Axle assembly for hybrid electric vehicle

What is claimed is: 1. A hybrid electric vehicle axle comprising: a beveled ring gear configured to drive left and right axle shafts via a differential; a first beveled pinion gear in engagement with the ring gear and adapted to receive power from an internal combustion powertrain; and a second beveled pinion gear supported for rotation about an axis perpendicular to a ring gear axis, in engagement with the ring gear, and adapted to receive power from an electric motor. 2. The hybrid electric vehicle axle of claim 1 further comprising: a gearbox configured to transmit power from the electric motor to the second beveled pinion gear alternately via two power flow paths, the two power flow paths establishing two distinct speed ratios of an electric motor speed and a second pinion speed. 3. The hybrid electric vehicle axle of claim 2 wherein the gearbox comprises: a motor shaft fixedly coupled to a rotor of the electric motor; first and second layshaft gears coupled to a motor shaft; a layshaft fixedly coupled to the second beveled pinion gear; and third and fourth layshaft gears coupled to the layshaft, the third layshaft gear in continuous meshing engagement with the first layshaft gear and the fourth layshaft gear in continuous meshing engagement with the second layshaft gear. 4. The hybrid electric vehicle axle of claim 3 wherein: the first and second layshaft gears are alternately selectively coupled to the motor shaft by a coupler; and the third and fourth layshaft gears are fixedly coupled to the layshaft. 5. The hybrid electric vehicle axle of claim 4 wherein the coupler is a synchronizer. 6. The hybrid electric vehicle axle of claim 2 wherein the gearbox comprises: a motor shaft fixedly coupled to a rotor of the electric motor; gearing establishing a fixed linear speed relationship among the motor shaft, the second beveled pinion gear, a first rotating element, and a second rotating element; and a braking element configured to alternately selectively hold the first rotating element and the second rotating element against rotation. 7. The hybrid electric vehicle axle of claim 6 wherein the gearing establishing the fixed linear speed relationship comprises: a first sun gear fixedly coupled to the motor shaft; a ring gear fixedly coupled to the second beveled pinion gear; a carrier as the first rotating element; a second sun gear as the second rotating element; a plurality of long planet gears supported for rotation with respect to the carrier, each long planet gear in continuous meshing engagement with both the ring gear and the second sun gear; and a plurality of short planet gears supported for rotation with respect to the carrier, each short planet gear in continuous meshing engagement with both the first sun gear and one of the long planet gears. 8. The hybrid electric vehicle axle of claim 1 wherein: the first beveled pinion gear is supported for rotation about a first pinion axis offset from a ring gear axis by a first offset distance; and the ring gear and first beveled pinion gear utilize hypoid gear geometry. 9. The hybrid electric vehicle axle of claim 8 wherein: the second beveled pinion gear is supported for rotation about a second pinion axis offset from the ring gear axis by a second offset distance; and the second beveled pinion gear utilizes hypoid gear geometry. 10. The hybrid electric vehicle axle of claim 9 wherein the first offset distance is equal to the second offset distance. 11. The hybrid electric vehicle axle of claim 10 wherein the hypoid gear geometry of the first pinion and the hypoid gear geometry of the second pinion are substantially the same. 12. A hybrid electric vehicle comprising: a differential including a ring gear; first and second pinion gears each in engagement with the ring gear and supported for rotation about axes perpendicular to a ring gear axis; a first transmission configured to transmit power from an engine to the first pinion gear at multiple speed ratios; and a second transmission configured to transmit power from an electric motor to the second pinion gear at two speed ratios. 13. The hybrid electric vehicle of claim 12 wherein the axis of rotation of the first pinion gear is not collinear with the axis of rotation of the second pinion gear. 14. The hybrid electric vehicle of claim 12 wherein the second transmission comprises: a motor shaft fixedly coupled to a rotor of the electric motor; first and second layshaft gears coupled to motor shaft; a layshaft fixedly coupled to the second pinion gear; and third and fourth layshaft gears coupled to the layshaft, the third layshaft gear in continuous meshing engagement with the first layshaft gear and the fourth layshaft gear in continuous meshing engagement with the second layshaft gear. 15. The hybrid electric vehicle of claim 14 wherein: the first and second layshaft gears are alternately selectively coupled to the motor shaft by a coupler; and the third and fourth layshaft gears are fixedly coupled to the layshaft. 16. The hybrid electric vehicle of claim 12 wherein the second transmission comprises: a motor shaft fixedly coupled to a rotor of the electric motor; gearing establishing a fixed linear speed relationship among the motor shaft, the second pinion gear, a first rotating element, and a second rotating element; and a braking element configured to alternately selectively hold the first rotating element and the second rotating element against rotation. 17. A vehicle axle comprising: a beveled ring gear supported for rotation about an axle axis; first and second beveled pinion gears each in engagement with the ring gear and supported for rotation about axes perpendicular to the axle axis, the first pinion gear adapted to receive power from an internal combustion powertrain; and a two speed gearbox configured to transmit power from an electric motor to the second pinion gear. 18. The vehicle axle of claim 17 wherein: the first beveled pinion gear is supported for rotation about a first pinion axis offset from a ring gear axis by a first offset distance; and the second beveled pinion gear is supported for rotation about a second pinion axis offset from the ring gear axis by a second offset distance. 19. The vehicle axle of claim 18 wherein: the first offset distance is equal to the second offset distance; and the first beveled pinion gear and the second beveled pinion gear have substantially identical hypoid gear geometry.