Transfer case with four wheel lock

The invention claimed is: 1. A transfer case comprising: a primary shaft; a secondary shaft; and a torque transfer mechanism configured to selectively transfer torque from the primary shaft to the secondary shaft, wherein the torque transfer mechanism includes a locking ring, a first sprocket selectively coupleable to the primary shaft with the locking ring, a second sprocket coupled to the secondary shaft, and a chain extending between the first sprocket and the second sprocket to transfer torque therebetween, the torque transfer mechanism including an actuator including a compressible shaft configured to move the locking ring between a first position, in which the locking ring is coupled to the first sprocket, and a second position, in which the locking ring is uncoupled from the first sprocket, upon the application of current in opposing directions; wherein the locking ring includes an inner annular portion having a first inner periphery that forms a sliding splined connection with the primary shaft, and includes an outer annular portion having a second inner periphery that selectively forms another splined connection with the first sprocket. 2. The transfer case according to claim 1 , wherein the first sprocket includes a sprocket body and an annular sprocket portion that extends from the sprocket body and is fixedly coupled thereto to rotate therewith. 3. The transfer case according to claim 2 , wherein the actuator moves the locking ring from the first position to the second position upon the application of either positive or negative current and moves the locking ring from the second position to the first position upon the application of the other of positive or negative current. 4. The transfer case according to claim 3 , wherein the sliding splined connection is maintained with the primary shaft when the locking ring is moved between the first position and the second position. 5. The transfer case according to claim 3 , wherein the second position is closer to the sprocket body than the first position. 6. The transfer case according to claim 2 , wherein the annular sprocket portion is receivable between the inner annular portion and the outer annular portion of the locking ring. 7. The transfer case according to claim 1 , wherein the locking ring additionally includes an intermediate portion extending radially outward from the inner annular portion to the outer annular portion. 8. The transfer case according to claim 7 , wherein the locking ring defines a recess extending radially between the inner annular portion and the outer annular portion. 9. The transfer case according to claim 1 , wherein the actuator is configured for linear movement. 10. A transfer case comprising: a primary shaft; a secondary shaft; and a torque transfer mechanism configured to selectively transfer torque from the primary shaft to the secondary shaft, wherein the torque transfer mechanism includes a locking ring, a first sprocket selectively coupleable to the primary shaft with the locking ring, a second sprocket coupled to the secondary shaft, and a chain extending between the first sprocket and the second sprocket to transfer torque therebetween, wherein the locking ring includes an inner annular portion having a first inner periphery that forms a sliding splined connection with the primary shaft, and includes an outer annular portion having a second inner periphery that selectively forms another splined connection with the first sprocket, wherein the torque transfer mechanism includes a first actuation system including a linear actuator that selectively moves the locking ring between a first position in which the locking ring is coupled to the first sprocket and a second position in which the locking ring is not coupled to the first sprocket, wherein the first actuation system additionally includes a shift fork slidingly coupled to the locking ring and a compressible shaft extending between the shift fork and the linear actuator, and wherein the linear actuator is a bi-stable actuator. 11. The transfer case according to claim 10 , wherein the torque transfer mechanism includes a second actuation system having a plate clutch that selectively forms a friction coupling between the first sprocket and the second sprocket. 12. The transfer case according to claim 11 , wherein the second actuation system includes a rotary actuator. 13. The transfer case according to claim 11 , wherein the second actuation system is additionally configured to selectively change between drive ratios of the transfer case. 14. The transfer case according to claim 1 , wherein the first sprocket includes a sprocket body and an annular sprocket portion that extends rearward from the sprocket body and is fixedly coupled thereto to rotate therewith; wherein the locking ring is selectively movable between a first position in which the locking ring is coupled to the annular sprocket portion and a second position in which the locking ring is not coupled to the annular sprocket portion, and the locking ring additionally includes an intermediate portion extending radially outward from the inner annular portion to the outer annular portion; wherein the torque transfer mechanism includes a first actuation system that selectively moves the locking ring between a first position in which the locking ring is coupled to the first sprocket and a second position in which the locking ring is not coupled to the first sprocket, and the first actuation system includes a linear actuator; and wherein the torque transfer mechanism includes a second actuation system having a plate clutch that selectively forms a friction coupling between the first sprocket and the second sprocket. 15. A transfer case comprising: a primary output shaft; a secondary output shaft and a secondary torque transfer mechanism configured to selectively couple the secondary output shaft to the primary output shaft to transfer torque therebetween, wherein the secondary torque transfer mechanism comprises a sprocket coupled to the secondary output shaft, and a plate clutch coupled to the sprocket to selectively form a friction coupling with the primary output shaft; and a locking mechanism configured to couple the primary output shaft to the sprocket, wherein the locking mechanism comprises a locking sleeve and an actuator including a compressible shaft, the actuator being configured to move the locking sleeve axially between a first position in which the locking sleeve forms a first splined connection with the primary output shaft and a second splined connection with the sprocket to transfer torque between the primary output shaft and the sprocket, and a second position in which the locking sleeve forms the first splined connection with the primary output shaft but does not form the second splined connection with the sprocket, the locking ring being moveable between the first and second positions upon the application of opposing current to the actuator. 16. The transfer case according to claim 15 , wherein the sprocket includes an annular portion extending rearward from a body of the sprocket, and the locking sleeve includes an outer portion that selectively forms the second splined connection with the annular portion of the sprocket, and includes an inner portion that non-selectively forms the first splined connection with the primary output shaft. 17. The transfer case according to claim 16 , wherein the locking sleeve forms a recess that extends radially between the outer portion and the inner portion, and the annular portion of the sprocket is received in the recess