Signal discrimination for wireless key fobs and interacting systems

What is claimed is: 1 . A method of controlling a wireless charging system in a vehicle, comprising: starting a wireless transmission of electromagnetic energy from a wireless power transmitter to a receiving device; measuring an electromagnetic signal within the vehicle during the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device; detecting a vehicle control signal within the electromagnetic signal; and stopping the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device upon detection of the vehicle control signal within the electromagnetic signal. 2 . The method of claim 1 , wherein stopping the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device comprises shorting a charging coil of the wireless power transmitter. 3 . The method of claim 1 , wherein detecting the vehicle control signal within the electromagnetic signal comprises: identifying a signal component within the electromagnetic signal, determining whether the signal component includes the vehicle control signal, and detecting the vehicle control signal within the electromagnetic signal based at least in part on the signal component. 4 . The method of claim 3 , wherein identifying the signal component within the electromagnetic signal comprises inputting the electromagnetic signal into a circuit that is tuned to a frequency of the vehicle control signal. 5 . The method of claim 3 , wherein identifying the signal component within the electromagnetic signal comprises subtracting a reference signal from the electromagnetic signal, wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 6 . The method of claim 1 , wherein detecting the vehicle control signal within the electromagnetic signal comprises: filtering the electromagnetic signal using a high pass filter to generate a filtered electromagnetic signal, and comparing the filtered electromagnetic signal to a reference signal, wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 7 . The method of claim 6 , wherein a cutoff frequency of the high pass filter is greater than a frequency of the wireless transmission of electromagnetic energy, and wherein the cutoff frequency of the high pass filter is less than a frequency of the vehicle control signal. 8 . The method of claim 1 , wherein detecting the vehicle control signal within the electromagnetic signal comprises: filtering the electromagnetic signal using a band pass filter to generate a filtered electromagnetic signal, and comparing the filtered electromagnetic signal to a reference signal, wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 9 . The method of claim 8 , wherein the band pass filter is tuned to a frequency of the vehicle control signal. 10 . The method of claim 1 , further comprising resuming the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device after a predetermined period of time following the detection of the vehicle control signal within the electromagnetic signal. 11 . A wireless charging system for a vehicle, comprising: a wireless power transmitter; a vehicle signal sensor; and a controller that starts a wireless transmission of electromagnetic energy from the wireless power transmitter to a receiving device, measures an electromagnetic signal within the vehicle during the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device, detects a vehicle control signal within the electromagnetic signal, and stops the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device upon detection of the vehicle control signal within the electromagnetic signal. 12 . The wireless charging system of claim 11 , wherein the wireless power transmitter includes a charging coil, and wherein the controller shorts the charging coil upon the detection of the vehicle control signal within the electromagnetic signal. 13 . The wireless charging system of claim 11 , wherein the controller identifies a signal component within the electromagnetic signal, determines whether the signal component includes the vehicle control signal, and detects the vehicle control signal within the electromagnetic signal based at least in part on the signal component. 14 . The wireless charging system of claim 13 , wherein the controller includes a circuit tuned to a frequency of the vehicle control signal, and wherein the controller identifies the signal component within the electromagnetic signal by inputting the electromagnetic signal into the circuit. 15 . The wireless charging system of claim 13 , wherein the controller identifies the signal component within the electromagnetic signal by subtracting a reference signal from the electromagnetic signal, wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 16 . The wireless charging system of claim 11 , wherein the controller includes a high pass filter that filters the electromagnetic signal to generate a filtered electromagnetic signal, and a comparator that compares the filtered electromagnetic signal to a reference signal, wherein the controller detects the vehicle control signal within the electromagnetic signal based at least in part on an output of the comparator, and wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 17 . The wireless charging system of claim 16 , wherein a cutoff frequency of the high pass filter is greater than a frequency of the wireless transmission of electromagnetic energy, and wherein the cutoff frequency of the high pass filter is less than a frequency of the vehicle control signal. 18 . The wireless charging system of claim 11 , wherein the controller includes a band pass filter that filters the electromagnetic signal to generate a filtered electromagnetic signal, and a comparator that compares the filtered electromagnetic signal to a reference signal, wherein the controller detects the vehicle control signal within the electromagnetic signal based at least in part on an output of the comparator, and wherein the reference signal corresponds to the wireless transmission of electromagnetic energy. 19 . The wireless charging system of claim 18 , wherein the band pass filter is tuned to a frequency of the vehicle control signal. 20 . The wireless charging system of claim 11 , wherein the controller resumes the wireless transmission of electromagnetic energy from the wireless power transmitter to the receiving device after a predetermined period of time following the detection of the vehicle control signal within the electromagnetic signal.