Vacuum media drum transport system with shutter for multiple media sizes

What is claimed: 1. A media transport system comprising: a drum having an arrangement of a plurality of rows of holes through the drum, each row of holes in the plurality of rows having at least one inter-copy gap that corresponds to a length of media sheet, the drum being configured for rotation in a process direction; a vacuum plenum positioned within the drum opposite a printhead; a vacuum source configured to pull air through holes in the drum opposite the vacuum plenum; and a shutter positioned within the vacuum plenum and interposed between the vacuum plenum and the drum, the shutter having a member with at least one aperture, a solid portion of the member preventing a flow of air between the vacuum plenum and a portion of the drum positioned opposite the solid portion of the shutter, the shutter being configured for movement in a cross-direction to enable the at least one aperture in the shutter to be aligned with at least one row of holes in the drum and selectively attenuate a flow of air from the holes in the at least one row of holes aligned with the at least one aperture in response to the at least one inter-copy gap in the at least one row being opposite the at least one aperture in the shutter. 2. The media transport system of claim 1 further comprising: an actuator operatively connected to the shutter; and a controller operatively connected to the actuator, the controller being configured to operate the actuator to move the shutter in the cross-process direction. 3. The media transport system of claim 2 , the controller being further configured to detect a size of a media sheet and operate the actuator to move the shutter in the cross-process direction to enable the at least one aperture to align with the at least one row of holes in the drum having the inter-copy gap that corresponds to the detected media sheet size. 4. The media transport system of claim 1 , the shutter further comprising: a plurality of apertures in the member of the shutter, the apertures being positioned in the member at a predetermined distance in the cross-process direction to correspond with the rows of holes in the drum that have inter-copy gaps that correspond to the same size of media sheets. 5. The media transport system of claim 1 wherein each aperture in the shutter has a predetermined length in the process direction that corresponds to a predetermined length of the at least one inter-copy gap in the rows of holes in the drum. 6. The media transport system of claim 1 wherein the inter-copy gaps in the plurality of rows of holes correspond to a plurality of media sheet sizes. 7. The media transport system of claim 6 wherein the inter-copy gaps in one row of holes in the drum correspond to a media size that is different than the media size to which the inter-copy gaps in an adjacent row of holes correspond. 8. The media transport system of claim 1 wherein in the vacuum plenum has a plurality of apertures, each aperture in the plurality of apertures corresponding to a different row of holes in the drum. 9. A printer comprising: at least one printhead; a drum having an arrangement of a plurality of rows of holes through the drum, each row of holes in the plurality of rows having at least one inter-copy gap that corresponds to a length of media sheet, the drum being configured for rotation in a process direction past the printhead to enable the printhead to eject marking material onto media sheets carried by the drum; a vacuum plenum positioned within the drum opposite the printhead; a vacuum source configured to pull air through holes in the drum opposite the vacuum plenum; and a shutter positioned within the vacuum plenum and interposed between the vacuum plenum and the drum, the shutter having a member with at least one aperture, a solid portion of the member preventing a flow of air between the vacuum plenum and a portion of the drum positioned opposite the solid portion of the shutter, the shutter being configured for movement in a cross-direction to enable the at least one aperture in the shutter to be aligned with at least one row of holes in the drum and selectively attenuate a flow of air from the holes in the at least one row of holes aligned with the at least one aperture in response to the at least one inter-copy gap in the at least one row being opposite the at least one aperture in the shutter. 10. The printer of claim 9 further comprising: an actuator operatively connected to the shutter; and a controller operatively connected to the actuator, the controller being configured to operate the actuator to move the shutter in the cross-process direction. 11. The printer of claim 10 , the controller being further configured to detect a size of a media sheet and operate the actuator to move the shutter in the cross-process direction to enable the at least one aperture to align with the at least one row of holes in the drum having the inter-copy gap that corresponds to the detected media sheet size. 12. The printer of claim 9 , the shutter further comprising: a plurality of apertures in the member of the shutter, the apertures being positioned in the member at a predetermined distance in the cross-process direction to correspond with the rows of holes in the drum that have inter-copy gaps that correspond to the same size of media sheets. 13. The printer of claim 9 wherein each aperture in the shutter has a predetermined length in the process direction that corresponds to a predetermined length of the at least one inter-copy gap in the rows of holes in the drum. 14. The printer of claim 9 wherein the inter-copy gaps in the plurality of rows of holes correspond to a plurality of media sheet sizes. 15. The printer of claim 14 wherein the inter-copy gaps in one row of holes in the drum correspond to a media size that is different than the media size to which the inter-copy gaps in an adjacent row of holes correspond. 16. The printer of claim 9 wherein in the vacuum plenum has a plurality of apertures, each aperture in the plurality of apertures corresponding to a different row of holes in the drum. 17. A method of operating a printer having a drum configured with a plurality of rows of holes, each row of holes in the plurality of rows having at least one inter-copy gap that corresponds to a length of media sheet, the drum being configured for rotation in a process direction past the printhead to enable the printhead to eject marking material onto media sheets carried by the drum, the method comprising: operating a vacuum source to pull air through holes in the drum opposite a vacuum plenum positioned within the drum opposite the printhead; and moving a shutter positioned within the vacuum plenum and interposed between the vacuum plenum and the drum in a cross-process direction to enable a solid portion of a member of the shutter to prevent a flow of air between the vacuum plenum and a portion of the drum positioned opposite the solid portion of the shutter and to enable at least one aperture in the shutter to be aligned with at least one row of holes in the drum to attenuate selectively a flow of air from the holes in the at least one row of holes aligned with the at least one aperture in response to the at least one inter-copy gap in the at least one row being opposite the at least one aperture in the shutter. 18. The method of claim 17 , the moving of the shutter further comprising: detecting with a controller a size of a media sheet; and operating with the controller an actuator operatively connected to the shutter to move the shutter in