Active brake confirmation for active transfer cases

The invention claimed is: 1. An active transfer case configured for use in a 4WD motor vehicle to permit “on-demand” transfer of drive torque from a powertrain to front and rear drivelines comprising: an input shaft adapted to receive drive torque from the powertrain; a rear output shaft adapted for connection to the rear driveline and configured to be driven by the input shaft; a front output shaft adapted for connection to the front driveline; a transfer mechanism driven by one of the front and rear output shafts; a multi-plate clutch assembly disposed between the transfer mechanism and the other one of the front and rear output shafts; a clutch actuation mechanism operable to selectively apply a clutch engagement force to the clutch assembly; a power-operated clutch actuator operable to actuate the clutch actuation mechanism; a power-operated actuator brake operable to selectively brake a moveable component associated with one of the clutch actuation mechanism and the clutch actuator; and a control system operable to control coordinated actuation of both the clutch actuator and the actuator brake, wherein the control system is configured to conduct a preemptive or “active” brake functionality check to determine the functionality of the actuator brake. 2. The active transfer case of claim 1 , wherein the power-operated clutch actuator includes an electric motor having a motor shaft operable to drive the clutch actuation mechanism, and wherein the power-operated actuator brake is operable in a power-on released state to permit rotation of the motor shaft and in a power-off engaged state to brake rotation of the motor shaft. 3. The active transfer case of claim 2 , wherein the active brake functionality check includes energizing the electric motor while the actuator brake is maintained in its power-off engaged state and detecting whether the motor shaft has rotated from its braked position. 4. The active transfer case of claim 3 , wherein rotation of the motor shaft beyond a threshold value during the active brake functionality check indicates a malfunction of the actuator brake. 5. The active transfer case of claim 4 , wherein the active brake functionality check can be conducted a plurality of consecutive times prior to indication of the malfunction being established. 6. The active transfer case of claim 2 , wherein a method for conducting the active brake functionality check includes the steps of: requesting clutch assembly engagement; releasing the actuator brake and energizing the electric motor to drive the motor shaft to a position corresponding to the clutch engagement request; de-energizing the electric motor and de-energizing the actuator brake so as to shift the actuator brake into its power-off engaged state; determining a desired braked position (P1) of the motor shaft; re-energizing the electric motor in attempt to rotate the motor shaft while actuator brake is engaged; determining a check position (P3) of the motor shaft; calculating a difference value P1—P3; comparing difference value to threshold value; and determining a malfunction of the actuator brake if the difference value is greater than the threshold value. 7. The active transfer case of claim 6 , wherein the method for conducting the active brake functionality check further includes the steps of: mechanically holding the motor shaft in an actual position (P2) as determined by a position sensor during the step of de-energizing the electric motor; calculating a difference value P1—P2; determining if the difference value between P1 and P2 exceeds a threshold value; and notifying vehicle operator if difference value P1—P2 exceeds threshold value. 8. The active transfer case of claim 7 , wherein the method for conducting the active brake functionality check further includes the steps of: conducting an active brake check if difference value P1—P2 is below threshold value; and wherein the active brake check begins with the step of re-energizing the electric motor in attempt to rotate the motor shaft while actuator brake is engaged. 9. The active transfer case of claim 6 , wherein the method for conducting the active brake functionality check further including the steps of: notifying vehicle operator if difference value P1 —P3 exceeds threshold value. 10. The active transfer case of claim 9 , wherein the method for conducting the active brake functionality check further including the steps of: automatically repeating the brake functionality check if difference value P1 —P3 is below threshold value. 11. An active transfer case configured for use in a 4WD motor vehicle to permit “on-demand” transfer of drive torque from a powertrain to front and rear drivelines comprising: an input shaft adapted to receive drive torque from the powertrain; a rear output shaft adapted for connection to the rear driveline and configured to be driven by the input shaft; a front output shaft adapted for connection to the front driveline; a transfer mechanism driven by one of the front and rear output shafts; a clutch assembly disposed between the transfer mechanism and the other one of the front and rear output shafts; a clutch actuation mechanism operable to selectively apply a clutch engagement force to the clutch assembly; a power-operated clutch actuator operable to actuate the clutch actuation mechanism; a power-operated actuator brake operable to selectively brake a moveable component associated with one of the clutch actuation mechanism and the clutch actuator, wherein the power-operated actuator brake is operable in a power-on released state to permit movement of the moveable component and in a power-off engaged state to brake movement of the moveable component; and a control system configured to conduct an “active” brake functionality check by energizing the power-operated clutch actuator while the actuator brake is maintained in a power-off engaged state and detecting movement of the moveable component from a braked position. 12. The active transfer case of claim 11 , wherein the power-operated clutch actuator includes an electric motor and the moveable component includes an armature shaft operable by the electric motor to drive the clutch actuation mechanism, and wherein the active brake functionality check includes energizing the electric motor while the actuator brake is maintained in its power-off engaged state and detecting whether the armature shaft has rotated from its braked position. 13. The active transfer case of claim 12 , wherein the power-operated actuator brake further includes a magnetic brake disc, an electromagnetic coil, and a brake spring each defining a central aperture sized to permit the armature shaft to pass therethrough. 14. The active transfer case of claim 13 , wherein the power-operated actuator brake further includes a drive plate in common rotation with the armature shaft. 15. The active transfer case of claim 14 , wherein the “active” brake functionality check further includes placing the coil in a de-energized state such that the brake spring forcibly biases the brake disk with the drive plate and places the power-operated actuator brake into the power-off engaged state, whereby the armature shaft is braked against rotation. 16. The active transfer case of claim 15 , wherein the “active” brake functionality check further includes energizing the coil such that a magnetic force is generated and retracts the brake disc out of engagement with the drive plate and places the power-operated actuator brake in the power-on released state. 17. The active