Apparatus and method for non-compliant object detection

What is claimed is: 1. An apparatus for wirelessly transferring power, the apparatus comprising: a wireless power transmitter configured to wirelessly transmit power at a power level sufficient to power or charge a chargeable device positioned within a charging region; and a controller circuit operationally coupled to the wireless power transmitter and configured to: cause the wireless power transmitter to wirelessly transmit power throughout a time period to power or charge the chargeable device positioned within the charging region, determine a first power measurement P 1(PTU) of the power level provided by the wireless power transmitter at a first sample time T 1 within the time period, a second power measurement P 2(PTU) of the power level provided by the wireless power transmitter at a second sample time T 2 within the time period after the first sample time T 1 , and a third power measurement P 3(PTU) of the power level provided by the wireless power transmitter at a third sample time T 3 within the time period after the second sample time T 2 wherein the wireless power transmitter is wirelessly transmitting power to power or charge the chargeable device as the sample times T 1 , T 2 and T 3 , determine a first power difference Δ 1(PTU) between the first power measurement P 1(PTU) and the second power measurement P 2(PRU) , determine a second power difference Δ 2(PTU) between the second power measurement P 2(PTU) and the third power measurement P 3(PTU) , determine a transmitter power difference Δτ between the first power difference Δ 1(PTU) and the second power difference Δ 2(PTU) , and determine an absence or a presence of an object that affects consumption of power transmitted by the wireless power transmitter based at least on the transmitter power difference Δτ. 2. The apparatus of claim 1 , wherein the controller circuit is further configured to determine a receiver power difference Δ R of the chargeable device, wherein the receiver power difference Δ R is indicative of a difference between first and second power differences at the chargeable device. 3. The apparatus of claim 2 , wherein the controller circuit is further configured to determine that the transmitter power difference Δ T exceeds a threshold value before determining the receiver power difference Δ R . 4. The apparatus of claim 2 , wherein the controller circuit is further configured to determine if a difference Δ TR between the transmitter power difference Δ T and the receiver power difference Δ K exceeds a threshold value. 5. The apparatus of claim 4 , wherein the controller circuit is further configured to: determine one or more subsequent differences Δ TR _ N based on one or more subsequent transmitter power differences Δ T _ N and one or more subsequent receiver power differences Δ R _ N , wherein N is a positive integer, determine an average of the difference Δ TR and the one or more subsequent differences Δ TR _ N , adjust the threshold value based at least in part on the one or more subsequent receiver power differences Δ R _ N , and determine if the average of the difference Δ TR and the one or more subsequent differences Δ TR _ N exceeds the adjusted threshold value. 6. The apparatus of claim 4 , wherein the object comprises a non-compliant object and wherein the controller circuit is further configured to determine the presence of the non-compliant object if the difference Δ TR exceeds the threshold value. 7. The apparatus of claim 1 , wherein the wireless power transmitter turns off, adjusts the power level, or changes a state of transmission of power from the wireless power transmitter to the chargeable device if the controller circuit determines the presence of the non-compliant object within the charging region. 8. The apparatus of claim 2 , wherein the controller circuit is further configured to determine if the receiver power difference Δ R exceeds the transmitter power difference Δ T multiplied by a proportional factor value, k, wherein k is any fraction between 0 and 1. 9. The apparatus of claim 1 , wherein the power level is based on a current driven into a coil of the wireless power transmitter. 10. The apparatus of claim 1 , wherein the controller circuit is further configured to synchronize a clock of the wireless power transmitter with a clock of the chargeable device or account for a time synchronization difference between one or more of the first, second, and third sample time at the wireless power transmitter, T 1 , T 2 , and T 3 and one or more of a first, second, and third sample time at the chargeable device. 11. The apparatus of claim 2 , wherein the first and the second power differences at the chargeable device are based on measurements of receiver power levels, wherein the measurements of the receiver power levels and the measurements of the transmitter power levels are synchronized. 12. A method for wirelessly transferring power, the method comprising: wirelessly transmitting power over a time period at a power level sufficient to power or charge a chargeable device positioned within a charging region; determining a first power measurement P 1(PTU) of the power level provided by the wireless power transmitter at a first sample time T 1 within the time period, a second power measurement P 2(PTU) of the power level provided by the wireless power transmitter at a second sample time T 2 within the time period after the first sample time T 1 , and a third power measurement P 3(PTU) of the power level provided by the wireless power transmitter at a third sample time T 3 within the time period after the second sample time T 2 wherein the wireless power transmitter is wirelessly transmitting power to power or charge the chargeable device as the sample times T 1 , T 2 and T 3 , determining a first power difference Δ 1(PTU) between the first power measurement P 1(PTU) and the second power measurement P 2(PTU) , determining a second power difference Δ 2(PTU) between the second power measurement P 2(PTU) and the third power measurement P 3(PTU) , determining a transmitter power difference Δτ between the first power difference Δ 1(PTU) and the second power difference Δ 2(PTU) , and determining an absence or a presence of an object that affects consumption of power transmitted by the wireless power transmitter based at least on the transmitter power difference Δτ. 13. The method of claim 12 , further comprising determining a receiver power difference Δ R of the chargeable device, wherein the receiver power difference Δ R is indicative of a difference between first and second power differences at the chargeable device. 14. The method of claim 13 , further comprising determining that the transmitter power difference Δ T exceeds a threshold value before determining the receiver power difference Δ R . 15. The method of claim 13 , further comprising determining if a difference Δ TR between the transmitter power difference Δ T and the receiver power difference Δ R exceeds a threshold value. 16. The method of claim 15 , wherein the object comprises a non-compliant object, and the method further comprising determining the presence of the non-compliant object if the difference Δ TR exceeds the threshold value. 17. The method of claim 12 , wherein the power level is based on a current driven into a coil of the wireless power transmitter. 18. The method of claim 13 , wherein the first and the second power differences at the chargeable device are based on measurements of receiver power levels,