Axle assembly having an internal lubricant passage

What is claimed is: 1. An axle assembly comprising: an axle housing that receives a differential assembly and that at least partially defines a sump portion that receives lubricant; a differential carrier that is mounted to the axle housing and supports the differential assembly; an electric motor module that includes: a motor housing that is mounted to the differential carrier, wherein the motor housing receives a stator and receives a rotor that is rotatable about an axis; a cover that is mounted to the motor housing opposite the differential carrier, wherein the differential carrier, the motor housing, and the cover cooperate to at least partially define a first lubricant passage that receives lubricant from the axle housing and routes lubricant to the cover, wherein a portion of the first lubricant passage that is defined by the motor housing is radially positioned further from the axis than the stator; and a coolant jacket that is received in the motor housing and extends from the motor housing to the stator, wherein the portion of the first lubricant passage that is defined by the motor housing is disposed between the coolant jacket and an exterior side of the motor housing that faces away from the axis. 2. The axle assembly of claim 1 wherein the first lubricant passage is completely disposed above the axis. 3. The axle assembly of claim 1 wherein the differential carrier defines an inlet of the first lubricant passage and the cover defines an outlet of the first lubricant passage, wherein the inlet is disposed further above the axis than the outlet. 4. The axle assembly of claim 3 wherein the first lubricant passage slopes downward from the inlet toward the outlet. 5. The axle assembly of claim 1 wherein the first lubricant passage is at least partially defined by through holes in the differential carrier, the motor housing, and the cover. 6. The axle assembly of claim 1 wherein the portion of the first lubricant passage that is defined by the motor housing has an inlet port that has an upper end and a lower end disposed opposite the upper end, and a portion of the first lubricant passage that is defined by the differential carrier has an outlet port that is disposed adjacent to the inlet port, wherein the upper end is disposed above and is spaced apart from the outlet port. 7. An axle assembly comprising: an axle housing that receives a differential assembly and that at least partially defines a sump portion that receives lubricant, a differential carrier that is mounted to the axle housing and supports the differential assembly: an electric motor module that includes: a motor housing that is mounted to the differential carrier, wherein the motor housing receives a stator and receives a rotor that is rotatable about an axis; and a cover that is mounted to the motor housing opposite the differential carrier, wherein the differential carrier, the motor housing, and the cover cooperate to at least partially define a first lubricant passage that receives lubricant from the axle housing and routes lubricant to the cover, wherein a portion of the first lubricant passage that is defined by the motor housing is radially positioned further from the axis than the stator and has an inlet port that has an upper end and a lower end disposed opposite the upper end, and a portion of the first lubricant passage that is defined by the differential carrier has an outlet port that is disposed adjacent to the inlet port, wherein the lower end is disposed below and is spaced apart from the outlet port. 8. An axle assembly comprising: an axle housing that receives a differential assembly and that at least partially defines a sump portion that receives lubricant; a differential carrier that is mounted to the axle housing and supports the differential assembly; an electric motor module that includes: a motor housing that is mounted to the differential carder, wherein the motor housing receives a stator and receives a rotor that is rotatable about an axis; and a cover that is mounted to the motor housing opposite the differential carrier, wherein the differential carrier the motor housimr and the cover c to at least partially define a first lubricant passage that receives lubricant from the axle housing and routes lubricant to the cover, wherein a portion of the first lubricant passage that is defined by the motor housing is radially positioned further from the axis than the stator, and the differential carrier, the motor housing, and the cover cooperate to at least partially define a second lubricant passage that returns lubricant to the axle housing, wherein a portion of the second lubricant passage that is defined by the motor housing is radially positioned further from the axis than the stator. 9. The axle assembly of claim 8 wherein the second lubricant passage is completely disposed below the axis. 10. The axle assembly of claim 8 wherein the first lubricant passage and the second lubricant passage are disposed on opposite sides of a center plane that extends vertically through the axis, the axis being completely disposed in the center plane. 11. The axle assembly of claim 8 wherein the cover defines a first inlet of the second lubricant passage and the differential carrier at least partially defines an outlet of the second lubricant passage, wherein the first inlet is disposed further above the axis than the outlet. 12. The axle assembly of claim 11 wherein the second lubricant passage slopes downward from the first inlet toward the outlet. 13. The axle assembly of claim 11 wherein the cover defines a second inlet of the second lubricant passage that extends from a side of the cover that is disposed opposite the motor housing. 14. The axle assembly of claim 13 wherein the first inlet is disposed closer to the axis and the motor housing than the second inlet and the first inlet is disposed above the second inlet. 15. The axle assembly of claim 8 wherein the electric motor module includes a coolant jacket that is received in the motor housing and extends from the motor housing to the stator, wherein the portion of the second lubricant passage that is defined by the motor housing is disposed between the coolant jacket and an exterior side of the motor housing that faces away from the axis. 16. The axle assembly of claim 15 wherein the coolant jacket has a channel that receives a coolant and heat is transferred between the coolant and lubricant in the second lubricant passage. 17. The axle assembly of claim 8 wherein the portion of the second lubricant passage that is defined by the motor housing has an outlet port that has an upper end and a lower end disposed opposite the upper end, and a portion of the second lubricant passage that is defined by the differential carrier has an inlet port that is disposed adjacent to the outlet port of the motor housing, wherein the upper end is disposed above and is spaced apart from the inlet port of the differential carrier. 18. The axle assembly of claim 8 wherein the portion of the second lubricant passage that is defined by the motor housing has an outlet port that has an upper end and a lower end disposed opposite the upper end, and a portion of the second lubricant passage that is defined by the differential carrier has an inlet port that is disposed adjacent to the outlet port of the motor housing, wherein the lower end is disposed below and is spaced apart from the inlet port of the differential carrier. 19. The axle assembly of claim 8 wherein the electric motor module includes a