Overrunning, non-friction coupling and control assemblies and switchable linear actuator device and reciprocating electromechanical apparatus for use therein

What is claimed is: 1. A switchable linear actuator device to control the operating mode of a non-friction coupling assembly, the device having a plurality of magnetic sources which produce corresponding magnetic fields to create a net translational force, the device comprising: a locking member pivotable between an uncoupling position and a coupling position characterized by abutting engagement with a load-bearing shoulder of the coupling assembly, the locking member being in the coupling position when actuated and otherwise being in the uncoupling position; a stator structure including at least one electromagnetic source to create an electronically-switched magnetic field; and a translator structure including a cam having a contour surface and a magnetically-latching, permanent magnet source magnetically coupled to the stator structure across a radial air gap, the translator structure being supported for translational movement relative to the stator structure along an axis between a plurality of predefined, discrete, axial positions which correspond to different operating modes of the coupling assembly, the translator structure translating along the axis between the different positions upon experiencing the net translational force to cause the locking member to ride on the contour surface of the cam to cause the locking member to pivot between the coupling and uncoupling positions which correspond to different operating modes of the coupling assembly, wherein pivoting of the locking member from the uncoupling position to the coupling position entails the locking member being actuated from riding on the contour surface of the cam, the net translational force comprising a first translational force caused by energization of the at least one electromagnetic source and a magnetic latching force based upon linear position of the permanent magnet source along the axis. 2. The device as claimed in claim 1 , wherein the structures are substantially circularly symmetric. 3. The device as claimed in claim 2 , wherein each electromagnetic source includes an annular slot and a coil disposed in the slot, each slot opening to the radial air gap. 4. The device as claimed in claim 1 , wherein the permanent magnet source comprises an annular magnet. 5. The device as claimed in claim 1 , wherein the translator structure includes a pair of spaced biasing members for exerting corresponding biasing forces on the cam in opposite directions along the axis when the cam moves along the axis. 6. The device as claimed in claim 4 , wherein the annular magnet is axially magnetized. 7. The device as claimed in claim 4 , wherein the translator structure includes a pair of field redirection rings and wherein the annular magnet is sandwiched between the field redirection rings. 8. The device as claimed in claim 1 , wherein the coupling assembly is a radial clutch assembly. 9. A reciprocating electromechanical apparatus for controlling the operating modes of a pair of non-friction coupling assemblies, the apparatus comprising: first and second members including first and second faces, respectively, in close-spaced opposition with one another, the second member being mounted for rotation about an axis and for reciprocating movement along the axis; magnetic circuit components including first and second magnetic sources, the first magnetic source being supported by the first member at the first face in close-spaced opposition to the second magnetic source which is supported by the second member, the magnetic sources being separated by a radial air gap, wherein the second magnetic source is a magnetically-latching, permanent magnetic source having a permanent magnetic field and the first magnetic source is an electromagnetic source including a coil to create an electronically switched magnetic field; and a first cam having a first contour surface extending from the second member in a first direction to cause a first locking element of a first coupling assembly to ride on the first contour surface to transform reciprocating movement of the first cam to pivotal motion of the first locking element and a second cam having a second contour surface extending from the second member in a second direction opposite the first direction to cause a second locking element of a second coupling assembly to ride on the second contour surface to transform reciprocating movement of the second cam to pivotal motion of the second locking element wherein coil energization creates a temporary magnetic field which causes the second member to reciprocate between first and second predefined, discrete positions along the axis and wherein the permanent magnetic field causes the second member to maintain the first and second positions without the need to maintain coil energization thereby providing a magnetic latching effect. 10. The apparatus as claimed in claim 9 , wherein the first face has at least one recess in which the coil is located. 11. The apparatus as claimed in claim 10 , wherein each recess includes an annular recess. 12. The apparatus as claimed in claim 9 , wherein the permanent magnet source is an annular magnet. 13. The apparatus as claimed in claim 9 , wherein each of the coupling assemblies is a radial clutch assembly. 14. The apparatus as claimed in claim 9 , wherein the cams are funnel-shaped. 15. An overrunning, non-friction, radial coupling and control assembly comprising: a first pair of coupling members supported for rotation relative to one another about a common rotational axis and a first locking member for selectively mechanically coupling the first pair of coupling members together to prevent relative rotation of the first pair of coupling members with respect to each other in at least one direction about the axis; a second pair of coupling members supported for rotation relative to one another about the common rotational axis and a second locking member for selectively mechanically coupling the second pair of coupling members together to prevent relative rotation of the second pair of coupling members with respect to each other in at least one direction about the axis; a stator subassembly including at least one coil to create an electromagnetically switched magnetic field and to create a magnetic flux when the at least one coil is energized; and a magnetically-latching actuator subassembly including a single, bi-directionally-movable structure, a first cam of the structure adapted to be in motion-transforming engagement with the first locking member and a second cam of the structure adapted to be in motion-transforming engagement with the second locking member for selective, locking-member, radial movement, the actuator subassembly further including a magnetic actuator coupled to the structure and mounted for controlled reciprocating movement along the rotational axis relative to the first and second pairs of coupling members between a first extended position which corresponds to a first mode of the first pair of coupling members and a second extended position which corresponds to a second mode of the second pair of coupling members, the first cam actuating the first locking member and the second cam actuating the second locking member in the extended positions, respectively, so that the first locking member couples the first pair of coupling members for rotation with each other in at least one direction about the rotational axis and the second locking member couples the second pair of coupling members for rotation with each other in at least one direction about the rotational axis, the magnetic actuator completing a path of the magnetic flux to magnetically l