Method and apparatus for determining a wheel end condition

We claim: 1. A controller for determining a wheel end condition comprising: a plurality of wheel speed sensor inputs for receiving wheel speed sensor signals from a plurality of associated wheel speed sensors installed at associated wheel ends; an input for receiving an indication of brake actuation; and a processor with control logic, the control logic operative for: receiving a resistance value of an individual wheel speed sensor; determining a speed as a function of an individual wheel speed sensor signal associated with the individual wheel speed sensor; comparing the resistance value of the individual wheel speed sensor to a first high resistance threshold, a second high resistance threshold and a low resistance threshold wherein the second high resistance threshold is increased in response to the indication of brake actuation; and determining a wheel end condition exists at a wheel end associated with the individual wheel speed sensor as a function of one of: the individual wheel speed sensor resistance value being greater than the first high resistance threshold; and the individual wheel speed sensor resistance value being greater than the second high resistance threshold or less than the low resistance threshold and the speed determined from the individual wheel speed sensor signal being less than an ascertained speed. 2. The controller as in claim 1 , wherein the ascertained speed is determined from at least one of any other wheel speed sensor signal and combination of wheel speed sensor signals. 3. The controller as in claim 1 further comprising: a resistance determination circuit communicating with the individual wheel speed sensor and capable of transmitting the resistance value of the individual wheel speed sensor to the control logic. 4. The controller as in claim 1 wherein the control logic is further operative for: determining a low temperature condition at the associated wheel end as a function of the individual wheel speed sensor resistance value being less than the low resistance threshold and the speed determined from the individual wheel speed sensor signal being about three miles an hour to eight miles an hour less than the ascertained speed. 5. The controller as in claim 1 , wherein the control logic is further operative for determining an air gap speed, indicative of a distance of the individual wheel speed sensor from an associated exciter ring. 6. The controller as in claim 5 , further comprising determining a low temperature condition at the wheel end associated with the individual wheel speed sensor as a function of the resistance value being less than the low resistance threshold, the speed being less than the ascertained speed and the air gap speed being less than an air gap speed limit. 7. The controller as in claim 5 , wherein the processor is further operative for determining a high temperature condition at the wheel end associated with the individual wheel speed sensor as a function of the resistance value being greater than a second high temperature threshold, the speed being less than an ascertained speed and the air gap speed being less than a an air gap speed limit, wherein the second high temperature threshold is less than the first high temperature threshold. 8. The controller as in claim 1 , wherein the processor is further operative for receiving an ambient temperature value and determining a nominal resistance of the individual wheel speed sensor at the ambient temperature value. 9. The controller as in claim 8 , wherein the processor is further operative for setting the low resistance threshold at about 20% less than the nominal resistance of the wheel speed sensor at the ambient temperature value. 10. The controller as in claim 9 , wherein the processor is further operative for setting the first high resistance threshold at about 50% greater than the nominal resistance of the wheel speed sensor. 11. The controller as in claim 1 , further comprising an output for actuating an associated driver indicator device for indicating the wheel end condition. 12. A method for determining a wheel end condition comprising: receiving a wheel speed sensor signal; determining a speed at the wheel end as a function of the wheel speed sensor signal; determining a resistance value of the wheel speed sensor; receiving an input indicative of a brake actuation; determining a wheel end condition exists as a function of one of: the resistance value being greater than a first high resistance threshold; and the resistance value being greater than a second high resistance threshold, wherein the second high resistance threshold is increased in response to an indication of brake actuation, or less than a low resistance threshold and the speed being less than an ascertained speed. 13. The method as in claim 12 , wherein the ascertained speed is determined from at least one of any other wheel speed sensor signal and combination of wheel speed sensor signals. 14. The method as in claim 12 , further comprising setting the low resistance threshold at about 20% less than a nominal resistance of the wheel speed sensor. 15. The method as in claim 12 , further comprising determining an air gap speed, indicative of a distance of the wheel speed sensor from an associated exciter ring. 16. The method as in claim 15 , further comprising transmitting a low temperature wheel end condition warning as a function of the resistance value being less than the low resistance threshold, the air gap speed being less than an air gap speed limit and the speed being less than the ascertained speed. 17. The method as in claim 12 , further comprising transmitting a high temperature wheel end condition warning as a function of the resistance being greater than the first high resistance threshold. 18. A system for determining a condition of a wheel end brake comprising: a plurality of wheel speed sensors; a plurality of exciter rings; a controller in communication with the plurality of wheel speed sensors, the controller having control logic operative for receiving wheel speed sensor signals from the plurality of wheel speed sensors; determining speeds of each wheel speed sensor as a function of the wheel speed sensor signals; determining resistance value of each wheel speed sensor; receiving an indication of brake actuation; determining an air gap speed of each wheel speed sensor, indicative of the distance of each wheel speed sensor from each exciter ring; determining a wheel end condition exists at a wheel end associated with an individual wheel speed sensor as a function of one of: the individual wheel speed sensor resistance value being greater than the first high resistance threshold; and the individual wheel speed sensor resistance value being greater than the second high resistance threshold, wherein the second high resistance threshold is increased in response to brake actuation, or less than the low resistance threshold, the speed determined from the individual wheel speed sensor signal being less than an ascertained speed and the air gap speed being less than an air gap speed limit. 19. The system as in claim 18 , wherein the controller is further operative for setting the first high resistance threshold and a second high resistance threshold as a function of the type of wheel end brake. 20. A controller for determining a wheel end condition comprising: a plurality of wheel speed sensor inputs for receiving wheel speed sensor signals from a plurality of associated wheel speed sensors in