Work vehicle multi-speed drive assembly providing multiple gear ratios at same step ratio

What is claimed is: 1. A drive assembly for a work vehicle comprising: a housing arrangement comprising at least one housing element forming a reaction member; a drive shaft rotatable on a drive axis relative to the reaction member in a first clock direction and alternatively a second clock direction; a planetary gear set coupled to the drive shaft and configured to selectively rotate an output element in the first clock direction and alternatively in the second clock direction, wherein the planetary gear set is a two-stage planetary gear set comprising a first-stage sun gear, a first-stage carrier, a set of first-stage planet gears supported on the first-stage carrier, a first-stage ring gear, a second-stage sun-gear rotationally fixed to the first-stage carrier, a second-stage carrier rotationally fixed to the first-stage ring gear, a set of second-stage planet gears supported on the second-stage carrier, and a second-stage ring gear, wherein the output element rotates with the second-stage carrier; a first clutch arrangement configured to selectively engage the planetary gear set to effect a first gear ratio and first output rotation speed and torque of the output element; a second clutch arrangement configured to selectively engage the planetary gear set to effect a second gear ratio and second output rotation speed and torque of the output element, wherein a step ratio from the first gear ratio and the second gear ratio is 3:1; at least one first actuator configured to effect movement of the first clutch arrangement along the drive axis to selectively engage the planetary gear set; and at least one second actuator configured to effect movement of the second clutch arrangement along the drive axis to selectively engage the planetary gear set, wherein the drive shaft and output element rotate in a same clock direction with the first clutch arrangement engaged with the planetary gear set, and the drive shaft and the output element rotate in opposite clock directions with the second clutch arrangement engaged with the planetary gear set. 2. The drive assembly of claim 1 , wherein the second-stage carrier includes a first second-stage carrier plate rotationally fixed to the first-stage ring gear and supporting the second-stage planet gears, and a second second-stage carrier plate spaced from and rotationally fixed to the first second-stage carrier plate, wherein the output element is integrally formed with or connected to the second second-stage carrier plate. 3. The drive assembly of claim 1 , wherein the first clutch arrangement is configured to selectively engage the second-stage ring gear. 4. The drive assembly of claim 3 , further comprising a first hub connected to the reaction member and grounded by the reaction member, wherein the first clutch arrangement is a low clutch arrangement and includes a first low clutch ring mounted on and held against rotation relative to the first hub and a second low clutch ring mounted on and held against rotation relative to the first hub. 5. The drive assembly of claim 4 , wherein the first low clutch ring is configured to selectively engage the second-stage ring gear to hold the second-stage ring gear against rotation in one of the first clock direction and the second clock direction and overrun the second-stage ring gear with rotation of the second-stage ring gear in the other of the first clock direction and the second clock direction, and the second low clutch ring is configured to selectively engage the second-stage ring gear to hold the second-stage ring gear against rotation in the other of the first clock direction and the second clock direction and overrun the second-stage ring gear with rotation of the second-stage ring gear in the one of the first clock direction and the second clock direction. 6. The drive assembly of claim 4 , wherein the at least one first actuator includes at least one first low actuator configured to effect movement of the first low clutch ring along the drive axis relative to the second-stage ring gear, and the at least one first actuator further includes at least one second low actuator configured to effect movement of the second low clutch ring along the drive axis relative to the second-stage ring gear. 7. The drive assembly of claim 1 , wherein the second clutch arrangement is configured to selectively engage the first-stage carrier. 8. The drive assembly of claim 7 , further comprising a second hub connected to the reaction member and grounded by the reaction member, wherein the second clutch arrangement is a mid clutch arrangement and includes a first mid clutch ring mounted on and held against rotation relative to the second hub and a second mid clutch ring mounted on and held against rotation relative to the second hub. 9. The drive assembly of claim 8 , wherein the first mid clutch ring is configured to selectively engage the first-stage carrier to hold the first-stage carrier against rotation in one of the first clock direction and the second clock direction and overrun the first-stage carrier with rotation of the first-stage carrier in the other of the first clock direction and the second clock direction, and the second mid clutch ring is configured to selectively engage the first-stage carrier to hold the first-stage carrier against rotation in the other of the first clock direction and the second clock direction and overrun the first-stage carrier with rotation of the first-stage carrier in the one of the first clock direction and the second clock direction. 10. The drive assembly of claim 9 , wherein the at least one second actuator includes at least one first mid actuator configured to effect movement of the first mid clutch ring along the drive axis relative to the first-stage carrier, and the at least one second actuator further includes at least one second mid actuator configured to effect movement of the second mid clutch ring along the drive axis relative to the first-stage carrier. 11. The drive assembly of claim 1 , further comprising: a third clutch arrangement configured to selectively engage the planetary gear set to effect a third gear ratio and a third output rotation speed and torque of the output element, wherein a step ratio from the second gear ratio to the third gear ratio is 3:1, and at least one third actuator configured to effect movement of the third clutch arrangement along the drive axis to selectively engage the planetary gear set, wherein the drive shaft and the output element rotate in the same clock direction with the third clutch arrangement engaged with the planetary gear set. 12. The drive assembly of claim 11 , wherein the third clutch arrangement is configured to selectively engage the first-stage carrier. 13. The drive assembly of claim 12 , wherein the third clutch arrangement is a high clutch arrangement and includes a first high clutch ring mounted on and rotationally fixed to the drive shaft and a second high clutch ring mounted on and rotationally fixed to the drive shaft. 14. The drive assembly of claim 13 , wherein the first high clutch ring is configured to engage the first-stage carrier to drive rotation of the first-stage carrier in one of the first clock direction and the second clock direction with rotation of the drive shaft, and overrun the first-stage carrier with rotation of the drive shaft in the other of the first clock direction and the second clock direction, and the second high clutch ring is configured to engage the first-stage carrier to drive rotation of the first-stage carrier in the other of the first clock direction and the second clock direction and overrun the first-stage carrier with rotation