Low cost communications demodulation for wireless power transmission system

The invention claimed is: 1 . A wireless power transmission system that is configured to deliver wireless power to a wireless power receiver system comprising a receiver antenna, the wireless power transmission system comprising: a transmission antenna configured to (i) receive an AC signal, (ii) generate an alternating electromagnetic field for delivering the wireless power to the wireless power receiver system, and (iii) couple with the receiver antenna via the alternating electromagnetic field; at least one sensor configured to monitor the AC signal to detect modifications to a voltage of the AC signal, the detected modifications to the voltage of the AC signal caused by the wireless power receiver system modifying the alternating electromagnetic field; a demodulation circuit configured to (i) receive one or more indications of the voltage of the AC signal from the at least one sensor, (ii) monitor the one or more indications of the voltage of the AC signal to detect change in the voltage of the AC signal, wherein the change in the voltage of the AC signal is caused by the wireless power receiver system modifying the alternating electromagnetic field, (iii) determine if the change in the voltage of the AC signal meets or exceeds at least one threshold, (iv) generate an alert if the change in the voltage of the AC signal meets or exceeds the at least one threshold, and (v) output the alert; and a transmitter controller configured to (i) receive a plurality of alerts that includes the alert from the demodulation circuit and (ii) decode the plurality of alerts to decode a data signal represented by the wireless power receiver system modifying the alternating electromagnetic field. 2 . The wireless power transmission system of claim 1 , wherein the at least one sensor is integrated within the transmitter controller. 3 . The wireless power transmission system of claim 1 , wherein the at least one sensor comprises a current sensor. 4 . The wireless power transmission system of claim 1 , wherein the wireless power further comprises a carrier for wireless data signals. 5 . The wireless power transmission system of claim 4 , wherein the wireless data signals are encoded as amplitude shift keying (ASK) data signals. 6 . The wireless power transmission system of claim 4 , wherein the wireless data signals are encoded as pulse width encoded data signals. 7 . The wireless power transmission system of claim 1 , wherein the at least one threshold comprises a rise threshold or a fall threshold. 8 . The wireless power transmission system of claim 7 , wherein the rise threshold is associated with a high threshold voltage of the AC signal and the fall threshold is associated with a low threshold voltage of the AC signal. 9 . The wireless power transmission system of claim 1 , wherein determining if a change in the voltage of the AC signal meets or exceeds the at least one threshold comprises (i) determining if the change in the voltage of the AC signal meets or exceeds a rise threshold, and (ii) determining if the change in the voltage of the AC signal meets or exceeds a fall threshold; and wherein generating an alert if the change in the voltage of the AC signal meets or exceeds the at least one threshold comprises generating an alert if the change in the voltage of the AC signal meets or exceeds the rise threshold or the fall threshold. 10 . The wireless power transmission system of claim 1 , wherein the transmission antenna is configured to generate the alternating electromagnetic field for delivering the wireless power to the wireless power receiver system that utilizes the wireless power to power a load associated with a host device. 11 . The wireless power transmission system of claim 10 , wherein the host device is a computer peripheral. 12 . The wireless power transmission system of claim 1 , wherein the demodulation circuit comprises a slope detector circuit that is configured to detect the change in the voltage of the AC signal. 13 . The wireless power transmission system of claim 12 , wherein the slope detector circuit comprises a high pass filter. 14 . The wireless power transmission system of claim 13 , wherein a cutoff frequency for the high pass filter is greater than or equal to about 1 kHz. 15 . The wireless power transmission system of claim 12 , wherein the slope detector circuit comprises an operational amplifier. 16 . The wireless power transmission system of claim 1 , wherein the demodulation circuit comprises a comparator circuit that is configured to determine if the change in the voltage of the AC signal meets or exceeds the threshold. 17 . The wireless power transmission system of claim 16 , wherein the demodulation circuit comprises a set/reset (SR) latch in operative communication with the comparator circuit. 18 . The wireless power transmission system of claim 1 , wherein the demodulation circuit is an analog circuit. 19 . The wireless power transmission system of claim 1 , wherein the demodulation circuit is implemented as an integrated circuit. 20 . The wireless power transmission system of claim 1 , wherein the transmitter controller is external to the demodulation circuit is an analog circuit independent of the transmitter controller.