Axle assembly having counterphase planet gears

What is claimed is: 1. An axle assembly comprising: a planetary gear set that includes: a sun gear that is rotatable about an axis; a planetary ring gear; a first set of planet gears that meshes with the sun gear and the planetary ring gear; a second set of planet gears that meshes with the sun gear and the planetary ring gear, wherein the second set of planet gears is spaced apart from and does not mesh with the first set of planet gears and the second set of planet gears is positioned in counterphase with the first set of planet gears; and a planet gear carrier that rotatably supports the first set of planet gears and the second set of planet gears, wherein the first set of planet gears is arranged around the axis in a repeating relationship such that each member of the first set of planet gears is positioned between two members of the second set of planet gears, and each member of the first set of planet gears that is positioned between two members of the second set of planet gears is positioned closer to one member of the second set of planet gears than all other members of the second set of planet gears. 2. The axle assembly of claim 1 wherein the first set of planet gears has n members and the second set of planet gears has n members, wherein n is an integer greater than one. 3. The axle assembly of claim 1 wherein members of the first set of planet gears are equidistantly spaced around the axis with respect to each other. 4. The axle assembly of claim 1 wherein members of the second set of planet gears are equidistantly spaced around the axis with respect to each other. 5. The axle assembly of claim 1 wherein the planetary ring gear has a set of planetary ring gear teeth and members of the set of planetary ring gear teeth are received between and centered between two adjacent teeth of each member of the first set of planet gears when a tooth of each member of the second set of planet gears is received between and centered between two adjacent teeth of the set of planetary ring gear teeth. 6. The axle assembly of claim 5 wherein each member of the first set of planet gears is rotatable about a first planet gear axis, and each planetary ring gear tooth that is received between and centered between two adjacent teeth of the members of the first set of planet gears is positioned along a radial line that extends through the axis and through the first planet gear axis about which each member of the first set of planet gears rotates. 7. The axle assembly of claim 6 wherein each member of the second set of planet gears is rotatable about a second planet gear axis, and the tooth of each member of the second set of planet gears that is received between and centered between the two adjacent teeth of the set of planetary ring gear teeth is positioned along a radial line that extends through the axis and through the second planet gear axis about which the member of the second set of planet gears rotates. 8. The axle assembly of claim 6 wherein each member of the first set of planet gears is rotatably disposed on a member of a set of planet pins that extends from the planet gear carrier and that does not deflect with respect to a corresponding first planet gear axis. 9. The axle assembly of claim 8 wherein each member of the second set of planet gears is rotatably disposed on a member of the set of planet pins that extends from the planet gear carrier and that does not deflect with respect to a corresponding second planet gear axis. 10. An axle assembly comprising: a planetary gear set that includes: a sun gear that is rotatable about an axis and is operatively connected to an electric motor module; a planetary ring gear that is stationary with respect to the axis and that has a plurality of grooves located along an outside circumferential surface that faces away from the axis, wherein a plurality of pins are received in the plurality of grooves to inhibit rotation of the planetary ring gear; a first set of planet gears that meshes with the sun gear and the planetary ring gear; a second set of planet gears that meshes with the sun gear and the planetary ring gear, wherein the second set of planet gears is spaced apart from and does not mesh with the first set of planet gears and the second set of planet gears is positioned in counterphase with the first set of planet gears such that each member of the second set of planet gears has a tooth that is received between and is centered between two adjacent teeth of the planetary ring gear when a planetary ring gear tooth is received between and is centered between two adjacent teeth of each member of the first set of planet gears; and a planet gear carrier that has a first flange and a second flange, wherein the first set of planet gears and the second set of planet gears are disposed between the first flange and the second flange and are rotatably supported by planet pins that extend from the first flange to the second flange and rotatably support the first set of planet gears and the second set of planet gears. 11. The axle assembly of claim 10 wherein a first roller bearing assembly, a second roller bearing assembly, and a spacer are received inside each member of the first set of planet gears and each member of the second set of planet gears such that the spacer is axially positioned between the first roller bearing assembly and the second roller bearing assembly. 12. The axle assembly of claim 11 wherein each first roller bearing assembly, second roller bearing assembly, and spacer receives a corresponding planet pin. 13. The axle assembly of claim 12 further comprising a set of first washers through which the planet pins extend, wherein each member of the set of first washers extends from the first flange of the planet gear carrier to the first roller bearing assembly. 14. The axle assembly of claim 13 further comprising a set of second washers through which the planet pins extend, wherein each member of the set of second washers extends from the second flange of the planet gear carrier to the second roller bearing assembly. 15. The axle assembly of claim 14 further comprising a set of securing pins, wherein a member of the set of securing pins extends through each planet pin and through the first flange to secure each planet pin to the planet gear carrier. 16. The axle assembly of claim 14 wherein a set of lubricant holes extends through the second flange of the planet gear carrier and wherein each planet pin has an axial bore, a first lubricant passage that extends from the axial bore to the spacer, a second lubricant passage that extends from the axial bore to a member of the set of lubricant holes. 17. The axle assembly of claim 16 further comprising a set of plugs, wherein a member of the set of plugs is disposed in the axial bore of each planet pin adjacent to the second lubricant passage. 18. The axle assembly of claim 10 further comprising a shift mechanism housing that is mounted on the electric motor module and receives the planetary ring gear, wherein the plurality of pins inhibit rotation of the planetary ring gear with respect to the shift mechanism housing. 19. The axle assembly of claim 10 wherein the plurality of grooves are spaced apart from each other. 20. The axle assembly of claim 10 wherein the plurality of grooves partially receive the plurality of pins.