Actuator with residual magnetic hysteresis reset

The invention claimed is: 1. A method for controlling an electromagnetic actuator, comprising: driving current though an electrical coil of the actuator in a first direction when an actuation is desired; and, when the actuation is not desired driving current through the electrical coil including in a second direction sufficient to reduce residual flux within the actuator below a level passively attained within the actuator at zero coil current. 2. The method for controlling an electromagnetic actuator of claim 1 , wherein driving current through the electrical coil including in a second direction occurs only after the actuator has returned to a rest position. 3. The method for controlling an electromagnetic actuator of claim 1 , wherein driving current through the electrical coil including in a second direction comprises: driving current alternately between the second direction and the first direction. 4. The method for controlling an electromagnetic actuator of claim 3 , wherein driving current alternately between the second direction and the first direction comprises exponentially decaying the driving current. 5. The method for controlling an electromagnetic actuator of claim 3 , wherein driving current alternately between the second direction and the first direction occurs only after the actuator has returned to a rest position, further comprising driving current alternately between the second direction and the first direction sufficient to reduce armature bounce. 6. The method for controlling an electromagnetic actuator of claim 3 , wherein driving current alternately between the second direction and the first direction comprises driving current in a sinusoidal fashion. 7. The method for controlling an electromagnetic actuator of claim 3 , wherein driving current alternately between the second direction and the first direction comprises driving current in a square wave fashion. 8. The method for controlling an electromagnetic actuator of claim 3 , wherein driving current alternately between the second direction and the first direction comprises driving current in a sawtooth fashion. 9. An electromagnetic actuation system, comprising: an electrical coil; a magnetic core; an armature; a controllable bi-directional drive circuit for selectively driving current through the coil in either of two directions; and a control module providing an actuator command to the drive circuit effective to drive current through the coil in a first direction when armature actuation is desired, and subsequent to armature actuation effective to drive current through the coil including in a second direction sufficient to oppose residual flux within the actuator. 10. The electromagnetic actuation system of claim 9 , wherein said control module provides said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator only after the actuator has returned to a rest position. 11. The electromagnetic actuation system of claim 9 , wherein said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator comprises said actuator command effective to drive current alternately between the second direction and the first direction. 12. The electromagnetic actuation system of claim 11 , wherein said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator comprises said actuator command effective to drive current alternately between the second direction and the first direction with an exponential decay. 13. The electromagnetic actuation system of claim 11 , wherein said control module provides said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator only after the actuator has returned to a rest position, further comprising said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to reduce armature bounce. 14. The electromagnetic actuation system of claim 11 , wherein said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator comprises said actuator command effective to drive current alternately between the second direction and the first direction in a sinusoidal fashion. 15. The electromagnetic actuation system of claim 11 , wherein said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator comprises said actuator command effective to drive current alternately between the second direction and the first direction in a square wave fashion. 16. The electromagnetic actuation system of claim 11 , wherein said control module providing said actuator command to the drive circuit subsequent to armature actuation effective to drive current through the coil including in the second direction sufficient to oppose residual flux within the actuator comprises said actuator command effective to drive current alternately between the second direction and the first direction in a saw tooth fashion. 17. A device for reducing residual flux in an electromagnetic actuator, comprising: a controllable bi-directional drive circuit configured for selectively driving current through the actuator in either of two directions; and a control module providing an actuator command to the drive circuit effective to drive current through the actuator in a first current direction to effect a magnetic flux through the actuator in a magnetic material flux path in a first direction when actuation is desired, and thereafter effective to drive current through the actuator in a second current direction to effect a magnetic flux through the actuator in a magnetic material flux path in a second direction opposite the first direction to oppose residual flux within the actuator.