Measurement and reporting of received signal strength in NFC enabled devices

What is claimed is: 1. An NFC-enabled mobile device, comprising: a field detector circuit configured to detect an NFC reader field based on a current induced within an antenna of the NFC-enabled mobile device; a receiver circuit configured to wake from a powered-down state in response to detection of the NFC reader field by the field detector circuit, the receiver circuit further configured to generate in-phase (I) and quadrature (Q) components of an incoming signal received from the NFC reader field; first circuitry configured to determine a strength of the incoming signal received from the NFC reader field based on the I and Q components generated; second circuitry configured to generate information representative of the determined strength at a first time; and third circuitry configured to generate a first user perceivable output representative of the determined strength of the incoming signal, the first user perceivable output configured to direct a user to improve the strength of the incoming signal. 2. The NFC-enabled mobile device of claim 1 , wherein the first user perceivable output comprises a visual display. 3. The NFC-enabled mobile device of claim 2 , wherein the visual display is configured to display a bar graph. 4. The NFC-enabled mobile device of claim 2 , further comprising a housing inside of which the field detector circuit and the reader receiver circuit are disposed. 5. The NFC-enabled mobile device of claim 4 , wherein the third circuitry is mounted within the housing such that the visual display is observable from outside of the housing. 6. The NFC-enabled mobile device of claim 4 , wherein the third circuitry is mounted on the housing such that the visual display is observable from outside of the housing. 7. The NFC-enabled mobile device of claim 4 , wherein the first circuitry and the second circuitry are disposed within the housing. 8. The NFC-enabled mobile device of claim 2 , wherein the visual display comprises LEDs. 9. The NFC-enabled mobile device of claim 1 , further comprising a printed circuit board disposed within the housing. 10. An NFC-enabled computational platform, comprising: a first circuit configured to detect a current induced by an NFC reader field in an NFC antenna of the NFC-enabled computational platform, wherein the current represents a measure of coupling between the NFC reader field and a tag; a reader receiver configured to a measure of the current in the NFC antenna and to receive in-phase (I) and quadrature (Q) versions of a signal in the NFC antenna; a second circuit configured to generate a signal indicative of the coupling between the NFC reader field and the tag based on levels of the I and Q components of the signal; and a third circuit configured to produce a user perceivable output based on the signal. 11. The NFC-enabled computational platform of claim 10 , wherein the third circuit is coupled to a visual display. 12. The NFC-enabled computational platform of claim 11 , wherein the visual display is configured to display a bar graph. 13. The NFC-enabled computational platform of claim 10 , wherein the user perceivable output is an audio output. 14. The NFC-enabled computational platform of claim 10 , further comprising: a fourth circuit configured to wirelessly transmit a command to a device that is physically remote from the NFC-enabled computational platform; wherein the physically remote device is configured to produce a user perceivable output. 15. The NFC-enabled computational platform of claim 14 , wherein the physically remote device comprises an earphone. 16. The NFC-enabled computational platform of claim 10 , further comprising a housing inside of which the first circuit and the reader receiver circuit are disposed. 17. The NFC-enabled computational platform of claim 16 , wherein the third circuit is mounted within the housing such that the visual display is observable from outside of the housing. 18. The NFC-enabled computational platform of claim 16 , wherein the third circuit is mounted on the housing such that the visual display is observable from outside of the housing. 19. An NFC-enabled mobile device, comprising: a field detector circuit configured to detect an NFC reader field based on a current induced within an antenna of the NFC-enabled mobile device; a receiver circuit configured to wake from a powered-down state in response to detection of the NFC reader field by the field detector, the receiver circuit further configured to generate in-phase (I) and quadrature (Q) components of an incoming signal received from the NFC reader field; first circuitry configured to determine a strength of the incoming signal received from the NFC reader field based on the I and Q components generated; second circuitry configured to generate information representative of the determined strength at a first time; and third circuitry configured to generate a first user perceivable output representative of the determined signal strength, the first user perceivable output configured to direct a user to improve the strength of the signal received; wherein the field detector includes a shunt regulator.