Systems and methods of detecting a change in object presence in a magnetic field

Therefore, at least the following is claimed: 1. A method of operating a wireless charging circuit determining change in object presence in a magnetic field comprising: during a time period in which the wireless charging circuit does not deliver power to a load, driving a primary coil with an injected signal at a substantially constant frequency to create a magnetic field, the injected signal being at a substantially lower duty cycle signal than a signal used to transmit power; measuring passively generated effects on amplitude of a feedback signal during a driving phase of the injected signal after the signal reaches a steady-state; monitoring the passively generated effects; determining a change in object presence in the magnetic field emitted from the primary coil based on a comparison of the monitored passively generated effects with a previous determination of the passively generated effects, the determination being absence of a receiver, presence of a non-receiver object or presence of a receiver in the magnetic field, wherein object detection is determined before charging a device in the magnetic field is initiated; and further comprising sampling the passively generated monitored effects substantially synchronously to the injected signal in at least two points, at least one point having a phase difference of substantially 180 degrees with respect to the injected signal and another point having a phase difference of substantially 90 degrees with respect to the injected signal. 2. The method of claim 1 , wherein the injected signal is an analog signal transmitted from the primary coil at substantially a resonant frequency. 3. The method of claim 2 , wherein the monitored passively generated effects are in response to the transmitting of the analog signal. 4. The method of claim 1 , wherein the sampling is performed after the sampled effects have reached a steady state condition. 5. The method of claim 1 , wherein the monitored passively generated effects are detected on at least one of: voltage on a resonant capacitor, current in the primary coil, and voltage node between the resonant capacitor and the primary coil. 6. A wireless charging system comprising: a charger for providing power at a first amplitude to a receiver comprising: a power control circuit; a primary coil driven by an injected signal from the power control circuit at a substantially constant frequency at a second amplitude less than the first amplitude and insufficient for power delivery to operate a receiver to create a magnetic field and configured to measure amplitude of passively generated effects on a feedback signal during a driving phase of the injected signal after the signal reaches a steady-state; and a controller configured to compare the measured amplitude of the feedback signal with passively generated effects in a previous measurement and to determine a change in presence of an object in the magnetic field emitted from the primary coil, the determination being absence of a receiver, presence of a non-receiver object or presence of a receiver in the magnetic field, wherein object detection is determined before charging a device in the magnetic field is initiated; wherein the measured passively generated effects are sampled substantially synchronously with the injected signal in at least two points one point having a substantially 180 degree phase difference with respect to the injected signal and another point having a phase difference of substantially 90 degree with respect to the injected signal. 7. The wireless charging system of claim 6 , wherein the injected signal is an analog signal transmitted from the primary coil at substantially a resonant frequency of the primary coil. 8. The wireless charging system of claim 7 , wherein the measured passively generated effects are a response to the analog signal. 9. The wireless charging system of claim 6 , wherein the sampling is performed after the sampled effects have reached a steady state condition.