Compact planetary arrangement for final drive

What is claimed is: 1. A drive assembly receiving rotational power from an input shaft rotatable about a rotation axis, the drive assembly comprising: a drive housing; a first stage planetary gear set contained in the drive housing, the first stage planetary gear set including a first stage sun gear configured to couple to the input shaft to turn a plurality of first stage planet gears rotatably mounted to a first stage planet carrier that turns with respect to a first stage ring gear that is fixed with respect to the drive housing; a second stage planetary gear set contained in the drive housing, the second stage planetary gear set including a second stage sun gear turned by the first stage planet carrier to turn a plurality of second stage planet gears rotatably mounted to a second stage planet carrier that is fixed with respect to the drive housing and about which turns a second stage ring gear; and an output hub rotated about the rotation axis with respect to the drive housing by rotation of the second stage ring gear on the second stage planet carrier; wherein the drive housing has an annular outer surface that provides a bearing mount for a bearing mounting the output hub for rotation with respect to the drive assembly; wherein the bearing mount provides a plane of rotation about which the bearing is mounted symmetrically; and wherein the output hub includes a sprocket flange for mounting an output sprocket, the output sprocket being centered on the plane of rotation. 2. The drive assembly of claim 1 , wherein the drive housing is a unitary member providing a rigid support for fixing the angular position of the first stage ring gear and the second stage planet carrier. 3. The drive assembly of claim 2 , wherein the first stage ring gear is formed as a unitary part of an annular cavity of the drive housing concentric about the rotation axis. 4. The drive assembly of claim 2 , wherein the first stage ring gear is a separate component from the drive housing fixedly mounted to an annular cavity of the drive housing. 5. The drive assembly of claim 4 , wherein the annular cavity of the drive housing and the first stage ring gear have complementary recesses defining at least one pocket for receiving at least one rotation fixing pin. 6. The drive assembly of claim 2 , wherein the second stage planet carrier is formed as a unitary part of a second annular cavity of the drive housing concentric about the rotation axis. 7. A drive assembly receiving rotational power from an input shaft rotatable about a rotation axis, the drive assembly comprising: a drive housing; a first stage planetary gear set contained in the drive housing, the first stage planetary gear set including a first stage sun gear configured to couple to the input shaft to turn a plurality of first stage planet gears rotatably mounted to a first stage planet carrier that turns with respect to a first stage ring gear that is fixed with respect to the drive housing; a second stage planetary gear set contained in the drive housing, the second stage planetary gear set including a second stage sun gear turned by the first stage planet carrier to turn a plurality of second stage planet gears rotatably mounted to a second stage planet carrier that is fixed with respect to the drive housing and about which turns a second stage ring gear; an output hub rotated about the rotation axis with respect to the drive housing by rotation of the second stage ring gear on the second stage planet carrier; and a brake assembly configured to couple to the input shaft; wherein the drive housing defines a brake cavity concentric about the rotation axis and opening at a rear side of the drive housing opposite the second stage planet carrier. 8. The drive assembly of claim 7 , wherein the drive housing has an annular outer surface that provides a bearing mount for a bearing mounting the output hub for rotation with respect to the drive assembly. 9. The drive assembly of claim 8 , wherein the bearing mount provides a plane of rotation about which the bearing is mounted symmetrically; and wherein the output hub includes a sprocket flange for mounting an output sprocket, the output sprocket being centered on the plane of rotation. 10. The drive assembly of claim 1 , further including: a motor mount coupled to the drive housing; and a drive motor mounted to the drive housing by the motor mount to drive the input shaft to rotate about the rotation axis. 11. The drive assembly of claim 1 , wherein the second stage ring gear is formed as a unitary part of the output hub. 12. The drive assembly of claim 1 , wherein the second stage ring gear is a separate component from the output hub fixedly mounted to a ring gear mount at an inner annular surface of the output hub. 13. A drive assembly receiving rotational power from an input shaft rotatable about a rotation axis, the drive assembly comprising: a drive housing defining a first annular cavity and a second annular cavity as a unitary part of the drive housing; a first stage planetary gear set contained in the drive housing, the first stage planetary gear set including a first stage sun gear configured to couple to the input shaft to turn a plurality of first stage planet gears rotatably mounted to a first stage planet carrier that turns with respect to a first stage ring gear fixed with respect to the drive housing at the first annular cavity; a second stage planetary gear set contained in the drive housing, the second stage planetary gear set including a second stage sun gear turned by the first stage planet carrier to turn a plurality of second stage planet gears rotatably mounted to the second stage planet carrier fixed with respect to the drive housing at the second annular cavity about which turns a second stage ring gear; and an output hub rotated about the rotation axis with respect to the drive housing by rotation of the second stage ring gear on the second stage planet carrier. 14. The drive assembly of claim 13 , wherein the first stage ring gear is formed as a unitary part of the first annular cavity of the drive housing concentric about the rotation axis; and wherein the second stage ring gear is formed as a unitary part of the output hub. 15. The drive assembly of claim 13 , wherein the first stage ring gear is a separate component from the drive housing fixedly mounted to the first annular cavity of the drive housing; and wherein the second stage ring gear is a separate component from the output hub fixedly mounted to a ring gear mount at an inner annular surface of the output hub. 16. The drive assembly of claim 15 , wherein the first annular cavity of the drive housing and the first stage ring gear have complementary recesses defining at least one pocket for receiving at least one rotation fixing pin. 17. The drive assembly of claim 13 , wherein the second stage planet carrier is formed as a unitary part of the second annular cavity of the drive housing concentric about the rotation axis. 18. The drive assembly of claim 17 , further including a brake assembly configured to couple to the input shaft; and wherein the drive housing defines a brake cavity concentric about the rotation axis and opening at a rear side of the drive housing opposite the second stage planet carrier. 19. The drive assembly of claim 13 , wherein the drive housing has an annular outer surface that provides a bearing mount for a bearing mounting the output hub for rotation with respect to the drive assembly; wherein the bearing mount provides a plane