristeidis; Hamam, Rafif E.; Joannopoulos, John D.; Soljacic, Marin, Wireless energy transfer, including interference enhancement.
상세보기
Soar, Roger J., Wireless inductive charging of weapon system energy source.
상세보기
Jakubowski, Daniel B., Wireless interrogation and wireless charging of electronic devices.
상세보기
Alpert, Ortal; Paschotta, Rudiger, Wireless laser system for power transmission utilizing a gain medium between retroreflectors.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
Joannopoulos, John D.; Karalis, Aristeidis; Soljacic, Marin, Wireless non-radiative energy transfer.
상세보기
John, Michael Sasha, Wireless power harvesting and transmission with heterogeneous signals.
상세보기
John, Michael Sasha, Wireless power harvesting and transmission with heterogeneous signals.
상세보기
John, Michael Sasha, Wireless power harvesting and transmission with heterogeneous signals.
상세보기
John, Michael Sasha, Wireless power harvesting and transmission with heterogeneous signals.
상세보기
Gong, Samuel, Wireless power source.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Campanella, Andrew J.; Kesler, Morris P., Wireless power system including impedance matching network.
상세보기
Kurs, Andre B.; Karalis, Aristeidis; Kesler, Morris P.; Campanella, Andrew J., Wireless power system with associated impedance matching network.
상세보기
Sealy, Kylee D.; Efe, Volkan; Patterson, Susan M.; Bohm, Ryan J.; Kesler, Morris P., Wireless power transfer for a seat-vest-helmet system.
상세보기
Kirby, Miles A.; Grob, Matthew S.; Ozaki, Ernest T.; Jacobs, Paul E.; Von Novak, William H.; Mohammadian, Alireza Hormoz; Toncich, Stanley S., Wireless power transfer for appliances and equipments.
상세보기
Kirby, Miles A; Burdo, Rinat; Keating, Virginia W; Ozaki, Ernest T; Mangan, Michael J; Von Novak, William H, Wireless power transfer for furnishings and building elements.
상세보기
Kirby, Miles A.; Von Novak, William H.; Mangan, Michael J., Wireless power transfer for portable enclosures.
상세보기
Kirby, Miles Alexander Lyell; Burdo, Rinat; Keating, Virginia Walker; Grob, Matthew Stuart; Heilsberg, Stuart; Mangan, Michael; Ozaki, Ernest, Wireless power transfer for vehicles.
상세보기
Kurs, Andre B.; Kesler, Morris P.; Katz, Noam; Dillon, Matthew; Lou, Herbert Toby, Wireless power transfer frequency adjustment.
상세보기
Reed, Daniel P.; Wingrove, Theodore C., Wireless power transfer system.
상세보기
McCauley, Alexander P.; Roy, Arunanshu M.; Katz, Noam; Kurs, Andre B.; Kesler, Morris P., Wireless power transfer systems for surfaces.
상세보기
Kurs, Andre B., Wireless power transfer systems with shaped magnetic components.
상세보기
Kurs, Andre B., Wireless power transfer systems with shield openings.
상세보기
Kurs, Andre B., Wireless power transfer systems with shield openings.
상세보기
Mohammadian, Alireza Hormoz; Kasturi, Sreenivas; Kirby, Miles Alexander Lyell; Ozaki, Ernest T.; Toncich, Stanley Slavko; Tran, Allen Minh-Triet, Wireless power transfer using multiple transmit antennas.
상세보기
Kook, Yoon-Sang, Wireless power transmission system, wireless power transmission apparatus and wireless power receiving apparatus therefor.
상세보기
McCarthy, Colin; Lou, Herbert Toby; Guckaya, Gozde, Wireless power transmission systems for elevators.
상세보기
Gao, Qiang, Wireless power transmitter with multilayer printed circuit.
상세보기
Fiorello, Ron; Campanella, Andrew J.; Hall, Katherine L.; Kesler, Morris P.; Kulikowski, Konrad; Giler, Eric R., Wireless powered television.
상세보기
McCauley, Alexander P.; Kesler, Morris P.; Rhoufiry, Abdel Sam; Agha, Simone; Roy, Arunanshu M., Wirelessly charged battery system.
상세보기
Ganem, Steven J.; Mendoza, Hiroshi A.; Kesler, Morris P.; Kulikowski, Konrad J.; Kurs, Andre B.; McCauley, Alexander P.; Giler, Eric R.; Hall, Katherine L.; Guckaya, Gozde, Wirelessly powered audio devices.
상세보기
Ganem, Steven J.; Mendoza, Hiroshi A.; Kesler, Morris P.; Kulikowski, Konrad J.; Kurs, Andre B.; McCauley, Alexander P.; Giler, Eric R.; Hall, Katherine L.; Guckaya, Gozde, Wirelessly powered audio devices.
상세보기

IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Contact-less power transfer 원문보기

초록 ▼

대표청구항 ▼

연구과제 타임라인

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이 특허를 인용한 특허 (338)

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연합인증

Contact-less power transfer 원문보기

초록 ▼

대표청구항 ▼

연구과제 타임라인

전체(0) 논문(0) 특허(0) 보고서(0)

전체(0) 논문(0) 특허(0) 보고서(0)

이 특허에 인용된 특허 (42)

이 특허를 인용한 특허 (338)

관련 콘텐츠

특허 원문 보기

IPC 상위 출원인

AI-Helper ※ AI-Helper는 오픈소스 모델을 사용합니다.

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