Electromagnetic coil system and methods

The invention claimed is: 1. A method of operating an electromagnetic coil assembly, comprising: responsive to energization of an electromagnetic coil of the electromagnetic coil assembly, translating the electromagnetic coil along a central axis of the electromagnetic coil assembly toward a magnetic armature while maintaining the armature fixed along the central axis. 2. The method of claim 1 , wherein translating the electromagnetic coil includes translating the electromagnetic coil along the central axis, toward the armature, to close an air gap between the electromagnetic coil and the armature such that the electromagnetic coil directly contacts the armature. 3. The method of claim 2 , further comprising upon closure of the air gap, slowing rotation of the armature to actuate a secondary mechanism combined with the armature. 4. The method of claim 1 , further comprising supplying electrical current to the electromagnetic coil to energize the electromagnetic coil. 5. The method of claim 4 , further comprising, as the electromagnetic coil translates closer to the armature, reducing an amount of the electrical current supplied to the electromagnetic coil as a function of an air gap distance between the electromagnetic coil and the armature. 6. The method of claim 4 , further comprising, during the translating, when an air gap between the electromagnetic coil and the armature is zero, reducing an amount of the electrical current supplied to the electromagnetic coil. 7. The method of claim 4 , further comprising stopping the supply of electrical current to de-energize the electromagnetic coil and translate the electromagnetic coil out of contact with and away from the armature. 8. The method of claim 1 , wherein the electromagnetic coil assembly is part of an electromagnetic pulse disconnect assembly where the armature is directly coupled to a cam including a plurality of ramps that interface with guides of a shifter and wherein a clutch ring is coupled to the shifter. 9. The method of claim 8 , wherein translating the electromagnetic coil includes translating the electromagnetic coil along the central axis, toward the armature, to close an air gap between the electromagnetic coil and the armature such that the electromagnetic coil directly contacts the armature, and further comprising, upon closure of the air gap, slowing rotation of the armature and thereby sliding the guides along the plurality of ramps to translate the shifter and clutch ring along the central axis, away from the cam. 10. An electromagnetic coil assembly, comprising: an electromagnetic coil adapted to translate in an axial direction with respect to a central axis of the electromagnetic coil assembly and including a plurality of legs spaced circumferentially around an exterior of the electromagnetic coil, where each leg of the plurality of legs includes a spring providing one or more of a coil return force and an electrical connection to the electromagnetic coil; and a magnetic armature that is translationally fixed in the axial direction, where an air gap is positioned between the electromagnetic coil and the armature when the electromagnetic coil is de-energized and, upon energization of the electromagnetic coil, the electromagnetic coil translates towards the armature to close the air gap. 11. The electromagnetic coil assembly of claim 10 , wherein the electromagnetic coil is rotationally fixed and wherein a first spring of a first leg of the plurality of legs and a second spring of a second leg of the plurality of legs are adapted to be electrically coupled with a controller. 12. The electromagnetic coil assembly of claim 11 , wherein a third spring of a third leg of the plurality of legs does not electrically couple the electromagnetic coil to the controller and wherein the first, second, and third springs provide a balanced spring force to maintain the air gap when the electromagnetic coil is de-energized. 13. The electromagnetic coil assembly of claim 10 , wherein the spring of each leg is a linear spring and wherein a first end of the spring is coupled to the electromagnetic coil and a second end of the spring interfaces with an axial face of the armature. 14. The electromagnetic coil assembly of claim 10 , wherein the armature is coupled with a cam including a series of bi-directional ramps, and further comprising a shifter including a plurality of axially extending guides interfacing with the cam between each of the series of bi-directional ramps and a clutch ring coupled to the shifter.