Vehicular wireless power transfer system with performance monitoring
First Claim
1. A wireless power transfer system for a vehicle, the system comprising:
- a primary side network including a transmitting coil and a plurality of primary magnetic cores, wherein the transmitting coil is coupled to the plurality of primary magnetic cores, and the transmitting coil is configured to receive power from a power supply;
a secondary side network including a receiving coil and a plurality of secondary magnetic cores, wherein the receiving coil is coupled to the plurality of secondary magnetic cores, and the secondary side network is configured to receive power from the primary side network by way of inductively coupling between the transmitting coil and the receiving coil;
a plurality of detection coils coupled to at least one of the primary magnetic cores or the secondary magnetic cores, wherein the plurality of detection coils output at least one voltage signal based on the inductively coupling between the transmitting coil and the receiving coil; and
a charge monitor controller determining a system diagnosis status based on the at least one voltage signal from the detection coils;
wherein the charge monitor controller stores a predetermined performance data and determines whether the transmitting coil and the receiving coil are misaligned relative to one another as the system diagnosis status based on the voltage signals from the detection coils and the performance data; and
wherein the plurality of detection coils are staggered along lengths of at least one of the primary magnetic cores and the secondary magnetic cores.
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Accused Products
Abstract
A wireless power transfer system for charging a battery positioned in a vehicle may include a primary side network, a secondary side network, detection coils, and a charge monitor controller. The secondary side network may be configured to receive power from the primary side network by way of inductively coupling between a transmitting coil of the primary side network and a receiving coil of the secondary side network. The detection coils may be coupled to magnetic cores provided with at least one of the primary side network or the secondary side network. The detection coils may output at least one voltage signal based on the inductively coupling between the transmitting coil and the receiving coil. The charge monitor controller may determine a system diagnosis status based on the at least one voltage signal from the detection coils.
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Citations
15 Claims
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1. A wireless power transfer system for a vehicle, the system comprising:
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a primary side network including a transmitting coil and a plurality of primary magnetic cores, wherein the transmitting coil is coupled to the plurality of primary magnetic cores, and the transmitting coil is configured to receive power from a power supply; a secondary side network including a receiving coil and a plurality of secondary magnetic cores, wherein the receiving coil is coupled to the plurality of secondary magnetic cores, and the secondary side network is configured to receive power from the primary side network by way of inductively coupling between the transmitting coil and the receiving coil; a plurality of detection coils coupled to at least one of the primary magnetic cores or the secondary magnetic cores, wherein the plurality of detection coils output at least one voltage signal based on the inductively coupling between the transmitting coil and the receiving coil; and a charge monitor controller determining a system diagnosis status based on the at least one voltage signal from the detection coils; wherein the charge monitor controller stores a predetermined performance data and determines whether the transmitting coil and the receiving coil are misaligned relative to one another as the system diagnosis status based on the voltage signals from the detection coils and the performance data; and wherein the plurality of detection coils are staggered along lengths of at least one of the primary magnetic cores and the secondary magnetic cores. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A wireless power transfer system for charging a battery located in a vehicle, the wireless power transfer system comprising:
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a plurality of magnetic cores; a receiving coil coupled to the magnetic cores, wherein the magnetic cores and the receiving coil are disposed along an underside of the vehicle, and the receiving coil receives power from a transmitting coil located external to the vehicle; a plurality of detection coils wound about the magnetic cores, wherein the detection coils output voltage signals indicative of an induced voltage at a respective detection coil in response to the receiving coil receiving power from the transmitting coil; and a charge monitor controller electrically coupled to the detection coils and storing predetermined performance data, wherein the charge monitor controller determines a system diagnosis status based on the voltage signals from the detection coils and the performance data; wherein the charge monitor controller determines that the receiving coil is misaligned with the transmitting coil, as the system diagnosis status, when the induced voltage at the detection coils is asymmetrical; wherein the plurality of detection coils are staggered along lengths of different ones of the magnetic cores. - View Dependent Claims (11, 12, 13)
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14. A method of monitoring an operating condition of a wireless power transfer system for a vehicle, the wireless power transfer system including a transmitting coil and receiving coil, the transmitting coil supplying power to the receiving coil via inductive coupling, the method comprising:
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detecting, by a detection coil, an induced voltage at a predefined location of the wireless power transfer system; outputting, by the detection coil, a voltage signal indicative of the induced voltage to a charge monitor controller; determining, by the charge monitor controller, a voltage value indicative of the voltage signal from the detection coil located at the predefined location; and identifying, by the charge monitor controller, at least one system diagnosis status from among a plurality of system diagnosis statuses of the wireless power transfer system based on the voltage value detected at the predefined location and predetermined performance data stored by the charge monitor controller, wherein predetermined performance data stores a plurality of expected voltage values to be detected at the predefined location in association with one or more of the system diagnosis statuses; wherein at least one of the plurality of system diagnosis statuses indicates that the transmitting coil and the receiving coil are misaligned relative to one another; and wherein the detection coil is one of a plurality of detection coils, each one of which is coupled to a different one of a plurality of magnetic cores and staggered along lengths of the plurality of magnetic cores. - View Dependent Claims (15)
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Specification