TPMS sensor autolocation through low frequency programming

Having thus described the preferred embodiments, the invention is now claimed to be: 1. A system that facilitates automatically identifying the location of each of a plurality of tire pressure sensor on a multi-axle vehicle, comprising: a plurality of low-frequency initiator coils, each having at least one directional antenna; a plurality of tire pressure sensors, each positioned on a respective wheel of the vehicle; wherein each antenna emits a signal that is modulated at a different frequency relative to other antennas; and wherein each sensor detects a modulation frequency received, determines an axle and wheel end at which it is located as function of the detected modulation frequency, and reports its axle and wheel end to a controller unit. 2. The system according to claim 1 , wherein each coil has a pair of antennas arranged such that the signals emitted by each antenna are orthogonal to each other. 3. The system according to claim 1 , wherein each initiator coil is associated with a single side of the multi-axle vehicle such that frequencies emitted by a given initiator coil indicate the side of the vehicle associated with the initiator coil. 4. The system according to claim 3 , wherein the frequencies emitted from the pair of antennas of a given initiator coil are directed toward different axles of the multi-axle vehicle. 5. The system according to claim 2 , wherein the frequencies emitted from the pair of antennas of a given initiator coil are directed toward different axles of the multi-axle vehicle. 6. The system according to claim 1 , wherein the multi-axle vehicle comprises N axles, where N is an integer, and wherein the system comprises N initiator coils. 7. The system according to claim 6 , wherein the signals transmitted by each antenna pair have a frequency that is modulated within a range of 1 Hz to 20 Hz. 8. The system according to claim 1 , wherein the sensor also transmits tire pressure information for a tire monitored by the sensor when reporting its axle and wheel end to the controller. 9. The system according to claim 1 , wherein the sensor transmits tire pressure information for a tire monitored by the sensor and reports its axle and wheel end to the controller in separate data transmissions. 10. A tire pressure sensor that automatically detects and reports its location to a controller, comprising: a receiver that receives a modulated frequency signal from a signal source; a processor configured to determine a modulation frequency used to modulate the frequency signal, and further configured to determine location information describing an axle and wheel end at which the sensor is located as a function of the determined modulation frequency; and a tire pressure monitor module that monitors air pressure in a tire associated with the sensor; wherein the processor is further configured to generate a tire pressure status message comprising tire pressure status information and the location information for transmission to a control unit. 11. The sensor according to claim 10 , wherein the modulation frequency is in the range of 1 Hz to 20 Hz. 12. The sensor according to claim 10 , wherein the modulated signal is a low-frequency initiator coil signal. 13. The sensor according to claim 10 , wherein the modulated signal is at least one of an ultrasonic signal, a magnetic induction signal, a radio frequency signal and a low frequency signal. 14. The sensor according claim 10 , further comprising an accelerometer, and wherein the processor is further configured to receive from the accelerometer information describing a direction of rotation of a wheel associated with the sensor relative to an outer face of the wheel, to determine whether the wheel is an inner wheel or an outer wheel of the wheel end at which the wheel is located, and to incorporate an indication of whether the wheel is an inner wheel or an outer wheel into the tire pressure status message. 15. A system that facilitates automatically identifying the location of each of a plurality of tire pressure sensor on a multi-axle vehicle, comprising: a plurality of low-frequency initiator coils, each having at least one directional antenna; a plurality of tire pressure sensors, each positioned on a respective wheel of the vehicle; wherein each antenna emits a signal that is modulated at a different frequency relative to other antennas; and wherein each sensor detects a modulation frequency received and reports the received modulation signal to a controller; and wherein the controller receives the reported modulation frequency and determines an axle and wheel end at which the sensor is located as function of the reported modulation frequency. 16. The system according to claim 15 , wherein the controller receives the reported modulated frequency along with tire pressure information for a tire monitored by the sensor in a single data transmission. 17. The system according to claim 15 , wherein the controller receives the reported modulated frequency and tire pressure information for a tire monitored by the sensor in separate data transmissions. 18. A method of automatically detecting and reporting a tire pressure sensor location to a controller, comprising: receiving a modulated frequency signal from a signal source; determining a modulation frequency used to modulate the received frequency signal; determining location information describing an axle and wheel end at which the sensor is located as a function of the determined modulation frequency; monitoring air pressure in a tire associated with the sensor; and generating a tire pressure status message comprising tire pressure status information and the location information for transmission to a control unit. 19. The method according to claim 18 , wherein the modulation frequency is in the range of 1 Hz to 20 Hz. 20. The method according to claim 18 , wherein the modulated signal is a low-frequency initiator coil signal. 21. The method according to claim 18 , wherein the modulated signal is an ultrasonic signal. 22. The method according to claim 18 , wherein the modulated signal is radio frequency (RF) signal. 23. The method according claim 18 , further receiving from an accelerometer information describing a direction of rotation of a wheel associated with the sensor relative to an outer face of the wheel, determining whether the wheel is an inner wheel or an outer wheel of the wheel end at which the wheel is located, and incorporating an indication of whether the wheel is an inner wheel or an outer wheel into the tire pressure status message. 24. An apparatus that facilitates automatically detecting and reporting a tire pressure sensor location to a controller, comprising: receiving means for receiving a modulated frequency signal from a signal source; monitoring means for monitoring air pressure in a tire associated with the sensor; processing means for: determining a modulation frequency used to modulate the received frequency signal; determining location information describing an axle and wheel end at which the sensor is located as a function of the determined modulation frequency; and generating a tire pressure status message comprising tire pressure status information and the location information for transmission to a control unit.