Highly selective low-power card detector for near field communications (NFC)

What is claimed is: 1. A device comprising: a processor; a near field communication (NFC) antenna; a card or tag detector coupled to the processor and the NFC antenna, wherein the card or tag detector further comprises: at least one transistor component integrated with the NFC antenna to form an oscillator that resonates at a particular resonant frequency on a particular time period, wherein the at least one transistor component is configured to operate as a card detector component or as an NFC data communication component; at least one switch component to switch operation of the at least one transistor component to detect a reflective impedance at the particular resonant frequency of the oscillator when operating as the card detector component, and to operate as the NFC data communication component upon detecting the reflective impedance that is substantially decreasing the oscillation of the oscillator. 2. The device of claim 1 , wherein an NFC data communication operation is at inactive state when the at least one transistor component operates as the card detector component. 3. The device of claim 1 , wherein the particular resonant frequency comprises about 13.56 MHz for NFC card or tags. 4. The device of claim 1 , wherein the oscillator is a Pierce Oscillator. 5. The device of claim 1 , wherein substantial decrease in the oscillation indicates detection of a NFC enabled device. 6. The device of claim 5 , wherein the detection of the NFC enabled device is independent of an external clock. 7. The device of claim 1 , wherein the reflective impedance is due to increased coupling between the integrated NFC antenna and another antenna of an NFC enabled device. 8. The device of claim 1 further comprising an oscillation detector configured to detect the substantial decrease in oscillation of the oscillator. 9. The device of claim 8 , wherein the oscillation detector comprises a limiting amplifier and a second transistor configured as a switch-transistor that generates a logic low output or a logic high output. 10. A card or tag detector comprising: a near field communication (NFC) antenna; at least one transistor component integrated to the NFC antenna forming an oscillator that resonates at a particular frequency on a particular period, wherein the at least one transistor component is configured to operate as a card detector component or as an NFC data communication component; at least one switch component to switch operation of the at least one transistor to detect a reflective impedance at the particular frequency when operating as the card detector component, and to operate as the NFC data communication component upon detecting the reflective impedance that is substantially decreasing oscillation of the oscillator; an oscillation detector configured to detect presence of a coupling card or tag based on a substantially decreased oscillation of the oscillator. 11. The card or tag detector of claim 10 , wherein the substantial decrease in the oscillation is due to increased coupling between the NFC antenna and a second antenna of an NFC enabled device. 12. The card or tag detector of claim 10 , wherein the oscillator resonates at a particular resonant frequency that comprises about 13.56 MHz for NFC card or tags. 13. The card or tag detector of claim 12 , wherein the particular resonant frequency is utilized to avoid false detection of metals. 14. The card or tag detector of claim 10 , wherein the oscillator is a Pierce Oscillator. 15. The card or tag detector of claim 10 , wherein the oscillation detector comprises a limiting amplifier and another transistor configured as a switch-transistor that generates a logic low output or a logic high output. 16. A method of low-power near field communication (NFC) card or tag detection, the method comprising: integrating an NFC antenna with at least one transistor to form an oscillator that resonates at a particular frequency on a particular period, wherein the at least one transistor is configured to operate as a card detector component; setting an oscillator resonant frequency; detecting a reflective impedance for the oscillator resonant frequency, wherein the reflective impedance facilitates a substantial loss of oscillator oscillation; activating operation of an NFC data communication based upon the substantial loss of the oscillator oscillation, wherein the activating includes toggling operation of the at least one transistor from acting as the car detector component into an NFC data communication component. 17. The method of claim 16 , wherein the integration comprises switching the at least one transistor to recombine with the NFC antenna. 18. The method of claim 16 , wherein the oscillator resonant frequency comprises about 13.56 MHz. 19. The method of claim 16 , wherein the substantial loss of the oscillator oscillation indicates presence or detection of the NFC card or tag. 20. The method of claim 16 , wherein the formed oscillator is a Pierce Oscillator.