Powertrain system actuator and powertrain system therewith

What is claimed is: 1. A vehicle powertrain actuator for selectively coupling a first rotatable member to a second rotatable member to transfer torque therebetween and to selectively decouple the first rotatable member from the second rotatable member to prevent the transfer of torque therebetween, comprising: a solenoid fixed to a wall bounding a cavity, said solenoid having an electrically activatable coil and a plunger extending between a proximal end and a distal end, said proximal end being configured for magnetic communication with said coil to cause said plunger to translate in said cavity; a tubular sleeve fixed in said cavity, said tubular sleeve having a throughbore with a guide member and a cam lock feature; a tubular first member disposed in said tubular sleeve about said plunger, said tubular first member having a first guide feature configured for translation along said guide member and having a first engagement end with a cam surface; a tubular second member disposed in said tubular sleeve about said plunger, said tubular second member having a second guide feature configured for translation along said guide member and having a second activation end configured to abut said first engagement end; and a first spring member disposed within said tubular first and second members for biasing said first and second members away from one another; wherein said plunger is translatable toward said coil upon a first energization of said coil for causing said tubular first and second members to translate from a retracted, deactivated position in said cavity with said first and second guide features translating along said guide member, wherein said first guide feature extends axially beyond said guide member such that said second activation end rotatably drives said first and second guide features out of axial alignment with one another and drives a stop surface of said tubular first member into engagement with said cam lock feature to maintain said tubular first member in an extended, activated position when said coil is de-energized, wherein a second energization of said coil causes said tubular first and second members to translate in said sleeve such that said second activation end drives said stop surface of said tubular first member out of engagement with said cam lock feature and brings said first guide feature into axial alignment with said guide member, thereby allowing said tubular first member to be axially translated back to its retracted, deactivated position when said coil is de-energized. 2. The vehicle powertrain actuator of claim 1 , further including a second spring member disposed about said plunger between said tubular first member and said proximal end of said plunger to facilitate axial translation of said tubular first member back to its retracted, deactivated position when said coil is de-energized. 3. The vehicle powertrain actuator of claim 2 , further including a third spring member disposed in abutment with said proximal end of said plunger to facilitate axial translation of said tubular first member back to its retracted, deactivated position when said coil is de-energized. 4. The vehicle powertrain actuator of claim 1 , wherein said wall has a window and further including a driven member slidably disposed about said plunger and extending through said window for selectively coupling and decoupling the first rotatable member to the second rotatable member. 5. The vehicle powertrain actuator of claim 1 , wherein said plunger of said solenoid is uni-directionally actuatable to move in a first axial direction via electrical power. 6. The vehicle powertrain actuator of claim 5 , wherein said plunger of said solenoid is biased in a second direction opposite said first direction via at least one spring member. 7. The vehicle powertrain actuator of claim 1 , wherein said first engagement end and said second activation end have inclined cam surfaces configured to abut one another to drive said first and second guide features into and out of axial alignment with one another and to drive said stop surface of said tubular first member into and out of engagement with said cam lock feature. 8. The vehicle powertrain actuator of claim 1 , wherein said guide member of said tubular sleeve is a recessed channel. 9. The vehicle powertrain actuator of claim 8 , wherein said first and second guide features are elongate ribs extending radially outwardly from cylindrical outer surfaces of said tubular first and second members. 10. The vehicle powertrain actuator of claim 1 , wherein said guide member of said tubular sleeve is an elongate rib extending radially inwardly from an inner surface of said tubular sleeve. 11. The vehicle powertrain actuator of claim 10 , wherein said second guide feature is a recessed channel extending radially inwardly into an outer cylindrical surface of said tubular second member, with the recess channel being configured for sliding receipt of said elongate rib of said tubular sleeve therein. 12. The vehicle powertrain actuator of claim 1 , wherein said stop surface extends axially into said cam surface of said tubular first member. 13. The vehicle powertrain actuator of claim 1 , wherein said stop surface extends along a side of said first guide feature of said tubular first member. 14. A vehicle powertrain system including a powertrain actuator for selectively coupling a first rotatable member to a second rotatable member to transfer torque therebetween and to selectively decouple the first rotatable member from the second rotatable member to prevent the transfer of torque therebetween, said powertrain actuator comprising: a housing having a wall bounding a cavity and a through window; an electrically activatable coil disposed adjacent said cavity; a plunger disposed in said cavity, said plunger having an elongate portion extending between a proximal end adjacent said coil and a distal end, said proximal end being configured for magnetic communication with said electrically activatable coil to cause said plunger to translate in said cavity in response to said magnetic communication; a tubular sleeve fixedly disposed in said cavity, said tubular sleeve having a throughbore extending between open opposite ends, said throughbore having a guide member extending axially between said open opposite ends and a cam lock feature; a tubular first member disposed in said tubular sleeve and about said elongate portion of said plunger, said tubular first member having an outer surface with a first guide feature configured for translation along said guide member, said outer surface extending between a free end facing said proximal end of said plunger and a first engagement end facing said distal end of said plunger, said first engagement end having a cam surface and a stop surface extending therefrom; a tubular second member disposed in said tubular sleeve and about said elongate portion of said plunger between said tubular first member and said distal end of said plunger, said tubular second member having an outer surface with a second guide feature configured for translation along said guide member and having a free end facing said distal end of said plunger and a second activation end configured to abut said cam surface on said first engagement end; a first spring member disposed within said tubular first and second members, said first spring member biasing said first and second members away from one another; a second spring member disposed about said plunger between said tubular first member and said proximal end of said plunger; and a driven member disposed about said plunger between said tubular first member a