RFID switch tag

What is claimed is: 1. A radio frequency identification (RFID) apparatus, comprising: a housing adaptable for installation on a windshield; a first booster antenna; a first RF module contained within the housing and configured to communicate with a reader included in a first RFID service; a switching mechanism contained within the housing and configured to change an operational state of the first RF module by changing a position of the first RF module relative to the first booster antenna; and an indicator contained within the housing and configured to indicate a status of the RFID apparatus. 2. The RFID apparatus of claim 1 , wherein the status of the RFID apparatus is determined based at least in part on an operational state of the first RF module, and wherein the indicator is adapted to display a first color if the first RF module is in a first operational state and to display a second color if the first RF module is in a second operational state. 3. The RFID apparatus of claim 1 , wherein the first RFID service comprises a tolling system. 4. The RFID apparatus of claim 1 , wherein the first booster antenna is adapted to extend an operational range of the first RF module. 5. The RFID apparatus of claim 4 , wherein the first booster antenna comprises a conductive trace pattern disposed upon a substrate. 6. The RFID apparatus of claim 4 , wherein the first RF module comprises an integrated circuit and one or more conductive traces, wherein at least one of the one or more conductive traces comprising the first RF module is adapted to electrically couple to a coupling region in the first booster antenna when the first RF module is located in a first position relative to the first booster antenna. 7. The RFID apparatus of claim 6 , wherein the integrated circuit comprising the first RF module is adapted to ohmically connect to the one or more conductive traces comprising the first RF module. 8. The RFID apparatus of claim 6 , wherein the integrated circuit comprising the first RF module is substantially coplanar with the one or more conductive traces comprising the first RF module. 9. The RFID apparatus of claim 6 , wherein the at least one of the one or more conductive traces is adapted to capacitively couple to the coupling region of the first booster antenna when the first RF module is located in the first position relative to the first booster antenna. 10. The RFID apparatus of claim 6 , wherein the at least one conductive trace is adapted to inductively couple to the coupling region of the first booster antenna when the first RF module is located in the first position relative to the first booster antenna. 11. The RFID apparatus of claim 1 , further comprising a second RF module contained within the housing and configured to communicate with a reader included in a second RFID service. 12. The RFID apparatus of claim 11 , further comprising a second booster antenna adapted to extend an operational range of the second RF module. 13. The RFID apparatus of claim 12 , wherein the switching mechanism contained within the housing is further configured to change an operational state of the second RF module by changing a position of the second RF module relative to the second booster antenna. 14. The RFID apparatus of claim 13 , wherein the second RF module comprises an integrated circuit and one or more conductive traces, and wherein at least one of the one or more conductive traces comprising the second RF module is adapted to electrically couple to a coupling region in the second booster antenna when the second RF module is located in a first position relative to the second booster antenna. 15. The RFID apparatus of claim 11 , wherein the switching mechanism contained within the housing is further configured to change an operational state of the second RF module by changing a position of the second RF module relative to the first booster antenna. 16. The RFID apparatus of claim 15 , wherein the second RF module comprises an integrated circuit and one or more conductive traces, wherein at least one of the one or more conductive traces comprising the second RF module is adapted to electrically couple to the coupling region in the first booster antenna when the second RF module is located in the first position relative to the first booster antenna. 17. The RFID apparatus of claim 16 , wherein the first RF module is shielded when the second RF module is located in the first position relative to the first booster antenna, and wherein the second RF module is shielded when the first RF module is located in the first position relative to the first booster antenna. 18. The RFID apparatus of claim 1 , further comprising a second booster antenna adapted to extend an operational range of the first RF module. 19. The RFID apparatus of claim 18 , wherein the switching mechanism contained within the housing is further configured to change an operational state of the first RF module by changing a position of the first RF module relative to the second booster antenna. 20. The RFID apparatus of claim 19 , wherein at least one of the one or more conductive traces comprising the first RF module is adapted to electrically couple to a coupling region in the second booster antenna when the first RF module is located in a second position relative to the second booster antenna.