Motor soft shift feature

What is claimed is: 1. A hydraulic unit ( 1 ) having a driving mechanism ( 2 ) whose displacement volume is adjustable to two operational states through movement of a positionable adjustment element ( 3 ) which itself can be positioned through movement of a servo piston ( 6 ) of a servo unit ( 4 ) into a first, initial position and a second, operated position, wherein a first front face ( 7 ) of the servo piston ( 6 ) opposes a second front face ( 8 ) of the servo piston ( 6 ), wherein the first front face ( 7 ) can be pressurized with pressurized hydraulic fluid for positioning the servo piston ( 6 ) at one end of a servo cylinder ( 5 ) of the servo unit ( 4 ), wherein the servo piston ( 6 ) is of a stepped design thereby forming a ring-shaped damping surface ( 10 ) opposing the first front face ( 7 ), wherein in the servo cylinder ( 5 ) a ring-shaped shoulder surface ( 12 ) is formed correspondingly and opposing the damping surface ( 10 ) such that a damping volume ( 15 ) is formed in the servo cylinder ( 5 ) by the damping surface ( 10 ), the shoulder surface ( 12 ) and the servo cylinder ( 5 ), and wherein the damping volume ( 15 ) is drained via damping flow passages ( 19 , 19 ′) to a rear chamber ( 35 ) of servo cylinder ( 5 ) and subsequent to a hydraulic reservoir ( 100 ). 2. The hydraulic unit ( 1 ) according to claim 1 , wherein the damping volume ( 15 ) is fluidly connectable via one or more damping flow passages ( 20 ) with the first front face ( 7 ). 3. The hydraulic unit ( 1 ) according to claim 1 , wherein the hydraulic reservoir ( 100 ) is provided inside or outside of a casing ( 50 ) of the hydraulic unit ( 1 ). 4. The hydraulic unit ( 1 ) according to claim 1 , wherein the first front face ( 7 ) is adapted to be pressurized by hydraulic fluid under a shift pressure. 5. The hydraulic unit ( 1 ) according to claim 1 , wherein the damping volume ( 15 ) is fluidly connectable via a first damping line ( 16 ) to a hydraulic line ( 14 ) conducting hydraulic fluid under a shift pressure. 6. The hydraulic unit ( 1 ) according to claim 5 , wherein an adjustable damping orifice ( 18 ) is provided in the first damping line( 16 ). 7. The hydraulic unit ( 1 ) according to claim 1 , wherein a servo spring is located at the second front face ( 8 ) for pushing the servo piston ( 6 ) into a position within the servo unit ( 4 ) in which the adjustment element ( 3 ) is in its first, initial position, if the pressure acting on the first front face ( 7 ) falls below shift pressure. 8. The hydraulic unit ( 1 ) according to claim 7 , wherein the hydraulic unit ( 1 ) is at maximum displacement when the servo piston ( 6 ) is in its initial position. 9. A hydraulic unit ( 1 ) having a driving mechanism ( 2 ) with an adjustment element ( 3 ) for adjusting displacement volume, the hydraulic unit comprising: a servo unit ( 4 ) having a servo cylinder ( 5 ) and a servo piston ( 6 ) movable within the servo cylinder ( 5 ), the servo piston ( 6 ) having a first front face ( 7 ) on one end thereof and a second front face ( 8 ) on an opposite end thereof, the first front face ( 7 ) adapted to be pressurized with pressurized hydraulic fluid for positioning the servo piston ( 6 ) toward an opposite end of the servo cylinder ( 5 ) of the servo unit ( 4 ), wherein the servo piston ( 6 ) has a stepped design with a step between the first front face ( 7 ) and second the front face ( 8 ) that forms a ring-shaped damping surface ( 10 ) opposite the first front face ( 7 ), and wherein the servo cylinder ( 5 ) includes a ring-shaped shoulder surface ( 12 ) formed correspondingly and opposing the damping surface ( 10 ) to form a damping volume ( 15 ) in the servo cylinder ( 5 ) between the damping surface ( 10 ), the shoulder surface ( 12 ) and the servo cylinder ( 5 ), and wherein the damping volume ( 15 ) is drained via damping flow passages ( 19 , 19 ′) to a rear chamber ( 35 ) of servo cylinder ( 5 ) and subsequent to a hydraulic reservoir ( 100 ). 10. The hydraulic unit ( 1 ) according to claim 9 , wherein the damping volume ( 15 ) is fluidly connectable via one or more damping flow passages ( 20 ) with the first front face ( 7 ). 11. The hydraulic unit ( 1 ) according to claim 9 , wherein the hydraulic reservoir ( 100 ) is provided inside or outside of a casing ( 50 ) of the hydraulic unit ( 1 ). 12. The hydraulic unit ( 1 ) according to claim 9 , wherein the first front face ( 7 ) is adapted to be pressurized by hydraulic fluid under a shift pressure. 13. The hydraulic unit ( 1 ) according to claim 9 , wherein the damping volume ( 15 ) is fluidly connectable via a first damping line ( 16 ) to a hydraulic line ( 14 ) conducting hydraulic fluid under a shift pressure. 14. The hydraulic unit ( 1 ) according to claim 13 , wherein an adjustable damping orifice ( 18 ) is provided in the first damping line ( 16 ). 15. The hydraulic unit ( 1 ) according to claim 9 , wherein a servo spring is located at the second front face ( 8 ) for pushing the servo piston ( 6 ) into a position within the servo unit ( 4 ) in which the adjustment element ( 3 ) is in its first, initial position, if the pressure acting on the first front face ( 7 ) falls below shift pressure. 16. The hydraulic unit ( 1 ) according to claim 15 , wherein the hydraulic unit ( 1 ) is at maximum displacement when the servo piston ( 6 ) is in its initial position.