Axially compact linear actuator drive arrangement

What is claimed is: 1 . A linear actuator drive arrangement comprising: a drive screw including a drive screw threading on an outer periphery thereof, a first axial end of the drive screw being configured to support a load; a motor including a stator and a rotor arranged radially within the stator, the rotor including: a rotor housing; a first ring nut and a second ring nut, the first and second ring nuts are each fixed to a radially inner surface of the rotor housing and include ring nut grooves on an inner periphery thereof; a plurality of planetary screws arranged radially between the drive screw and the first ring nut and the second ring nut, each planetary screw of the plurality of planetary screws includes: (1) axial ends having planetary screw grooves configured to engage the ring nut grooves of the first ring nut and the second ring nut, and (2) a medial portion including a planetary screw threading configured to engage the drive screw threading to axially drive the drive screw; a bearing assembly arranged radially inside a first axial end of the rotor housing, the bearing assembly axially supporting the rotor housing; and an encoder ring fixed to a radially outer surface of the rotor housing at the first axial end of the rotor housing, and the encoder ring is concentric with the bearing assembly. 2 . The linear actuator drive arrangement of claim 1 , wherein the bearing assembly is an angular contact bearing. 3 . The linear actuator drive arrangement of claim 1 , wherein a support ring is arranged axially between a support shoulder defined on a radially inner surface of the rotor housing and the bearing assembly. 4 . The linear actuator drive arrangement of claim 1 , wherein a second axial end of the rotor housing includes a radially inwardly extending flange. 5 . The linear actuator drive arrangement of claim 4 , wherein a biasing element is arranged between the radially inwardly extending flange of the rotor housing and the first ring nut. 6 . The linear actuator drive arrangement of claim 1 , further comprising a linear actuator housing, the linear actuator housing including a support post against which a second axial end of the drive screw abuts in a retracted position, and a radially inner ring of the bearing assembly is mounted on the support post. 7 . The linear actuator drive arrangement of claim 1 , wherein the plurality of planetary screws are supported by a cage. 8 . The linear actuator drive arrangement of claim 1 , wherein stator is axially smaller than the rotor housing. 9 . The linear actuator drive arrangement of claim 1 , wherein the rotor housing directly contacts both the encoder ring and a radially outer ring of the bearing assembly. 10 . A linear actuator drive arrangement comprising: a drive screw including a drive screw threading on an outer periphery thereof, a first axial end of the drive screw being configured to support a load; a motor including a stator and a rotor arranged radially within the stator, the rotor including: a rotor housing; a first ring nut and a second ring nut, the first and second ring nuts are each fixed to a radially inner surface of the rotor housing and include ring nut grooves on an inner periphery thereof; a plurality of planetary screws arranged radially between the drive screw and the first ring nut and the second ring nut, each planetary screw of the plurality of planetary screws includes: (1) axial ends having a planetary screw grooves configured to engage the ring nut grooves of the first ring nut and the second ring nut, and (2) a medial portion including a planetary screw threading configured to engage the drive screw threading to axially drive the drive screw; an angular contact bearing assembly arranged radially inside a second axial end of the rotor housing and a radially outer ring of the angular contact bearing assembly is in direct contact with a radially inner surface of the rotor housing, the angular contact bearing assembly axially supporting the rotor housing; and an encoder ring fixed directly to a radially outer surface of the rotor housing at the second axial end of the rotor housing, and the encoder ring is concentric with the angular contact bearing assembly. 11 . The linear actuator drive arrangement of claim 10 , wherein a support ring is arranged axially between a support shoulder defined on a radially inner surface of the rotor housing and the bearing assembly. 12 . The linear actuator drive arrangement of claim 10 , wherein a second axial end of the rotor housing includes a radially inwardly extending flange. 13 . The linear actuator drive arrangement of claim 12 , wherein a biasing element is arranged between the radially inwardly extending flange of the rotor housing and the first ring nut. 14 . The linear actuator drive arrangement of claim 10 , further comprising a linear actuator housing, the linear actuator housing including a support post against which a second axial end of the drive screw abuts in a retracted position, and a radially inner ring of the bearing assembly is mounted on the support post. 15 . The linear actuator drive arrangement of claim 10 , wherein the plurality of planetary screws are supported by a cage.