Two Path Two Step Actuator

1 - 27 . (canceled) 28 . An actuator, comprising: a hollow first piston comprising a first extant and a second extant; a second piston slidable within the first piston; and an actuator housing comprising a recess, a first tubular port in fluid communication with the first piston, and a second tubular port in fluid communication with the second piston, wherein the first piston and the second piston are housed in the recess, and wherein the first tubular port extends alongside the second extant. 29 . The actuator of claim 28 , wherein the second piston is concentric with the first piston along an axis A-A, wherein the first tubular port comprises a first central axis B-B, wherein the second tubular port comprises a second central axis C-C, and wherein axis A-A is parallel to first central axis B-B and second central axis C-C. 30 . The actuator of claim 29 , wherein the first piston and the second piston reciprocate along the axis A-A. 31 . The actuator of claim 28 , wherein the first tubular port fluidly communicates with only the first piston, and wherein the second tubular port fluidly communicates with both the first piston and the second piston. 32 . The actuator of claim 28 , wherein the first extant has a diameter D 1 , and wherein the second extant has a diameter D 2 that is less than the diameter D 1 . 33 . The actuator of claim 28 , wherein the first tubular port has a length L 4 , wherein the second extant has a length L 2 , and wherein length L 4 is greater than length L 2 . 34 . The actuator of claim 28 , wherein the first piston further comprises an inner surface with a first edge and a second edge, wherein the second piston further comprises a third edge and a ring, wherein the second piston is configured to travel between a first position where third edge abuts first edge and a second position where a ring surface of ring abuts second edge. 35 . The actuator of claim 34 , wherein the inner surface of the first piston further comprises a notch for providing a fluid passageway between the first piston and the second piston. 36 . The actuator of claim 35 , wherein the second piston further comprises at least one diameter change to provide a fluid recess between the second piston and the first piston. 37 . The actuator of claim 28 , further comprising: a hydraulic connector comprising a first hydraulic fluid port, a second hydraulic fluid port, and a hydraulic fluid outlet, wherein the first hydraulic fluid port and the second hydraulic fluid port are configured to connect to a source of hydraulic fluid, and the hydraulic fluid outlet is configured to connect to a sump. a spool valve assembly, comprising a first spool inlet, a second spool inlet, a spool outlet, a first spool port, a second spool port, an actuatable spool, actuation devices, and control devices, wherein the first spool inlet aligns with the first hydraulic fluid port, the second spool inlet aligns with the second hydraulic fluid port, and the spool outlet aligns with the hydraulic fluid outlet, wherein the spool further comprises grooves, wherein the control devices control the actuation devices to slide the grooves in to and out of alignment with the first spool inlet, the second spool inlet, the spool outlet, the first spool port, and the second spool port. 38 . The actuator of claim 37 , wherein, when a first set of the grooves align with the first spool inlet and the first spool port, the actuator is configured to connect the source of hydraulic fluid to the first tubular port, and, when a second set of the grooves align with the second spool inlet and the second spool port, the actuator is configured to connect the source of hydraulic fluid to the second tubular port. 39 . The actuator of claim 38 , wherein, when a third set of the grooves align with the first spool port, the second spool port, and the spool outlet, the actuator is configured to connect to the sump. 40 . The actuator of claim 28 , wherein the recess comprises an upper recess with a length L 5 and a lower recess with a length L 6 , wherein the first extant is slidable in the lower recess, wherein the second piston is slidable in the lower recess, and wherein the second extant is slidable in the upper recess. 41 . The actuator of claim 28 , wherein the second piston comprises a first cylindrical portion with a diameter D 4 and a second cylindrical portion with a diameter D 3 , wherein the first cylindrical portion abuts an interior surface of the first piston, and wherein a fluid recess is between the interior surface of the first piston and the second cylindrical portion. 42 . The actuator of claim 28 , wherein the first piston further comprises an inner surface comprising first edge and a second edge, wherein second piston further comprises third edge, and wherein, when the first piston moves a distance in a first travel range T 1 away from first tubular port, the second piston moves the distance in a first travel range T 1 via mating first edge with third edge. 43 . The actuator of claim 28 , wherein the first tubular port comprises a length L 4 that is longer than the length of the second tubular port. 44 . An electro-hydraulically actuated engine valve, comprising: a hydraulic connector comprising a first hydraulic fluid port, a second hydraulic fluid port, and a hydraulic fluid outlet; a spool valve assembly, comprising a first spool inlet, a second spool inlet, a spool outlet, a first spool port, a second spool port, an actuatable spool, and actuation devices; an actuator, comprising: a hollow first piston comprising a first extant with a first outer diameter D 1 and a second extant comprising a second outer diameter D 2 , where D 1 >D 2 ; a second piston slidable within the first piston; and an actuator housing comprising a recess, a first tubular port in communication with the first piston, and a second tubular port in communication with the second piston; a valve stem assembly abutting the actuator housing; and a valve stem slidably housed in the valve stem assembly, the valve stem abutting the second piston, the valve stem comprising a valve head configured to adjust an opening or closing of a fluid exchange area of an engine block, wherein the first hydraulic fluid port and the second hydraulic fluid port are configured to connect to a source of hydraulic fluid, wherein the hydraulic fluid outlet is configured to connect to a sump, wherein the first spool inlet aligns with the first hydraulic fluid port, the second spool inlet aligns with the second hydraulic fluid port, and the spool outlet aligns with the hydraulic fluid outlet, wherein the spool further comprises grooves, wherein the spool is slidable in the spool valve assembly to slide the grooves in to and out of alignment with the first spool inlet, the second spool inlet, the spool outlet, the first spool port, and the second spool port, wherein the first extant has a length L 1 and wherein the second extant has a length L 2 , and wherein the first tubular port extends for a length L 4 , where L 4 ≧L 2 , wherein the recess extends for a length L 3 , where L 3 >(L 2 +L 1 ), and wherein the first piston and the second piston are housed in the recess. 45 . The engine valve of claim 44 , wherein the recess comprises an upper recess with a length L 5 and a lower recess with a length L 6 , wherein the first extant is slidable in the lower recess, and wherein the second piston is slidable in the lower recess, wherein the second extant is slidable in the upper recess.