Switchable RFID antennas responsive to an environmental sensor

The invention is claimed as follows: 1. A sensor system comprising: a primary RFID tag and a secondary RFID tag, each RFID tag comprising an antenna and an integrated circuit electrically connected to the antenna; a switch being electrically connected to the antenna of the primary RFID tag and the antenna of the secondary RFID tag and being electrically connected with the primary RFID tag and the secondary RFID tag in a manner that the primary RFID tag and the secondary RFID tag are not activated at the same time; at least two first electrical terminals electrically connecting the primary RFID tag to the switch; and at least two second electrical terminals electrically connecting the secondary RFID tag to the switch, wherein the switch has a conductive state and a non-conductive state, and when the switch is in the conductive state, the switch completes an electrical connection from the antenna of the primary RFID tag with the integrated circuit of the primary RFID tag such that the primary RFID tag is activated and an electrical connection from the antenna of the secondary RFID tag with the integrated circuit of the secondary RFID tag is shorted such that the secondary RFID tag is deactivated, and wherein when the switch is in the non-conductive state, the switch opens the electrical connection from the antenna of the primary RFID tag with the integrated circuit of the primary RFID tag such that the primary RFID tag is deactivated and a short of the electrical connection from the antenna of the secondary RFID tag with the integrated circuit of the secondary RFID tag is removed such that the secondary RFID tag is activated. 2. The sensor system of claim 1 , wherein a change in the state of the switch is permanent, providing an irreversible indication of a temperature event. 3. The sensor system of claim 1 , wherein the switch comprises a sensor device selected from the group consisting of a thermal history sensor, a high-temperature threshold sensor, a low-temperature threshold sensor, a freeze sensor, a melt sensor, a time temperature sensor, and a combination of the sensors thereof. 4. The sensor system of claim 1 , wherein the primary RFID tag or the secondary RFID tag comprises a passive tag. 5. The sensor system of claim 1 , wherein the system is attached to or supported by a host product. 6. A sensor system comprising: a primary RFID tag and a secondary RFID tag, each RFID tag comprising an antenna and an integrated circuit electrically connected to the antenna; a switch being electrically connected to the antenna of the primary RFID tag and the antenna of the secondary RFID tag and being electrically connected with the primary RFID tag and the secondary RFID tag in a manner that the primary RFID tag and the secondary RFID tag are not activated at the same time; at least two first electrical terminals electrically connecting the primary RFID tag to the switch; at least two second electrical terminals electrically connecting the secondary RFID tag to the switch, an additional secondary RFID tag having an antenna and an integrated circuit electrically connected to the antenna; an additional switch being electrically connected to the antenna of the primary RFID tag and the antenna of the additional secondary RFID tag and being electrically connected with the primary RFID tag and the additional secondary RFID tag in a manner that the primary RFID tag and the additional secondary RFID tag are not activated at the same time; at least two third electrical terminals electrically connecting the primary RFID tag to the additional switch; and at least two fourth electrical terminals electrically connecting the additional secondary RFID tag to the additional switch. 7. A sensor system comprising: a primary RFID tag and a secondary RFID tag, each RFID tag comprising an antenna and an integrated circuit electrically connected to the antenna; a switch being electrically connected to the antenna of the primary RFID tag and the antenna of the secondary RFID tag and being electrically connected with the primary RFID tag and the secondary RFID tag in a manner that the primary RFID tag and the secondary RFID tag are not activated at the same time; at least two first electrical terminals electrically connecting the primary RFID tag to the switch; at least two second electrical terminals electrically connecting the secondary RFID tag to the switch, wherein the switch comprises a sensor device having a dopant layer, a conductive polymer, and a permeable membrane located between the dopant layer and the conductive polymer, wherein when the sensor device reaches a threshold temperature, the dopant layer diffuses through the permeable membrane into the conductive polymer to increase the conductivity of the conductive polymer, and wherein the at least two first electrical terminals and the at least two second electrical terminals are electrically connected to the conductive polymer. 8. The sensor system of claim 7 , wherein the dopant layer comprises a waterbased acrylic adhesive layer containing a microencapsulated dopant. 9. A sensor system comprising: a primary RFID tag and a secondary RFID tag, each RFID tag comprising an antenna and an integrated circuit electrically connected to the antenna; a switch being electrically connected to the antenna of the primary RFID tag and the antenna of the secondary RFID tag and being electrically connected with the primary RFID tag and the secondary RFID tag in a manner that the primary RFID tag and the secondary RFID tag are not activated at the same time; at least two first electrical terminals electrically connecting the primary RFID tag to the switch; at least two second electrical terminals electrically connecting the secondary RFID tag to the switch, wherein the switch comprises a sensor device having a chemical etchant layer, a conductive metal layer, and a permeable membrane located between the chemical etchant layer and the conductive metal layer, and wherein when the sensor device reaches a threshold temperature, the chemical etchant layer diffuses through the membrane into the conductive metal layer to degrade the conductivity of the conductive metal layer. 10. The sensor system of claim 9 , wherein the at least two first electrical terminals and the at least two second electrical terminals are electrically connected to the conductive metal layer. 11. The sensor system of claim 9 , wherein the chemical etchant layer comprises a water-based acrylic adhesive layer containing a microencapsulated etchant. 12. A sensor system comprising: a primary RFID tag and a secondary RFID tag, each RFID tag comprising an antenna and an integrated circuit electrically connected to the antenna; a switch being electrically connected to the antenna of the primary RFID tag and the antenna of the secondary RFID tag and being electrically connected with the primary RFID tag and the secondary RFID tag in a manner that the primary RFID tag and the secondary RFID tag are not activated at the same time; at least two first electrical terminals electrically connecting the primary RFID tag to the switch; at least two second electrical terminals electrically connecting the secondary RFID tag to the switch, wherein the switch comprises a sensor device having a first chamber with a conductive liquid, a second chamber, and a permeable membrane located between the first chamber and the second chamber, and wherein when the sensor device reaches a threshold temperature, the conductive liquid diffuses through the membrane into the second chamber. 13. The sensor system of claim 12 , wherein the at least two first electrical termin