Self-detaching anti-theft device using direct and harvested resonant energy

We claim: 1. A method for operating a security tag, comprising: receiving, in a receive circuit of the tag, the tag comprising a pin in an engaged state associated with attachment of the tag to an article, a wireless signal transmitted from a transmit circuit of a first external device, the signal comprising information related to disengaging the pin; receiving, via resonant inductive coupling between a second external device and an inductor of the tag, electrical energy in the tag; and upon a condition that the signal indicates disengaging the pin, using the electrical energy received via resonant inductive coupling to disengage the pin without any human assistance or further interface with an external device, wherein an inductor in the receive circuit resonates with a capacitor when a switch is closed, and the capacitor is tuned to a frequency to which the transmit circuit is tuned. 2. The method according to claim 1 , wherein an end of the pin resides within an aperture formed in a first portion of an enclosure spaced apart from a second portion of the enclosure by a gap when the pin is in an engaged state, and the pin is fully retracted into the second portion of the enclosure when the pin is in an unengaged state. 3. The method according to claim 1 , wherein a mechanical component of the security tag is connected directly between the switch and the capacitor of the receive circuit. 4. The method according to claim 1 , further comprising performing operations by a controller to close the switch. 5. The method according to claim 1 , further comprising harvesting energy by the security tag via the resonant inductive coupling, and using the harvested energy to power electronics of the tag. 6. The method according to claim 5 , further comprising discontinuing energy harvesting by the security tag when the switch of the tag is closed. 7. A security tag, comprising: a pin characterized by an engaged state associated with attachment of the tag to an article and an unengaged state associated with detachment of the tag from an article; a receive circuit configured to receive a wireless signal transmitted by a transmit circuit of a first external device, the signal comprising information related to disengaging the pin; an inductor configured to receive electrical energy via inductive coupling with a second external device; a mechanical component that controls engagement and dis engagement of the pin; and a controller, coupled to the receive circuit, the inductor, and the mechanical component and operative to: determine the information from the signal, and upon determining that the information of the signal indicates disengaging the pin, use the electrical energy received via resonant inductive coupling to disengage the pin using the mechanical component without human assistance or further interface with an external device, wherein an inductor in the receive circuit resonates with a capacitor when a switch is closed, and the capacitor is tuned to a frequency to which the transmit circuit is tuned. 8. The securitytag according to claim 7 , wherein an end of the pin resides within an aperture formed in a first portion of an enclosure spaced of the tag apart from a second portion of the enclosure of the tag by a gap when the pin is in an engaged state, and the pin is fully retracted into the second portion of the enclosure when the pin is in an unengaged state. 9. The security tag according to claim 7 , wherein the mechanical component of the security tag is connected directly between the switch and the capacitor of the receive circuit. 10. The security tag according to claim 7 , wherein the controller further performs operations to close the switch. 11. The security tag according to claim 7 , wherein the controller is further operative to harvest energy for the security tag via the resonant inductive coupling, and using the harvested energyto power electronics of the tag. 12. The security tag according to claim 11 , wherein the controller is further operative to discontinue energy harvesting by the security tag when the switch of the tag is closed.