Classifying and detecting foreign objects using a power amplifier controller integrated circuit in wireless power transmission systems

What is claimed is: 1 . (canceled) 2 . A non-transitory computer-readable storage medium including instructions that, when executed by one or more integrated circuits in electronic communication with a power amplifier of a wireless power transmitter, cause performance of operations including: in accordance with an indication that the power amplifier is being turned on to initiate transmission of wireless power: receiving one or more impedance measurements from respective measurement points included within the power amplifier; and based on the one or more impedance measurements, determining one or more of: presence of a valid receiver for receiving wireless power from the wireless power transmitter, presence of a foreign object, and an adjustment to the transmission of the wireless power to prevent damage to the power amplifier. 3 . The non-transitory computer-readable storage medium of claim 2 , wherein the operations also include performing the one or more impedance measurements when the power amplifier is being turned on such that: the power amplifier is not active while the foreign object is present; the power amplifier is not active while a damaging condition is present; and/or the one or more impedance measurements do not reflect temporary transient conditions associated with start-up or shut-down. 4 . The non-transitory computer-readable storage medium of claim 2 , wherein the adjustment to the transmission of wireless power to prevent the damage to the power amplifier includes one or more of: adjusting a power level of the wireless power; shifting a transmission location of the wireless power; and/or shutting down the wireless power transmitter. 5 . The non-transitory computer-readable storage medium of claim 2 , wherein a directional coupler is not used to protect the power amplifier. 6 . The non-transitory computer-readable storage medium of claim 2 , the operations also including: upon determining, based on the one or more impedance measurements, that the damage to the power amplifier is not likely to occur in conjunction with the transmission of wireless power: instruct the power amplifier to amplify a wireless-power-transmission signal before the wireless-power-transmission signal is provided to an antenna for transmission. 7 . The non-transitory computer-readable storage medium of claim 2 , wherein the power amplifier is a Gallium Nitride (GaN) power amplifier. 8 . The non-transitory computer-readable storage medium of claim 2 , the operations further including: receiving, in accordance with the power amplifier being turned on, temperature measurements from thermistors at different stages of the power amplifier. 9 . An integrated circuit, comprising: memory, comprising instructions, which, when executed by the integrated circuit while it is in electronic communication with a power amplifier of a wireless power transmitter, cause operations for: in accordance with an indication that the power amplifier is being turned on to initiate transmission of wireless power: receiving one or more impedance measurements from respective measurement points included within the power amplifier; and based on the one or more impedance measurements, determining one or more of: presence of a valid receiver for receiving wireless power from the wireless power transmitter, presence of a foreign object, and an adjustment to the transmission of the wireless power to prevent damage to the power amplifier. 10 . The integrated circuit of claim 9 , wherein the operations also include performing the one or more impedance measurements when the power amplifier is being turned on such that: the power amplifier is not active while the foreign object is present; the power amplifier is not active while a damaging condition is present; and/or the one or more impedance measurements do not reflect temporary transient conditions associated with start-up or shut-down. 11 . The integrated circuit of claim 9 , wherein the adjustment to the transmission of wireless power to prevent the damage to the power amplifier includes one or more of: adjusting a power level of the wireless power; shifting a transmission location of the wireless power; and/or shutting down the wireless power transmitter. 12 . The integrated circuit of claim 9 , wherein a directional coupler is not used to protect the power amplifier. 13 . The integrated circuit of claim 9 , wherein the operations also include: upon determining, based on the one or more impedance measurements, that the damage to the power amplifier is not likely to occur in conjunction with the transmission of wireless power: instruct the power amplifier to amplify a wireless-power-transmission signal before the wireless-power-transmission signal is provided to an antenna for transmission. 14 . The integrated circuit of claim 9 , wherein the power amplifier is a Gallium Nitride (GaN) power amplifier. 15 . The integrated circuit of claim 9 , wherein the operations further include: receiving, in accordance with the power amplifier being turned on, temperature measurements from thermistors at different stages of the power amplifier. 16 . A power amplifier of a wireless power transmitter, comprising: one or integrated circuits in electronic communication with the power amplifier, the one or more integrated circuits configured to cause operations for: in accordance with an indication that the power amplifier is being turned on to initiate transmission of wireless power: receiving one or more impedance measurements from respective measurement points included within the power amplifier; and based on the one or more impedance measurements, determining one or more of: presence of a valid receiver for receiving wireless power from the wireless power transmitter, presence of a foreign object, and an adjustment to the transmission of the wireless power to prevent damage to the power amplifier. 17 . The power amplifier of claim 16 , wherein the operations also include performing the one or more impedance measurements when the power amplifier is being turned on such that: the power amplifier is not active while the foreign object is present; the power amplifier is not active while a damaging condition is present; and/or the one or more impedance measurements do not reflect temporary transient conditions associated with start-up or shut-down. 18 . The power amplifier of claim 16 , wherein the adjustment to the transmission of wireless power to prevent the damage to the power amplifier includes one or more of: adjusting a power level of the wireless power; shifting a transmission location of the wireless power; and/or shutting down the wireless power transmitter. 19 . The power amplifier of claim 16 , wherein a directional coupler is not used to protect the power amplifier. 20 . The power amplifier of claim 16 , wherein the operations further include: upon determining, based on the one or more impedance measurements, that the damage to the power amplifier is not likely to occur in conjunction with the transmission of wireless power: instruct the power amplifier to amplify a wireless-power-transmission signal before the wireless-power-transmission signal is provided to an antenna for transmission. 21 . The power amplifier of claim 16 , wherein the power amplifier is a Gallium Nitride (GaN) power amplifier. 22 . The power amplifier of claim 16 , wherein the