Brake assembly having a sensor

What is claimed is: 1. A brake assembly comprising: a brake caliper; a tappet that is moveable along an axis with respect to the brake caliper and that is adapted to engage a brake pad assembly; a piston that is rotatable about the axis and is at least partially received in the tappet, wherein the piston and tappet have mating threads; a wear adjuster mechanism that is at least partially received inside the piston, wherein the wear adjuster mechanism includes a shaft that is rotatable about the axis; and a sensor assembly that is received inside the shaft and that provides a signal indicative of rotation of the shaft. 2. The brake assembly of claim 1 wherein the shaft has a shaft cavity extends along the axis from a first end of the shaft to a second end of the shaft and the sensor assembly is received inside the shaft cavity. 3. The brake assembly of claim 2 wherein the sensor assembly includes a sensor housing that is received inside the shaft cavity and that is rotatable about the axis with the shaft. 4. The brake assembly of claim 3 wherein the sensor housing is spaced apart from the shaft. 5. The brake assembly of claim 3 wherein an end cap is fixedly mounted to the piston, and the sensor assembly has a sensor that is received in the sensor housing and a sensor shaft that extends from the sensor housing and that is rotatable with the end cap and the piston, wherein the sensor detects rotation of the sensor shaft about the axis with respect to the sensor housing. 6. The brake assembly of claim 5 wherein the sensor shaft extends along the axis and is spaced apart from the shaft. 7. The brake assembly of claim 5 wherein the end cap has an end cap hole that receives an adapter that couples the sensor shaft to the end cap. 8. The brake assembly of claim 7 wherein the adapter has an adapter opening that receives the sensor shaft. 9. The brake assembly of claim 1 wherein the sensor assembly includes a cable that extends away from the tappet and through a hole in the brake caliper. 10. The brake assembly of claim 9 wherein a plug is received in the hole in the brake caliper and the cable extends through the plug. 11. The brake assembly of claim 9 wherein the sensor assembly includes a sensor that is received in a sensor housing and the cable includes a conductor that is electrically connected to the sensor and a tether that is coupled to the sensor housing. 12. The brake assembly of claim 11 wherein the sensor housing has a first end that faces toward the tappet and a second end that is disposed opposite the first end, wherein the conductor is disposed proximate the second end and the tether is mounted to the sensor housing between the first end and the second end. 13. The brake assembly of claim 1 wherein rotation of the shaft is indicative of rotation of the shaft with respect to the piston. 14. The brake assembly of claim 1 wherein rotation of the shaft is indicative of movement of the tappet and the piston along the axis when the piston does not rotate with respect to the tappet. 15. A brake assembly comprising: a brake caliper; a tappet that is moveable along an axis with respect to the brake caliper and that engages a brake pad assembly; a piston that is moveable along the axis, rotatable about the axis, and is at least partially received in the tappet, wherein the piston and tappet have mating threads; a wear adjuster mechanism that is at least partially received inside the piston, wherein the wear adjuster mechanism has a shaft that defines a shaft cavity and that is rotatable about the axis; a sensor assembly that is received inside the shaft cavity and that provides a signal that is indicative of rotation of the shaft; and a controller that receives the signal and that provides an output based on the signal. 16. The brake assembly of claim 15 wherein the controller determines a cumulative amount of rotation of the shaft about the axis with respect to the piston based on the signal. 17. The brake assembly of claim 15 wherein the controller determines rotation of the shaft about the axis in a first direction based on the signal when the tappet is actuated in a first axial direction to actuate the brake pad assembly into engagement with a brake rotor, and determines rotation of the shaft about the axis in a second direction based on the signal when the tappet is actuated in a second axial direction that is opposite the first axial direction to disengage the brake pad assembly from the brake rotor. 18. The brake assembly of claim 17 wherein the brake pad assembly has properly engaged and disengaged the brake rotor when the rotation of the shaft in the first direction is within a threshold amount of the rotation of the shaft in the second direction. 19. The brake assembly of claim 17 wherein the brake pad assembly has not properly engaged or disengaged the brake rotor when the rotation of the shaft in the first direction is not within a threshold amount of the rotation of the shaft in the second direction. 20. The brake assembly of claim 15 wherein the controller determines that a wear adjuster mechanism instability condition exists based on the signal when braking is not applied and when rotation of the shaft is not within a predetermined range.