Tire mounted sensors with controlled orientation and removal detection

What is claimed is: 1. A tire mounted sensor comprising: a mounting base comprising a top surface and a bottom surface, the bottom surface configured to be mounted to a tire of a vehicle, the top surface including an orientation key defining an asymmetrical opening in the top surface; and a housing for holding parameter sensing components, the housing being removeably insertable into the asymmetrical opening of the mounting base, the housing including a boss corresponding to a shape of the asymmetrical opening of the mounting base such that, when the housing is inserted into the mounting base, the housing is fixed in a preselected position. 2. The tire mounted sensor of claim 1 , wherein the mounting base includes a first radio-frequency identification (RFID) component that interacts with a second RFID component in the housing. 3. The tire mounted sensor of claim 2 , wherein the first RFID component of the mounting base is in a vertical protrusion defined by a sidewall of the mounting base. 4. The tire mounted sensor of claim 2 , wherein the first RFID component of the mounting base is in a horizontal protrusion located on the orientation key of the mounting base. 5. The tire mounted sensor of claim 4 , wherein the first and second RFID components are aligned on center when the housing is inserted into the mounting base. 6. The tire mounted sensor of claim 1 , wherein orientation key includes at least one slit to allow flexing of the orientation key to facilitate insertion of the housing. 7. The tire mounted sensor of claim 1 , wherein the preselected position is selected from all six axes of freedom. 8. A tire mounted sensor comprising: a mounting base comprising a top surface and a bottom surface, the bottom surface configured to be mounted to a tire of a vehicle, the top surface including an orientation key defining an asymmetrical opening in the top surface; and a sensor housing including a first RFID component having a resonant circuit having a Q factor that varies based upon proximity to a second RFID component having a detectable element within the mounting base, the sensor housing being removably insertable into the mounting base; wherein the resonant circuit is configured to periodically measure the Q factor to determine whether the sensor housing is inserted into the mounting base; and wherein the housing has a boss in a complimentary shape for selective insertion into the asymmetrical opening of the mounting base such that, when the housing is inserted into the mounting base, the housing is fixed in a preselected position relative to the mounting base. 9. The tire mounted sensor of claim 8 , wherein the detectable element is selected from the group consisting of a metallic element, a magnet, a resonant circuit and a radioactive element. 10. A method for detection of removal of a sensor housing from a sensor mount of a tire mounted sensor comprising the steps of: with a sensor housing inserted into a sensor mount of a tire mounted sensor, applying a signal frequency to a resonant circuit in the sensor housing and measuring a baseline average peak value detected on the resonant circuit; periodically applying the signal frequency to the resonant circuit and measuring a test average peak value detected on the resonant circuit, the baseline average peak value and the test average peak value varying with proximity of the resonant circuit to the sensor mount; comparing the test average peak value and the baseline average peak value to determine whether the test average peak value deviates sufficiently from the baseline average peak value; and if the test average peak value deviates sufficiently from the baseline average peak value, performing a corrective action based on the sensor housing being removed from the sensor mount. 11. The method of claim 10 , wherein the corrective action is selected from the group consisting of: erasing a Tire ID stored for the respective sensor housing to generate a fault; indicating, during periodic RF transmissions, that the Tire ID is invalid; and combinations thereof. 12. The method of claim 10 , wherein the sensor mount includes a detectable element for enhancing a response of the resonant circuit to the signal. 13. The method of claim 12 , wherein the detectable element is an RFID chip. 14. The method of claim 12 , wherein the detectable element is selected from the group consisting of a metallic element, a magnet, a resonant circuit and a radioactive element. 15. The method of claim 10 , wherein the resonant circuit includes an ASIC for applying the signal and an inductor with a variable Q factor for providing a test point to acquire the baseline and test average peak values.