Planetary roller screw arrangement

What is claimed is: 1 . A planetary roller screw arrangement configured to convert rotary motion to linear motion, comprising: a threaded nut having: a first longitudinal length; and a first threaded portion, and a first end of the first threaded portion and a second end of the first threaded portion define a second longitudinal length; a threaded spindle having a second threaded portion, and a first end of the second threaded portion and a second end of the second threaded portion define a third longitudinal length, the threaded spindle disposed within the threaded nut; a plurality of threaded planets: arranged radially between the threaded spindle and the threaded nut; having a third threaded portion configured to be threadedly engaged with the first threaded portion, and a first end of the third threaded portion and a second end of the third threaded portion define a fourth longitudinal length; and rotation of one of the threaded nut or the threaded spindle causes relative linear displacement between the threaded spindle and the plurality of threaded planets via the first threaded portion, the second threaded portion, and the third threaded portion; and the fourth longitudinal length is greater than the third longitudinal length. 2 . The planetary roller screw arrangement of claim 1 , wherein the fourth longitudinal length is greater than the second longitudinal length. 3 . The planetary roller screw arrangement of claim 1 , wherein a ratio of the fourth longitudinal length to the the third longitudinal length is at least 1.5. 4 . The planetary roller screw arrangement of claim 1 , wherein first longitudinal length is greater than the third longitudinal length. 5 . The planetary roller screw arrangement of claim 1 , wherein the third threaded portion threadedly engages the second threaded portion. 6 . The planetary roller screw arrangement of claim 1 , wherein a first end of the threaded spindle is coupled to a first push rod, and a second end of the threaded spindle is coupled to a second push rod. 7 . The planetary roller screw arrangement of claim 1 , wherein a first end of the threaded spindle is coupled to a push rod, and the push rod is configured as an abutment that limits radial deflection of the plurality of threaded planets. 8 . The planetary roller screw arrangement of claim 1 , wherein the threaded spindle is configured to move to a linear position where the third longitudinal length does not overlap with the second longitudinal length in an axial direction. 9 . The planetary roller screw arrangement of claim 1 , further comprising: a first internal gear arranged at a first end of the threaded nut; and a second internal gear arranged at a second end of the threaded nut; and the first internal gear and the second internal gear having internal gear teeth engaging with the plurality of threaded planets. 10 . The planetary roller screw arrangement of claim 9 , wherein each one of the plurality of threaded planets includes: a first planet gear arranged at a first end, the first planet gear configured to engage the first internal gear; and a second planet gear arranged at a second end, the second planet gear configured to engage the second internal gear. 11 . The planetary roller screw arrangement of claim 1 , further comprising: a first planet ring arranged at a first end of the threaded nut, the first planet ring configured to: i) rotatably support a first end of each one of the threaded planets, and ii) rotate relative to the threaded nut; and a second planet ring arranged at a second end of the threaded nut, the second planet ring configured to: i) rotatably support a second end of each one of the threaded planets, and ii) rotate relative to the threaded nut. 12 . A planetary roller screw arrangement configured to convert rotary motion to linear motion, comprising: a threaded nut comprising: a first planet ring fixed to a first end; and a second planet ring fixed to a second end, the first planet ring and the second planet ring defining a first longitudinal length of the threaded nut; and a bore having a first threaded portion, the first threaded portion spanning a second longitudinal length; a threaded spindle having a second threaded portion spanning a third longitudinal length; a plurality of threaded planets rotatably supported by the first planet ring and the second planet ring, the plurality of threaded planets: arranged radially between the threaded spindle and the threaded nut; and having a third threaded portion configured to be threadedly engaged with the first threaded portion, the third threaded portion spanning a fourth longitudinal length; and the first longitudinal length is greater than the third longitudinal length. 13 . The planetary roller screw arrangement of claim 12 wherein the fourth longitudinal length is greater than the third longitudinal length. 14 . The planetary roller screw arrangement of claim 12 , wherein a first end of the plurality of threaded planets defines a first axial travel stop for the threaded spindle and a second end of the plurality of threaded planets defines a second axial travel stop for the threaded spindle. 15 . The planetary roller screw arrangement of claim 12 , wherein the threaded nut further comprises: a first internal gear arranged at the first end of the threaded nut, the first internal gear configured to engage a first gear arranged on each one of the plurality of threaded planets; and a second internal gear arranged at the second end of the threaded nut, the second internal gear configured to engage a second gear arranged on each one of the plurality of threaded planets. 16 . A planetary roller screw arrangement configured to convert rotary motion to linear motion, comprising: a threaded nut having a bore, the bore comprising: a first threaded portion arranged at a first end of the bore, a first end of the first threaded portion and a second end of the first threaded portion defining a first longitudinal length; and a second non-threaded portion arranged between the first threaded portion and a second end of the bore in an axial direction, a first end of the second non-threaded portion and a second end of the non-threaded portion defining a second longitudinal length; a plurality of threaded planets having: a first planet end rotatably supported by the first end of the bore; a second planet end rotatably supported by the second end of the bore; and a second threaded portion: i) configured to threadedly engage the first threaded portion, and ii) extending across the second non-threaded portion in an axial direction toward the second planet end; and a threaded spindle having a third threaded portion configured to threadedly engage the plurality of threaded planets so as to move the threaded spindle linearly relative to the plurality of threaded planets; and a first end of the third threaded portion and a second end of the threaded portion define a third longitudinal length that is less than the second longitudinal length. 17 . The planetary roller screw arrangement of claim 16 , wherein rotation of one of the threaded nut or the threaded spindle causes relative linear displacement between the threaded spindle and the plurality of threaded planets. 18 . The planetary roller screw arrangement of claim 16 , wherein the third threaded portion is configured to threadedly engage the first threaded portion. 19 . The planetary roller screw arrangement of claim 16 , wherein the secon