Coil configurations for inductive power transfer
First Claim
1. A receiving unit for receiving power wirelessly from an inductive primary unit, said receiving unit comprising:
- a secondary circuit configured to inductively couple with said inductive primary unit for receiving power wirelessly at a first range of distances between said receiving unit and said inductive primary unit;
a resonating circuit configured to inductively couple with said inductive primary unit for receiving power wirelessly at a second range of distances between said receiving unit and said inductive primary unit, said resonating circuit including an adjustable element, wherein said resonating circuit is configured to inductively couple with said secondary circuit to transfer power from said inductive primary unit to said receiving unit, wherein said first range is different from said second range;
a controller electrically coupled to said adjustable element, said controller for selectively adjusting said adjustable element; and
wherein said adjustable element is a switch, and wherein said controller is configured to selectively activate said resonating circuit for receiving wireless power from said inductive primary unit such that (a) said resonating circuit receives wireless power from said inductive primary unit in response to said resonating circuit being activated and (b) said secondary circuit receives wireless power from said inductive primary unit in response to said resonating circuit being deactivated.
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Accused Products
Abstract
An inductive power supply system in which the receiving unit includes a secondary coil and a plurality of resonating circuits with different characteristics. Each of the resonating circuits may include a resonating coil and a resonating capacitor. The resonating coils may be inductively coupled to the secondary coil so that energy may be transferred from one or more of the resonating coils to said receiving unit. The plurality of resonating circuits are configured to provide improved power transfer efficiency or performance at different distances between the primary coil and secondary coil. The present invention may also provide a method for tuning the wireless power system including the general steps of measuring an operating characteristic in the primary unit, measuring an operating characteristic in the receiver unit and tuning one or more of the components in the primary unit and the secondary unit based on a comparison of the two measurements.
27 Citations
19 Claims
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1. A receiving unit for receiving power wirelessly from an inductive primary unit, said receiving unit comprising:
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a secondary circuit configured to inductively couple with said inductive primary unit for receiving power wirelessly at a first range of distances between said receiving unit and said inductive primary unit; a resonating circuit configured to inductively couple with said inductive primary unit for receiving power wirelessly at a second range of distances between said receiving unit and said inductive primary unit, said resonating circuit including an adjustable element, wherein said resonating circuit is configured to inductively couple with said secondary circuit to transfer power from said inductive primary unit to said receiving unit, wherein said first range is different from said second range; a controller electrically coupled to said adjustable element, said controller for selectively adjusting said adjustable element; and wherein said adjustable element is a switch, and wherein said controller is configured to selectively activate said resonating circuit for receiving wireless power from said inductive primary unit such that (a) said resonating circuit receives wireless power from said inductive primary unit in response to said resonating circuit being activated and (b) said secondary circuit receives wireless power from said inductive primary unit in response to said resonating circuit being deactivated. - View Dependent Claims (2, 3)
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4. An inductive power supply for transferring power wirelessly to a remote device at different distances between said inductive power supply and said remote device, said inductive power supply comprising:
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a primary circuit for producing a first field; a primary resonating circuit configured to receive power via said first field and configured to produce a second field; a switch electrically coupled to said primary resonating circuit, said switch for selectively activating said primary resonating circuit for transferring power to said remote device via said second field; a sensor electrically coupled to said primary circuit, said sensor configured to measure a characteristic of power in said primary circuit; and a controller electrically coupled to said primary circuit, said sensor, and said switch, said controller configured to control said switch as a function of said measured characteristic of power such that (a) said primary resonating circuit transfers power wirelessly to said remote device via said second field in response to said primary resonating circuit being activated and (b) said primary circuit transfers power wirelessly to said remote device via said first field in response to said primary resonating circuit being deactivated. - View Dependent Claims (5, 6)
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7. A method of transferring wireless power at different distances from a primary unit to a receiving unit via an inductive coupling, the primary unit having a primary circuit, the primary unit configured to drive the primary circuit at a rail voltage, a duty cycle, and an operating frequency, the receiving unit including a secondary circuit, a resonating circuit, and an adjustable element with a switch, the method comprising:
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providing the receiving unit in proximity to the primary unit; identifying one or more primary resonant frequencies of the primary unit and one or more secondary resonant frequencies of the receiving unit; based on said identifying, actively adjusting at least one of the one or more primary resonant frequencies of the primary unit and actively adjusting at least one of the one or more secondary resonant frequencies of the receiving unit; adjusting at least one of rail voltage, duty cycle, and operating frequency to provide power to the receiving unit via the inductive coupling; and selectively activating the resonating circuit of the receiving unit for receiving wireless power from the primary unit such that (a) the resonating circuit receives wireless power from the primary unit in response to the resonating circuit being activated and (b) the secondary circuit of the receiving unit receives wireless power from the primary unit in response to the resonating circuit being deactivated. - View Dependent Claims (8, 9, 10)
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11. A method of operating a primary unit to supply wireless power at different distances to a receiving unit via an inductive coupling, the primary unit having a primary circuit, the primary unit configured to drive the primary circuit at a rail voltage, a duty cycle, and an operating frequency, the method comprising:
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providing the receiving unit in proximity to the primary unit; identifying one or more primary resonant frequencies of the primary unit and one or more secondary resonant frequencies of the receiving unit; based on said identifying, actively adjusting at least one of the one or more primary resonant frequencies of the primary unit and actively adjusting at least one of the one or more secondary resonant frequencies of the receiving unit; adjusting at least one of rail voltage, duty cycle, and operating frequency to provide power to the receiving unit via the inductive coupling; driving the primary circuit of the primary unit at a plurality of operating frequencies; measuring a plurality of responses in both the primary unit and the receiving unit; and comparing the plurality of responses measured in the primary unit to the plurality of responses measured in the receiving unit. - View Dependent Claims (12, 13)
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14. A resonating circuit system for extending a distance of effective power transfer between a power supply and a remote device, said resonating circuit system comprising:
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a resonating circuit to wirelessly receive power via a field and to wirelessly transmit said received power; an enable/disable circuit having an adjustable element for selectively enabling and disabling said resonating circuit, said enable/disable circuit operating said adjustable element to enable and disable said resonating circuit depending on whether said field is within a range of operating characteristics, wherein said adjustable element enables said resonating circuit to extend the distance of effective power transfer between the power supply and the remote device, whereby selectively enabling and disabling said resonating circuit enables effective power transfer between the power supply and the remote device at different distances; and wherein said adjustable element is a switch, and wherein said enable/disable circuit is configured to selectively activate said resonating circuit for receiving wireless power from the power supply such that (a) said resonating circuit receives wireless power from an inductive primary of the power supply in response to said resonating circuit being activated and (b) a secondary circuit of the remote device receives wireless power from the inductive primary in response to said resonating circuit being deactivated. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification