Systems and methods of wireless power transfer with interference detection
First Claim
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1. A system for wireless power transfer comprising:
- a secondary side controller configured to monitor a sensed power and to produce a feedback signal comprising parameters relative to the sensed power; and
a modulation module configured to modulate a representation of the feedback signal, the modulation transmitted to a primary side controller, the primary side controller configured to demodulate the modulation from the modulation module;
compare the demodulated representation of the feedback signal with a primary power, and prohibit charging if efficiency of secondary power versus primary power is less than a predetermined level.
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Abstract
Systems and methods of wireless power transfer system with interference detection disclosed herein detects possible excessive energy transfer associated with parasitic metal objects placed in close proximity with system coils by comparing power received on the receiving side of the system with the power consumed on the primary side considering known losses in the system. If the result of such comparison shows that power consumed on the primary side substantially exceeds power received on the secondary side, the system may terminate operation.
24 Citations
17 Claims
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1. A system for wireless power transfer comprising:
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a secondary side controller configured to monitor a sensed power and to produce a feedback signal comprising parameters relative to the sensed power; and a modulation module configured to modulate a representation of the feedback signal, the modulation transmitted to a primary side controller, the primary side controller configured to demodulate the modulation from the modulation module; compare the demodulated representation of the feedback signal with a primary power, and prohibit charging if efficiency of secondary power versus primary power is less than a predetermined level. - View Dependent Claims (2, 3, 4)
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5. A method for wireless power transfer, comprising:
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generating a power signal utilizing a primary side transmitter inductively coupled to a secondary side receiver; receiving the power signa in the inductively coupled secondary side receiver; transmitting from the inductively coupled receiver a representation comprising parameters relative to sensed power from a secondary side of an inductive coupling utilized to transfer power from a primary side to the secondary side; applying the parameters to a power loss equation to determine efficiency of power transfer from primary to secondary wherein the power loss equation is
PMD=A*TX_pwr−
B*TX_pwr2−
C−
α
*RX_pwr2−
β
*RX_pwr−
γwhere A,B, &
C are the transmission related terms and α
, β
, &
γ
are the reception related terms. A is used to apply arbitrary units to the result. If PMD is in mW and TX_pwr is in Watts, A would be set to 1/1000;
if they have the same units (Watts in, Watts out, then A=1). B is a scaling factor which relates the (TX_pwr2) term to loss, and the constant C is the loss in the transmitter which is constant regardless of power; anddetermining the presence of a parasitic metallic element based on the efficiency; and interrupting generation of the power signal from the transmitter to the inductively coupled receiver is a parasitic element is detected. - View Dependent Claims (6, 7, 8)
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9. A system for wireless power transfer comprising:
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a primary side controller configured to; generate a power signal which is transmitted by a transmitter across an inductive coupling to a receiver; receive at the transmitter a representation comprising parameters relative determine if a parasitic metallic element is present by applying the parameters to a power loss equation to determine an efficiency of secondary sensed power versus primary power, wherein the power loss equation is
PMD=A*TX_pwr−
B*TX_pwr2−
C−
α
*RX_pwr2−
β
*RX_pwr−
γwhere A,B, &
C are the transmission related terms and α
, β
, &
γ
are the reception related terms. A is used to apply arbitrary units to the result. If PMD is in mW and TX_pwr is in Watts, A would be set to 1/1000;
if they have the same units (Watts in, Watts out, then A=1). B is a scaling factor which relates the (TX_pwr2) term to loss, and the constant C is the loss in the transmitter which is constant regardless of power; andinterrupt generation of the power signal from the transmitter to the inductively coupled receiver if a parasitic element is detected. - View Dependent Claims (10, 11, 12, 13)
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14. A wireless power transfer system comprising:
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a primary side transmitter generating a power signal in a coil for inductive coupling to a secondary side receiver, the primary side transmitter determining a power level received by the primary side transmitter from a power source and determining losses in the primary side transmitter; a secondary side receiver receiving the inductively coupled power from the primary side transmitter and determining a power level of the inductively coupled power, the secondary side receiver transmitting a signal related to the power level at the receiver to the transmitter; the transmitter utilizing the power level received at the transmitter, the power losses in the transmitter and the power level received at the receiver to determine power received by a foreign object and interrupting the generation of the power signal if the power received by the foreign object exceeds a threshold. - View Dependent Claims (15, 16)
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17. In a system for wireless power transfer from a primary side transmitter to a secondary side receiver, a primary side transmitter comprising:
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a primary side transmitter generating a power signal in a coil for inductive coupling to a secondary side receiver, the primary side transmitter determining a power level received by the primary side transmitter from a power source, determining losses in the primary side transmitter and receiving a signal representative of a power level received by a receiver; the transmitter utilizing the power level received at the transmitter, the power losses in the transmitter and the power level received at the receiver to determine power received by a foreign object and interrupting the generation of the power signal if the power received by the foreign object exceeds a threshold.
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Specification