Apparatus for controllably actuating a selectable coupling assembly having multiple operating modes

What is claimed is: 1. An apparatus for controllably actuating a selectable coupling assembly, the apparatus comprising: a bi-directionally movable, actuating shaft attachable to a movable element of the assembly to provide selective, small displacement element movement to linearly actuate the assembly; an excitation coil arranged to be magnetically coupled with the shaft and to controllably move the shaft between positions which correspond to different operating modes of the assembly; and a controller including a power inlet terminal adapted to receive electrical power from a vehicle DC power source, a command input terminal adapted to receive a command signal from an electronic control unit and a power switching and supply circuit coupled to the coil to switch and supply received electrical power to the excitation coil based on the command signal, wherein the shaft has sufficient actuating force to move the element and cause the assembly to change its operating mode when the electrical power energizes the excitation coil, wherein the controller also includes a coupling device coupled to the command input terminal to couple and electrically isolate the command input terminal and the power switching and supply circuit. 2. The apparatus as claimed in claim 1 , wherein the controller includes a microcontroller coupled to the command inlet terminal to receive the command signal and generate corresponding control signals for use by the power switching and supply circuit. 3. The apparatus as claimed in claim 1 , wherein the power switching and supply circuit includes a power transistor to alternately connect and disconnect the excitation coil from the received electrical power in response to a signal from the coupling device. 4. The apparatus as claimed in claim 2 , wherein the power switching and supply circuit includes a power transistor to alternately connect and disconnect the excitation coil from the received electrical power in response to a control signal from the microcontroller. 5. The apparatus as claimed in claim 1 , wherein the electronic control unit comprises a transmission electronic control unit. 6. The apparatus as claimed in claim 2 , wherein the apparatus further comprises a magnetic field sensor to sense magnetic flux and produce a position feedback signal which is based on the position of the movable element, wherein a variable magnetic field is generated in response to movement of the element when the assembly changes its operating mode. 7. The apparatus as claimed in claim 6 , wherein the sensor includes a magnetic sensing element. 8. The apparatus a claimed in claim 1 , wherein the element is a locking element which controls the operating mode of the assembly. 9. The apparatus as claimed in claim 6 , wherein the microcontroller receives the position feedback signal from the magnetic field sensor. 10. An apparatus for controllably actuating a selectable coupling assembly, the apparatus comprising: a bi-directionally movable, actuating shaft attachable to a movable element of the assembly to provide selective, small displacement element movement to linearly actuate the assembly; an excitation coil arranged to be magnetically coupled with the shaft and to controllably move the shaft between positions which correspond to different operating modes of the assembly; and a controller including a power inlet terminal adapted to receive electrical power from a vehicle DC power source, a command input terminal adapted to receive a command signal from an electronic control unit and a power switching and supply circuit coupled to the coil to switch and supply received electrical power to the excitation coil based on the command signal, wherein the shaft has sufficient actuating force to move the element and cause the assembly to change its operating mode when the electrical power energizes the excitation coil, wherein the controller also includes a microcontroller coupled to the command inlet terminal to receive the command signal and generate corresponding control signals for use by the power switching and supply circuit, and wherein the controller further includes a storage circuit coupled to the power inlet terminal and operative to store the received electrical power and supply the stored electrical power to the excitation coil in response to a command signal from the microcontroller. 11. The apparatus as claimed in claim 10 , wherein the storage circuit includes a capacitor to store the received electrical power. 12. An apparatus for controllably actuating a selectable coupling assembly, the apparatus comprising: a bi-directionally movable, actuating shaft attachable to a movable element of the assembly to provide selective, small displacement element movement to linearly actuate the assembly; an excitation coil arranged to be magnetically coupled with the shaft and to controllably move the shaft between positions which correspond to different operating modes of the assembly; and a controller including a power inlet terminal adapted to receive electrical power from a vehicle DC power source, a command input terminal adapted to receive a command signal from an electronic control unit and a power switching and supply circuit coupled to the coil to switch and supply received electrical power to the excitation coil based on the command signal, wherein the shaft has sufficient actuating force to move the element and cause the assembly to change its operating mode when the electrical power energizes the excitation coil, and wherein the controller also includes a microcontroller coupled to the command inlet terminal to receive the command signal and generate corresponding control signals for use by the power switching and supply circuit, and wherein the apparatus further comprises a magnetic field sensor to sense magnetic flux and produce a position feedback signal which is based on the position of the movable element, wherein a variable magnetic field is generated in response to movement of the element when the assembly changes its operating mode, and wherein the apparatus further comprises a voltage regulator coupled to the power inlet terminal to provide regulated voltage to the microcontroller and the magnetic field sensor. 13. An apparatus for controlling the operating mode of an overrunning coupling assembly, the apparatus comprising: a bi-directionally movable, actuating shaft attachable to a movable element of the assembly to provide selective, small displacement element movement to linearly actuate the assembly; an excitation coil arranged to be magnetically coupled with the shaft and to controllably move the shaft between positions which correspond to different operating modes of the assembly; and a controller including a power inlet terminal adapted to receive electrical power from a vehicle DC power source, a command input terminal adapted to receive a command signal from an electronic control unit and a power switching and supply circuit coupled to the coil to switch and supply received electrical power to the excitation coil based on the command signal, wherein the shaft has sufficient actuating force to move the element and cause the assembly to change its operating mode when the electrical power energizes the excitation coil, wherein the controller also includes a coupling device coupled to the command input terminal to couple and electrically isolate the command input terminal and the power switching and supply circuit. 14. The apparatus as claimed in claim 13 , wherein the controller includes a microcontroller coupled to the command inlet terminal to receive the command signal and generate corresponding control signals f