Translatable roller media aligning mechanism

What is claimed is: 1. A media conveying system for aligning a media sheet in a media path of an apparatus, comprising: a reference edge positioned along a side of the media path, the media path having a starting location and an ending location, the media sheet moves in the media path in a media feed direction; a first roll mounted across the media path; a second roll mounted relative to the first roll so as to define a first nip between the first roll and the second roll, one of the first and second rolls being a rotationally driven roll; a drive mechanism coupled to both the first and second rolls for translating the first and second rolls in a first direction other than the media feed direction such that the media sheet positioned in the first nip moves in the first direction towards the reference edge, the drive mechanism comprising: a motor operable in forward and reverse directions; and a bracket for mounting the first and second rolls, the bracket comprising a rack gear portion for receiving rotary power from the motor; at least one sensing device for detecting a location of the media sheet in the media path; and a controller communicatively coupled to the at least one sensing device and the drive mechanism for controlling a translation of the first and second rolls based upon the detected location of the media sheet, wherein rotational movement of the motor causes movement of the bracket in the first direction towards the reference edge, and wherein the at least one sensing device detects a location of a leading edge of the media sheet in the media path, and the controller receives data from the at least one sensing device such that following a positive detection and following the leading edge of the media sheet moving a predetermined distance from the at least one sensing device in the media feed direction, the controller controls the drive mechanism to translate the second roll a first distance in the first direction from a home position towards the reference edge. 2. The system of claim 1 , further comprising: a third roll mounted across the media path; and a fourth roll mounted relative to the third roll so as to define a second nip between the third and the fourth rolls, one of the third and fourth rolls being a driven roll of the second nip, the driven roll of the second nip rotates together with the driven roll of the first nip; wherein the second nip is positioned laterally adjacent to the first nip. 3. The system of claim 1 , wherein the controller further receives data from the at least one sensing device detecting a location of a trailing edge of the media sheet in the media path, and following a positive detection of the location of the trailing edge of the media sheet by the at least one sensing device, the controller controls the drive mechanism to translate the second roll a second distance in a second direction away from the reference edge and towards the home position, and wherein the first distance is substantially equal to the second distance. 4. The system of claim 3 , wherein following a positive detection of the location of the trailing edge of the media sheet and following the trailing edge of the media sheet moving a second predetermined distance from the at least one sensing device, the controller controls the drive mechanism to translate the second roll the second distance towards the home position. 5. The system of claim 4 , wherein the second predetermined distance is about 40 mm. 6. The system of claim 1 , further comprising a second sensing device communicatively coupled to the controller and positioned adjacent to the reference edge for detecting a location of a lateral edge of the media sheet, and upon a positive detection of the location of the lateral edge of the media sheet, the controller controls the drive mechanism to stop movement of the second roll toward the reference edge. 7. The system of claim 1 , wherein the second roll has a length shorter than the first roll. 8. The system of claim 1 , wherein the apparatus includes a finishing device positioned further downstream along the media path for performing a finishing operation. 9. The system of claim 8 , wherein the finishing device is a hole puncher. 10. The system of claim 1 , wherein the predetermined distance is between about 65 mm and about 70 mm. 11. A system to align a media sheet in a media path of an apparatus comprising: a media path having a starting location and an ending location, wherein media moves in the media path in a media feed direction; a reference edge positioned along a side of the media path; a first roll mounted across the media path; a second roll mounted relative to the first roll so as to define a first nip between the first roll and the second roll, one of the first and second rolls being a driven roll; and a drive mechanism coupled to only the other of the first and second rolls which is not the driven roll for translating the other of the first and second rolls, the other of the first and second rolls being translated only in a first direction other than the media feed direction after the media sheet enters the first nip such that the media sheet positioned in the first nip moves in the first direction towards the reference edge, the drive mechanism comprising: a motor operable in forward and reverse directions; and a bracket for mounting the other of the first and second rolls, comprising a rack gear portion receiving rotary power from the motor; at least one sensing device for detecting a location of the media sheet in the media path; and a controller communicatively coupled to the at least one sensing device and the drive mechanism, for controlling a translation of the drive mechanism such that the drive mechanism translates the other of the first and second rolls mounted on the bracket based upon the detected location of the media sheet, wherein rotational movement of the motor causes movement of the bracket in the first direction, and wherein the at least one sensing device detects a location of a leading edge of the media sheet in the media path, and following a positive detection of the location of the leading edge of the media sheet and the leading edge of the media sheet moving a predetermined distance from the at least one sensing device in the media feed direction, the controller controls the drive mechanism to translate the other of the first roll and the second roll a first distance in the first direction from a home position towards the reference edge. 12. The system of claim 11 , wherein the second roll has a length shorter than the first roll. 13. The system of claim 11 , further comprising: a third roll mounted across the media path; and a fourth roll mounted relative to the third roll so as to define a second nip between the third and the fourth rolls, one of the third and fourth rolls being a driven roll of the second nip, the driven roll of the second nip rotates together with the driven roll of the first nip; wherein the second nip is positioned laterally adjacent to the first nip. 14. The system of claim 11 , wherein the at least one sensing device detects a location of a trailing edge of the media sheet in the media path, and following a positive detection of the location of the trailing edge of the media sheet, the controller controls the drive mechanism to translate the other of the first roll and the second roll a second distance in a second direction away from the reference edge and towards the home position, and wherein the first distance is substantially equal to the second distance. 15. The system of claim 11 , further comprising a se