Position force controlled actuator

What is claimed is: 1. An actuator device for a selectable clutch having a plurality of mode positions for controlling relative rotation between two components connected by the selectable clutch, the actuator device comprising: a piston housing having an exterior surface, a piston housing longitudinal bore extending longitudinally there through, a first fluid passage extending inwardly from the exterior surface and intersecting the piston housing longitudinal bore proximate a first bore end, and a second fluid passage extending inwardly from the exterior surface and intersecting the piston housing longitudinal bore proximate a second bore end; a main piston disposed within the piston housing longitudinal bore for longitudinal motion therein, the main piston comprising: a main piston main portion having a main piston main portion outer diameter and being disposed between the first fluid passage and the second fluid passage, and a main piston secondary portion having a main piston secondary portion outer diameter that is less than the main piston main portion outer diameter and extending longitudinally from the main piston main portion toward the second fluid passage; a secondary piston having a secondary piston longitudinal bore such that the secondary piston is disposed and slidable on the main piston secondary portion, the secondary piston comprising: a secondary piston main portion having a secondary piston main portion outer diameter that is less than the main piston main portion outer diameter, and a secondary piston secondary portion having a secondary piston secondary portion outer diameter that is less than the secondary piston main portion outer diameter and being disposed between the main piston main portion and the secondary piston main portion; and a stop snap ring having an annular shape and a stop snap ring inner diameter that is less than the secondary piston main portion outer diameter and greater than the secondary piston secondary portion outer diameter, wherein the stop snap ring is fixed within the piston housing longitudinal bore between the main piston main portion and the secondary piston main portion and with the secondary piston secondary portion extending there through, wherein a first pressure force acting on the main piston toward the second bore end is equal to a first pressure supplied at the first fluid passage multiplied by a first area equal to a main piston cross-sectional area of the main piston main portion, wherein a second pressure force acting on the main piston toward the first bore end when the secondary piston main portion is not engaged by the stop snap ring is equal to a second pressure supplied at the second fluid passage multiplied by a second area equal to a combined cross-sectional area of a main piston secondary portion cross-sectional area and a secondary piston main portion cross-sectional area; and wherein a third pressure force acting on the main piston toward the first bore end when the secondary piston main portion is engaged by the stop snap ring is equal to the second pressure supplied at the second fluid passage multiplied by a third area equal to the main piston secondary portion cross-sectional area. 2. The actuator device according to claim 1 , comprising a piston spring operatively connected to the main piston, wherein a spring force acting on the main piston toward one of the first bore end and the second bore end is equal to a spring constant for the piston spring multiplied by an amount of compression of the piston spring. 3. The actuator device according to claim 2 , wherein the spring force biases the main piston toward the first bore end. 4. The actuator device according to claim 3 , wherein the first pressure force acts on the main piston and the secondary piston main portion does not engage the stop snap ring when the first pressure force is greater than the second pressure force plus the spring force. 5. The actuator device according to claim 3 , wherein the third pressure force acts on the main piston and the secondary piston main portion engages the stop snap ring when the first pressure force is less than the second pressure force plus the spring force, and wherein the main piston is engaged with the secondary piston when the first pressure force is less than the second pressure force plus the spring force and is greater than the third pressure force plus the spring force. 6. The actuator device according to claim 3 , wherein the third pressure force acts on the main piston, the secondary piston main portion engages the stop snap ring and the main piston disengages from the secondary piston and moves toward the first bore end when the first pressure force is less than the third pressure force plus the spring force. 7. The actuator device according to claim 3 , wherein the piston spring is dispose within the piston housing longitudinal bore between the main piston and a bore end wall at the second bore end. 8. The actuator device according to claim 2 , wherein the piston spring is disposed external to the piston housing and operatively connected to the main piston. 9. The actuator device to claim 1 , wherein the piston housing longitudinal bore has a main bore portion having a main bore portion inner diameter, a secondary bore portion having a secondary bore portion inner diameter that is less than the main bore portion inner diameter, and wherein the main piston main portion is disposed within the main bore portion and the main piston secondary portion and the secondary piston are disposed within the secondary bore portion. 10. The actuator device according to claim 9 , wherein a transition between the main bore portion and the secondary bore portion defines a bore shoulder that engages the main piston main portion to limit movement of the main piston toward the second bore end. 11. The actuator device according to claim 1 , wherein the piston housing includes a longitudinal slot extending inwardly from the exterior surface and intersecting the piston housing longitudinal bore, and wherein the actuator device comprises a cam actuator bar mounted to the main piston main portion and extending through the longitudinal slot so that the cam actuator bar can be operatively connected to an actuator cam of the selectable clutch to move the selectable clutch between the plurality of mode positions as the main piston moves longitudinally within the piston housing longitudinal bore. 12. A selectable clutch comprising: an outer race; an inner race rotatable relative to the outer race; a selective locking mechanism having a plurality of locking modes for controlling relative rotation between the two components connected by the selectable clutch; an actuator cam that is rotatable between a plurality of mode positions each causing the selective locking mechanism to engage one of the plurality of locking modes; and the actuator device according to claim 1 operatively connected to the actuator cam to move the selective locking mechanism between the plurality of mode positions as the main piston moves longitudinally within the piston housing longitudinal bore. 13. The selectable clutch according to claim 12 , wherein the piston housing comprises a longitudinal slot extending inwardly from the exterior surface and intersection the piston housing longitudinal bore, and wherein the actuator device comprises a cam actuator bar mounted to the main piston, extending through the longitudinal slot and operatively connected to the actuator cam to move the actuator cam between the plurality of mode positions. 14. The selectable clutch according to claim 13 , wherein the actuator cam com