Method and apparatus for translating coupling features of a plug-in unit

The invention claimed is: 1. A motor control system, comprising: an arc flash resistant enclosure; a plug-in unit disposed within the arc flash resistant enclosure; a stab assembly of the plug-in unit, the stab assembly comprising at least one stab; a stab translation mechanism of the plug-in unit, the stab translation mechanism configured to rotate the at least one stab about an axis of the at least one stab from a retracted position to an extended position; and an actuator configured to activate the stab translation mechanism from outside of the arc flash resistant enclosure, wherein the stab assembly comprises a shaft formed from a plurality of shaft segments configured to move horizontally relative to one another along an axis of the shaft. 2. The motor control system of claim 1 , wherein the stab translation mechanism is configured to be remotely operated via a control system, wherein the actuator comprises a user interface disposed outside of the arc flash resistant enclosure and configured to communicate with the control system. 3. The motor control system of claim 1 , wherein the stab translation mechanism is electrically driven, manually driven, or pneumatically driven. 4. The motor control system of claim 1 , wherein the at least one stab comprises a plurality of angled stab contact leads. 5. The motor control system of claim 1 , wherein the stab assembly comprises a molded shaft. 6. The motor control system of claim 1 , comprising a disengagement feedback system configured to provide an indication that the at least one stab is in the retracted position. 7. The motor control system of claim 6 , wherein the disengagement feedback system comprises an electrical feedback system, the electrical feedback system including an electrical circuit that is configured to be closed by contact with the at least one stab when the at least one stab is in the retracted position. 8. The motor control system of claim 6 , wherein the disengagement feedback system comprises a mechanical lockout, where actuation of the mechanical lockout prevents translation of the at least one stab from the retracted position to the extended position. 9. The motor control system of claim 1 , wherein the stab translation mechanism comprises a rack and a pinion. 10. The motor control system of claim 1 , wherein the plug-in unit comprises a shutter assembly configured to enclose the at least one stab within the plug-in unit when the at least one stab is in the retracted position. 11. The motor control system of claim 1 , wherein the at least one stab comprises: a first plurality of stab leads, wherein each stab lead of the first plurality of stab leads is angled outward relative to a central axis of the at least one stab; and a second plurality of stab leads, wherein each stab lead of the second plurality of stab leads is angled outward relative to the central axis of the at least one stab, and wherein each stab lead of the second plurality of stab leads is angled downward relative to the central axis of the at least one stab when the at least one stab is in the extended position. 12. The motor control system of claim 11 , wherein the second plurality of stab leads is configured to contact a bus bar before the first plurality of stab leads contacts the bus bar when the at least one stab is rotated from the retracted position to the extended position. 13. The motor control system of claim 11 , wherein the first plurality of stab leads is above the second plurality of stab leads relative to the central axis of the at least one stab. 14. A motor control system, comprising: an arc flash resistant enclosure; a plug-in unit disposed within the arc flash resistant enclosure; a stab assembly of the plug-in unit, the stab assembly comprising at least one stab; a stab translation mechanism of the plug-in unit, the stab translation mechanism configured to rotate the at least one stab about an axis of the at least one stab from a retracted position to an extended position; and an actuator configured to activate the stab translation mechanism from outside of the arc flash resistant enclosure, wherein the at least one stab comprises: a first plurality of stab leads, wherein each stab lead of the first plurality of stab leads is angled outward relative to a central axis of the at least one stab; and a second plurality of stab leads, wherein each stab lead of the second plurality of stab leads is angled outward relative to the central axis of the at least one stab, and wherein each stab lead of the second plurality of stab leads is angled downward relative to the central axis of the at least one stab when the at least one stab is in the extended position. 15. The motor control system of claim 14 , wherein the second plurality of stab leads is configured to contact a bus bar before the first plurality of stab leads contacts the bus bar when the at least one stab is rotated from the retracted position to the extended position. 16. The motor control system of claim 14 , wherein the first plurality of stab leads is above the second plurality of stab leads relative to the central axis of the at least one stab. 17. The motor control system of claim 14 , wherein the stab translation mechanism is configured to be remotely operated via a control system, wherein the actuator comprises a user interface disposed outside of the arc flash resistant enclosure and configured to communicate with the control system. 18. The motor control system of claim 14 , wherein the stab assembly comprises a molded shaft. 19. The motor control system of claim 14 , comprising a disengagement feedback system configured to provide an indication that the at least one stab is in the retracted position. 20. The motor control system of claim 19 , wherein the disengagement feedback system comprises an electrical feedback system, the electrical feedback system including an electrical circuit that is configured to be closed by contact with the at least one stab when the at least one stab is in the retracted position.