GUIDANCE AND ALIGNMENT SYSTEM AND METHODS FOR ELECTRIC VEHICLE WIRELESS CHARGING SYSTEMS
First Claim
1. An apparatus for sensing magnetic field components in a wireless power transfer system, comprising:
- a magnetically permeable substrate;
at least three co-planar coils disposed on the magnetically permeable substrate, the at least three coils configured to generate signals induced by a received magnetic field; and
a processing system operably connected to the coils and configured to generate at least two outputs, based on the signals generated by the coils, the outputs indicative of at least two vector components of the received magnetic field.
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Accused Products
Abstract
Guidance and alignment systems are disclosed for wireless charging systems to assist in aligning the transmitter and receiver inductive power transfer (IPT) couplers. These systems guide positioning and alignment to provide sufficient coupling between the transmitter and receiver IPT couplers. Exemplary systems provide a magnetic field sensor, magnetic field generator, and magnetic vectoring to determine a position of an electric vehicle or a wireless charging base. In a magnetic vectoring system, an alignment system comprising at least three coils (or similar circuits) on a magnetically permeable substrate receives a positioning magnetic field including modulated information signals and processes the received signal to generate an output for determining a position of the positioning magnetic field source relative to the magnetic field sensor position. The alignment system may further comprise a similar structure that generates the positioning magnetic field, that may include modulated information signals, based on input signals.
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Citations
30 Claims
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1. An apparatus for sensing magnetic field components in a wireless power transfer system, comprising:
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a magnetically permeable substrate; at least three co-planar coils disposed on the magnetically permeable substrate, the at least three coils configured to generate signals induced by a received magnetic field; and a processing system operably connected to the coils and configured to generate at least two outputs, based on the signals generated by the coils, the outputs indicative of at least two vector components of the received magnetic field. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of sensing magnetic field components in a wireless power transfer system, comprising:
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receiving a magnetic field via at least three co-planar coils disposed on a magnetically permeable substrate; generating signals induced by the received magnetic field via the at least three coils; and generating, via a processing system, at least two outputs based on the signals generated by the at least three coils, the output comprising at least two vector components of the received magnetic field. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. An apparatus for sensing magnetic field components in a wireless power transfer system, comprising
at least three co-planar coils disposed on a magnetically permeable substrate, configured to generate signals induced by a received magnetic field; - and
means for generating at least two outputs based on the signals generated by the at least three co-planar coils, the output comprising at least two vector components of the received magnetic field. - View Dependent Claims (27, 28, 29, 30)
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Specification