Methods for positioning rechargeable tire pressure monitoring sensors

What is claimed is: 1. A method of aligning tire pressure monitoring sensors on a vehicle, the method comprising: positioning front wheels on first and second dynamometers; rotating a first one of the front wheels until a corresponding first one of the tire pressure monitoring sensors is positioned so that a secondary coil of the first one of the tire pressure monitoring sensors is parallel to the ground; rotating a second one of the front wheels until a corresponding second one of the tire pressure monitoring sensors is positioned so that the secondary coil of the second one of the tire pressure monitoring sensors is parallel to the ground; positioning rear wheels on the first and second dynamometers; and aligning, with the first and second dynamometers, the tire pressure monitoring sensors of the rear wheels. 2. The method of claim 1 , including: detecting, with an alignment detector, when the first one of the tire pressure monitoring sensors is positioned so that the secondary coil of the first one of the tire pressure monitoring sensors is parallel to ground; and detecting, with the alignment detector, when the second one of the tire pressure monitoring sensors is positioned so that the secondary coil of the second one of the tire pressure monitoring sensors is parallel to the ground. 3. The method of claim 2 , wherein detecting the first and second ones of the tire pressure monitoring sensors includes detecting when the secondary coil of the corresponding one of the tire pressure monitoring sensors is inductively coupled with a primary coil of the alignment detector. 4. The method of claim 2 , wherein detecting the first and second ones of the tire pressure monitoring sensors includes detecting messages from the corresponding one of the tire pressure monitoring sensors with a transceiver of the alignment detector. 5. The method of claim 1 , wherein aligning the tire pressure monitoring sensors of the rear wheels includes: rotating a first one of the rear wheels until a corresponding third one of the tire pressure monitoring sensors is positioned so that a secondary coil of the third one of the tire pressure monitoring sensors is parallel to the ground; and rotating a second one of the rear wheels until a corresponding fourth one of the tire pressure monitoring sensors is positioned so that the secondary coil of the fourth one of the tire pressure monitoring sensors is parallel to the ground. 6. A method comprising: positioning front wheels of a vehicle on first and second dynamometers; positioning rear wheels of the vehicle on third and fourth dynamometers; independently rotating the first and second dynamometers to position front tire pressure monitoring system sensors of the front wheels; determining an alignment position for rear tire pressure monitoring system sensors; independently rotating the second and third dynamometers to position the rear tire pressure monitoring system sensors of the rear wheels so that secondary coils of the rear tire pressure monitoring system sensors are parallel to the ground; and subsequently independently rotating the third and fourth dynamometers to position the rear wheels into the alignment position. 7. The method of claim 6 , wherein independently rotating the first and second dynamometers to position first tire pressure monitoring system sensors of the front wheels includes: rotating a first one of the front wheels with the first dynamometer until a corresponding first one of the tire pressure monitoring system sensors is positioned so that a secondary coil of the first one of the tire pressure monitoring sensors is parallel to the ground; and rotating a second one of the front wheels with the second dynamometer until a corresponding second one of the tire pressure monitoring system sensors is positioned so that the secondary coil of the second one of the tire pressure monitoring sensors is parallel to the ground. 8. The method of claim 6 , including detecting when the secondary coil of the corresponding one of the front tire pressure monitoring system sensors is inductively coupled with a primary coil of the alignment detector. 9. The method of claim 6 , including detecting the front tire pressure monitoring system sensors with a transceiver of alignment detectors positioned proximate the front wheels. 10. The method of claim 6 , wherein the alignment position is based on a distance between a first center of the front tires and a second center of the rear tires, and a circumference of the rear tires. 11. A system comprising: a first set of dynamometers configured to receive a first set of wheels; a second set of dynamometers configured to receive a second set of wheels, a plurality of alignment detectors; and a wheel aligner communicatively coupled to the first and second sets of dynamometers and the plurality of alignment detectors, the wheel aligner configured to: independently rotate the first set of dynamometers to align a first set of tire pressure monitoring system sensors corresponding to the first set of wheels; determine an alignment position for a second set of tire pressure monitoring system sensors corresponding to the second set of wheels; independently rotate the second set of wheels to position the second set of tire pressure monitoring system sensors of the rear wheels so that secondary coils of second set of tire pressure monitoring system sensors are parallel to the ground; and subsequently independently rotate the second set of dynamometers to position the second set of wheels into the alignment position. 12. The system of claim 11 , wherein one of the plurality of alignment detectors is proximate each dynamometer in the first and second sets of dynamometers. 13. The system of claim 11 , wherein the plurality of alignment detectors are configured to detect when a corresponding one of the corresponding tire pressure monitoring system sensors is positioned at a bottom of a corresponding one of wheel rims of one of the sets of wheels. 14. The system of claim 11 , wherein the plurality of alignment detectors each include a primary coil to detect when a secondary coil of a corresponding one of the tire pressure monitoring system sensors is inductively coupled with the primary coil of the alignment detector. 15. The system of claim 11 , wherein the plurality of alignment detectors each include a transceiver to detect messages from a corresponding of the tire pressure monitoring system sensors. 16. A method comprising: for front wheels of the vehicle: (a) positioning left and right wheels on first and second dynamometers respectively; (b) independently rotating the left wheel until a secondary coil of a left tire pressure sensor is parallel to the ground; (c) independently rotating the right wheel until a secondary coil of a right tire pressure sensor is parallel to the ground; and repeating steps (a)-(c) for rear wheels.