Wireless charging performance measurement

What is claimed is: 1. A method of measuring wireless charging performance comprising: providing an oscillation signal to a power measurement apparatus, the oscillation signal comprising a wave that oscillates between a known first voltage level and a known second voltage level; setting a receiver gain of the measurement apparatus based on measured voltage levels produced in response to receiving the oscillation signal wave at the known first and second voltage levels; transmitting a wireless charging signal; subsequent to setting the receiver gain, measuring a transmitted power of the wireless charging signal by measuring voltage and current of a signal provided to an antenna for transmitting the wireless charging signal, measuring a relative phase of the voltage and the current, and calculating the transmitted power based on the voltage, the current and the relative phase; receiving an indication of a received power from the wireless charging signal received by a device; and determining wireless charging performance based on the measured transmitted power and the indication of the received power; wherein measuring the voltage of the signal provided to the antenna for transmitting the wireless charging signal comprises: connecting a first input of the measurement apparatus to a ground; and connecting a second input of the measurement apparatus to a first potential divider that is connected to a first node at an output of a power amplifier producing the signal provided to the antenna. 2. The method of claim 1 , wherein the indication of the received power is received from the device. 3. The method of claim 1 , wherein determining the wireless charging performance comprises comparing the transmitted power and the indication of the received power. 4. The method of claim 1 , wherein determining the wireless charging performance comprises determining at least one of a difference between the transmitted power and the received power and a ratio of the received power to the transmitted power. 5. The method of claim 4 , further comprising stopping transmission of the wireless charging signal when the difference reaches or is greater than a predetermined threshold, or the ratio reaches or falls below a predetermined threshold. 6. The method of claim 1 , further comprising stopping transmission of the wireless charging signal when the wireless charging performance is less than a predetermined level. 7. The method of claim 1 , further comprising receiving one or more further indications of received power from the wireless charging signal received by each of one or more further devices, and wherein determining the wireless charging performance comprises determining the performance based on the transmitted power, the indication of the received power and the one or more further indications of received power. 8. The method of claim 1 , wherein measuring the current of the signal provided to the antenna for transmitting the wireless charging signal comprises: connecting one of the first and second inputs of the measurement apparatus to the first potential divider, where the first node is between the power amplifier and a resistance in series between the power amplifier and the antenna; and connecting another one of the first and second inputs of the measurement apparatus to a second potential divider that is connected to a second node between the resistance and the antenna. 9. The wireless charger of claim 1 , wherein the oscillation signal is a square wave and the first known voltage level is a ground voltage level. 10. A wireless charger comprising: an antenna; a transmitter for transmitting a wireless charging signal using the antenna; an oscillator for providing an oscillation signal, the oscillation signal comprising a wave that oscillates between a known first voltage level and a known second voltage level; measurement apparatus for measuring a transmitted power of the wireless charging signal, wherein, when performing a calibration procedure, the measurement apparatus is configured to receive the oscillation signal from the oscillator and set a receiver gain of the measurement apparatus based on measured voltage levels produced in response to receiving the oscillation signal wave at the known first and second voltage levels; a receiver for receiving an indication of a received power from the wireless charging signal; processing apparatus for determining wireless charging performance based on the measured transmitted power and the indication of the received power; a power amplifier for producing the signal provided to the antenna; and a first potential divider that is connected to a first node at an output of the power amplifier, wherein, subsequent to setting the receiver gain, the measurement apparatus is configured to measure voltage and current of a signal provided to the antenna for transmitting the wireless charging signal, measure a relative phase of the voltage and the current, and calculate the transmitted power based on the voltage, the current and the relative phase; and wherein the measurement apparatus comprises a first input and a second input and, when measuring the voltage of the signal provided to the antenna for transmitting the wireless charging signal, the measurement apparatus is configured to: connect the first input of the measurement apparatus to a ground; and connect a second input of the measurement apparatus to the first potential divider. 11. The wireless charger of claim 10 , wherein the receiver is arranged to receive the indication of the received power from the device. 12. The wireless charger of claim 10 , wherein the processing apparatus is arranged to determine the wireless charging performance by comparing the transmitted power and the indication of the received power. 13. The wireless charger of claim 10 , wherein the processing apparatus is arranged to determine the wireless charging performance by determining at least one of a difference between the transmitted power and the received power and a ratio of the received power to the transmitted power. 14. The wireless charger of claim 13 , wherein the processing apparatus is arranged to stop the transmitter from transmitting the wireless charging signal when the difference reaches or is greater than a predetermined threshold, or the ratio reaches or falls below a predetermined threshold. 15. The wireless charger of claim 10 , wherein the processing apparatus is arranged to stop the transmitter from transmitting the wireless charging signal when the wireless charging performance is less than a predetermined level. 16. The wireless charger of claim 10 , wherein the receiver is configured to receive one or more further indications of received power from the wireless charging signal received by each of one or more further devices, and wherein the processing apparatus is arranged to determine the wireless charging performance by determining the performance based on the transmitted power, the indication of the received power and the one or more further indications of received power. 17. The wireless charger of claim 10 , further comprising: a resistance in series between the power amplifier and the antenna; a second potential divider that is connected to a second node between the resistance and the antenna; wherein, when measuring the current of the signal provided to the antenna for transmitting the wireless charging signal, the measurement apparatus is configured to: connect one of the first and second inputs of the measurement apparatus to the first potential divider, where the