Coupling and control assembly including a position sensor

What is claimed is: 1. A coupling and control assembly, comprising: a controllable coupling assembly including first and second coupling members supported for rotation relative to one another about a rotational axis, the first coupling member having a first coupling face having a locking member pocket which receives a locking member, the second coupling member having a second coupling face having a set of locking formations; a control member rotatable about the rotational axis and made of an electrically conductive material and mounted for controlled shifting movement between the first and second coupling faces relative to the locking member for controlling position of the locking member, the control member allowing the locking member to engage one of the locking formations in a first position of the control member and the control member maintaining the locking member in the locking member pocket in a second position of the control member, and the control member includes a sensor aperture; and a rotary position sensor configured to create a magnetic field to induce eddy currents in the electrically conductive material of the control member and at least partially axially aligned with the sensor aperture of the control member during the shifting movement of the control member between the first and second positions, wherein the shifting movement of the control member changes the magnetic field caused by the eddy currents, and the sensor providing a position feedback signal for vehicle transmission control, wherein the signal is correlated with the position of the control member. 2. The coupling and control assembly as claimed in claim 1 , wherein the control member is an electrically conductive selector plate. 3. The coupling and control assembly as claimed in claim 1 , wherein the sensor aperture of the control member is wedge-shaped. 4. The coupling and control assembly as claimed in claim 1 , wherein the sensor includes a printed circuit board and wherein the control member is supported proximate the board. 5. The coupling and control assembly as claimed in claim 1 , wherein the sensor includes a transmitter coil having a resonant frequency which changes when the control member moves. 6. The coupling and control assembly as claimed in claim 1 , wherein the first and second coupling members are pocket and notch plates, respectively. 7. The coupling and control assembly as claimed in claim 1 , wherein the locking member is a strut. 8. The coupling and control assembly as claimed in claim 1 , wherein the control member is an apertured control member. 9. The coupling and control assembly as claimed in claim 1 , wherein the first coupling face also having a sensor pocket which receives the sensor. 10. The coupling and control assembly as claimed in claim 1 , wherein the pocket plate has a side wall and a sensor aperture through the side wall. 11. The coupling and control assembly as claimed in claim 1 , wherein the position sensor is non-contact, inductive displacement sensor. 12. A clutch and control assembly, comprising: a controllable clutch assembly including first and second clutch members supported for rotation relative to one another about a rotational axis, the first clutch member having a first clutch face having a plurality of locking member pockets, each of the pockets receiving a locking member, the second clutch member having a second clutch face having a set of locking formations; a selector plate rotatable about the rotational axis and made of an electrically conductive material and mounted for controlled shifting movement between the first and second clutch faces relative to the locking members for controlling position of the locking members, the selector plate allowing the locking members to engage the locking formations in a first position of the selector plate and the selector plate maintaining the locking members in their locking member pockets in a second position of the selector plate, and the selector plate includes a sensor aperture; and a rotary position sensor configured to create a changing magnetic field to induce eddy currents in the electrically conductive material of the selector plate and at least partially axially aligned with the sensor aperture of the selector plate during the shifting movement of the selector plate between the first and second positions, wherein the shifting movement of the selector plate changes the magnetic field caused by the eddy currents, the sensor providing a position feedback signal for vehicle transmission control, wherein the signal is correlated with the position of the selector plate. 13. The clutch and control assembly as claimed in claim 12 , wherein the pocket plate has a side wall and a sensor aperture through the side wall through which a portion of the sensor extends. 14. The clutch and control assembly as claimed in claim 12 , wherein the sensor aperture of the selector plate is wedge-shaped. 15. The clutch and control assembly as claimed in claim 12 , wherein the sensor includes a printed circuit board and wherein the selector plate is supported proximate the board. 16. The clutch and control assembly as claimed in claim 12 , wherein the sensor includes a transmitter coil having a resonant frequency which changes when the selector plate moves. 17. The clutch and control assembly as claimed in claim 12 , wherein the first and second clutch members are pocket and notch plates, respectively. 18. The clutch and control assembly as claimed in claim 12 , wherein each of the locking members is a strut. 19. The clutch and control assembly as claimed in claim 12 , wherein the selector plate is an apertured selector plate. 20. The clutch and control assembly as claimed in claim 12 , wherein the first clutch face also having a sensor pocket which receives the sensor. 21. The clutch and control assembly as claimed in claim 12 , wherein the position sensor is non-contact, inductive displacement sensor. 22. An overrunning clutch assembly rotatable about a longitudinal axis, comprising: a pocket plate including a pocket plate coupling face extending radially with respect to the longitudinal axis and having locking member pockets; a notch plate including a notch plate coupling face extending radially with respect to the longitudinal axis, facing the pocket plate coupling face of the pocket plate, and having locking formations; locking members in the locking member pockets of the pocket plate coupling face of the pocket plate and selectively engageable with the locking formations of the notch plate coupling face of the notch plate; a rotatable selector plate rotatable about the longitudinal axis and located between the pocket plate and the notch plate to selectively control movement of the locking members into and out of engagement with the locking formations of the notch coupling face of the notch plate, and including a sensor aperture; and a rotary position sensor at least partially axially aligned with the sensor aperture of the selector plate to directly sense rotational position of the selector plate. 23. The overrunning clutch assembly of claim 22 , wherein the position sensor is carried in a sensor pocket in the pocket plate coupling face of the pocket plate. 24. The overrunning clutch assembly of claim 22 , wherein the position sensor extends through an aperture in an outer circumferentially extending side wall of the pocket plate. 25. The overrunning clutch as