Systems and methods of reduction of parasitic losses in a wireless power system

Therefore, at least the following is claimed: 1. A method comprising: transferring power from a transmitter to a receiver in a wireless power system; measuring input power to the transmitter; receiving a message from the receiver indicating power received at the receiver; determining an amount of power lost in the transferring to indicate a presence of a parasitic loss in the wireless power system; determining a portion of the transferred power attributed to parasitic loss in a foreign object; reducing the power transmitted from the transmitter to a non-zero level so that the portion of transferred power lost in the foreign object does not exceed a predetermined safe level; and ignoring messages from the receiver requesting a higher level of transmitted power, wherein the presence of a parasitic loss is determined by comparing measured losses to expected losses, the expected losses determined by measuring system characteristics in a controlled environment, by applying a mathematical fit of the system characteristics to an equation for predicting parasitic losses, wherein the equation calculates expected loss as the sum of: a first constant multiplied by the square of transmitter peak voltage; a second constant multiplied by the transmitter peak voltage; and a third constant. 2. The method of claim 1 , gradually reducing power transmitted from the transmitter until an acceptable loss threshold is reached. 3. The method of claim 2 , further comprising setting the acceptable loss threshold in reference to a value received in a control error packet (CEP) message. 4. The method of claim 3 , further comprising ignoring the CEP message and directly controlling based on the parasitic loss. 5. The method of claim 2 , further comprising setting a transmit power regulation setpoint at the accepted loss threshold and regulating the transmit power at the transmit power regulation setpoint with a proportional loop. 6. The method of claim 2 , wherein the reducing of the power transmitted from the transmitter occurs within a predefined range of parasitic loss. 7. A method comprising: transferring power from a transmitter to a receiver in a wireless power system; measuring input power to the transmitter; receiving a message from the receiver indicating power received at the receiver; determining an amount of power lost in the transferring to indicate a presence of a parasitic loss in the wireless power system; determining a portion of the transferred power attributed to parasitic loss in a foreign object; reducing the power transmitted from the transmitter to a non-zero level so that the portion of transferred power lost in the foreign object does not exceed a predetermined safe level; and ignoring messages from the receiver requesting a higher level of transmitted power, wherein the presence of a parasitic loss is determined by comparing measured losses to expected losses, the expected losses determined by measuring system characteristics in a controlled environment, by applying a mathematical fit of the system characteristics to an equation for predicting parasitic losses, wherein the equation calculates expected loss as the sum of: a first constant multiplied by the square of transmitter peak voltage; a second constant multiplied by the transmitter peak voltage; a third constant; and a fourth constant multiplied by input current. 8. A system comprising: a transmitter in a wireless power system configured to: transmit power to a receiver; measuring input power to the transmitter; receiving a message from the receiver indicating power received at the receiver; determining the presence of a parasitic loss in the wireless power system; determining a portion of the transferred power attributed to parasitic loss in a foreign object; reduce the power transmitted to a non-zero level so that the portion of transferred power lost in the foreign object does not exceed a predetermined safe level; and ignoring messages from the receiver requesting a higher level of transmitted power, wherein the presence of a parasitic loss is determined by comparing measured losses to expected losses, the expected losses determined by measuring system characteristics in a controlled environment, by applying a mathematical fit of the system characteristics to an equation for predicting parasitic losses, wherein the equation calculates expected loss as the sum of: a first constant multiplied by the square of transmitter peak voltage; a second constant multiplied by the transmitter peak voltage; a third constant; and a fourth constant multiplied by input current. 9. The system of claim 8 , wherein the transmitter is further configured to gradually reduce the power transmitted from the transmitter until an acceptable loss threshold is reached. 10. The system of claim 9 , wherein the transmitter is further configured to set the acceptable loss threshold in reference to a value received in a control error packet (CEP) message. 11. The system of claim 10 , wherein the transmitter is further configured to ignore the CEP message and directly control the transmitted power based on the parasitic loss. 12. The system of claim 9 , wherein the transmitter is further configured to set a transmit power regulation setpoint at the accepted loss threshold and regulate the transmit power at the transmit power regulation setpoint with a proportional loop. 13. The system of claim 9 , wherein the transmitter is configured to reduce the power transmitted from the transmitter when the parasitic loss is within a predefined range. 14. A system comprising: a transmitter in a wireless power system configured to: transmit power to a receiver; measuring input power to the transmitter; receiving a message from the receiver indicating power received at the receiver; determining the presence of a parasitic loss in the wireless power system; determining a portion of the transferred power attributed to parasitic loss in a foreign object; reduce the power transmitted to a non-zero level so that the portion of transferred power lost in the foreign object does not exceed a predetermined safe level; and ignoring messages from the receiver requesting a higher level of transmitted power, wherein the presence of a parasitic loss is determined by comparing measured losses to expected losses, the expected losses determined by measuring system characteristics in a controlled environment, by applying a mathematical fit of the system characteristics to an equation for predicting parasitic losses wherein the equation calculates expected loss as the sum of: a first constant multiplied by the square of transmitter peak voltage; a second constant multiplied by the transmitter peak voltage and the transmitter input current; and a third constant. 15. A system comprising: means for transmitting power to a receiver; means for measuring input power to the transmitter; means for receiving a message from the receiver indicating power received at the receiver; means for determining the presence of a parasitic loss in the wireless power system; means for determining a portion of the transferred power attributed to parasitic loss in a foreign object; means for reducing the power transmitted to a non-zero level so that the portion of transferred power lost in the foreign object does not exceed a predetermined safe level; and means for ignoring messages from the receiver requesting a higher level of transmitted power; further comprising means for determining the presence of a parasitic loss by comparing measured losses to expected losses, the expected