Differential assembly and speed sensor mounting arrangement therefor

The invention claimed is: 1. A differential assembly for a vehicle, comprising: a drive train for transferring motive power from an engine drive member to the right and left drive shafts which are coupled, respectively, to right and left ground engaging members of the vehicle, the drive train including a rotating element nonrotatably mounted to an internal differential housing and operatively engaged to the drive member and to the right and left drive shafts; a first speed sensor arranged to measure rotational speed of (i) the rotating element or (ii) the left drive shaft; a second speed sensor arranged to measure rotational speed of the right drive shaft when the first speed sensor is arranged to measure rotational speed of the left drive shaft; a separate right pulsar ring nonrotatably mounted to an axial landing of a radially inward step portion defined on an end portion the right drive shaft distal from the right ground engaging member for corotation therewith, the right pulsar ring positioned between a radial wall of the step portion and the internal differential housing with a splined portion of the end portion received in the differential housing, the right pulsar ring axially aligned with the second speed sensor for cooperating therewith in measuring rotational speed of the right drive shaft. 2. The differential assembly of claim 1 wherein the first speed sensor is arranged to measure rotational speed of the left drive shaft. 3. The differential assembly of claim 1 further including a separate left pulsar ring nonrotatably mounted to the left drive shaft for corotation therewith, the left pulsar ring axially aligned with the first speed sensor for cooperating therewith in measuring rotational speed of the left drive shaft. 4. The differential assembly of claim 3 wherein the left pulsar ring is nonrotatably connected directly to the left drive shaft. 5. The differential assembly of claim 1 wherein the right pulsar ring is nonrotatably connected directly to the right drive shaft. 6. The differential assembly of claim 1 further including a casing in which the rotating element is accommodated, each of the first and second speed sensors being directly mounted to the casing. 7. The differential assembly of claim 1 wherein the drive train includes a pinion gear rotatably driven by the engine, a ring gear meshingly coupled to the pinion gear and nonrotatably mounted to the internal differential housing, cam followers meshingly coupled to the internal differential housing and face cams meshingly coupled to the cam followers, wherein the right and left drive shafts are nonrotatably coupled, respectively, to the face cams, and wherein the first speed sensor arranged to measure rotational speed of (i) the ring gear or (ii) one of the right and left drive shafts. 8. The differential assembly of claim 7 wherein the internal differential housing accommodates the cam followers and at least toothed portions of the face cams. 9. The differential assembly of claim 7 further including a left pulsar ring nonrotatably mounted to the left drive shaft for corotation therewith, the left pulsar ring axially aligned with the first speed sensor for cooperating therewith in measuring rotational speed of the left drive shaft, wherein the left pulsar ring is nonrotatably connected directly to the face cam that is nonrotatably connected to the left drive shaft. 10. The differential assembly of claim 7 wherein the right pulsar ring is nonrotatably connected directly to the face cam that is nonrotatably connected to the right drive shaft. 11. The differential assembly of claim 1 wherein each of the first and second speed sensors are operatively connected to a braking traction control system. 12. A vehicle, comprising: right and left driven ground engaging members; an engine for providing motive power for driving the right and left driven ground engaging members; a drive member rotatably driven by the engine; right and left drive shafts coupled, respectively, to the right and left driven ground engaging members; a differential operatively connected to the drive member and to right and left drive shafts for proportioning the motive power from the engine between the right and left driven ground engaging members, the differential including a ring gear operatively engaged to the drive member and a differential housing integrally formed or nonrotatably mounted to the ring gear; a first speed sensor arranged to measure rotational speed of the left drive shaft; and a second speed sensor arranged to measure rotational speed of the right drive shaft, wherein the differential includes a casing in which each of the ring gear and differential housing is housed, a separate left pulsar ring nonrotatably coupled to a radially inward step portion defined in an end portion the left drive shaft distal from the left driven ground engaging member, and a separate right pulsar ring nonrotatably coupled to a radially inward step portion defined in an end portion of the right drive shaft distal from the right driven ground engaging member, wherein each of the left pulsar ring and right pulsar ring are positioned in a space defined by the casing, each respective step portion of the left drive shaft and right drive shaft and the differential housing, wherein a distal end portion of the drive member faces the step portion of one of the left drive shaft and right drive shaft. 13. The vehicle of claim 12 wherein at least one of the first and second speed sensors is directly mounted to the casing. 14. The vehicle of claim 13 wherein both the first and second speed sensors are directly mounted to the casing, the first speed sensor mounted to the casing at a location adjacent the left drive shaft and the second speed sensor mounted to the casing at a location adjacent the right drive shaft. 15. The vehicle of claim 13 wherein each of the left pulsar ring and right pulsar ring is housed in the casing. 16. The vehicle of claim 12 , wherein the differential includes a pinion gear arranged for toothed engagement the ring gear, cam followers arranged for toothed engagement with the differential housing and right and left face cams arranged for toothed engagement with the cam followers, the cam followers and toothed portions of the face cams housed in the differential housing, the right face cam nonrotatably coupled to the right drive shaft and the left face cam nonrotatably coupled to the left drive shaft. 17. The vehicle of claim 16 wherein the left pulsar ring is mounted directly to one of the left drive shaft and the left face cam, and the right pulsar ring is mounted directly to one of the right drive shaft and right face cam. 18. The vehicle of claim 16 wherein the left pulsar ring is mounted directly to a portion of the left face cam and the right pulsar ring is mounted directly to a portion of the right face cam, and further including a casing in which the differential housing is rotatably received wherein each of the left face cam portion and the right face cam portion is housed within the casing and extends axially outward of the differential housing.