Mismatched nozzle rows for single-pass monochrome printing at high speeds

The invention claimed is: 1. A method of printing an image from a print chip having a plurality of horizontal nozzle rows, each nozzle row having a main row portion and a corresponding dropped row portion that does not overlap with the main row portion, the method comprising the steps of: allocating first dot data for an image line of the image to nozzles of the main row portion of the first nozzle row; allocating second dot data for the image line to nozzles of the dropped row portion of a second nozzle row; sending the first dot data to the print chip and firing droplets, based on the first dot data, from nozzles of the main row portion of the first nozzle row; sending the second dot data to the print chip and firing droplets, based on the second dot data, from nozzles of the dropped row portion of the second nozzle row, wherein: each nozzle row of the print chip has a same number of nozzles N; and the first nozzle row and the second nozzle row are non-corresponding nozzle rows, such that a number of nozzles contained in the main portion of the first nozzle row and a number of nozzles contained in the dropped row portion of the second nozzle row together is greater or fewer than N nozzles. 2. The method of claim 1 , wherein the second nozzle row of the dropped row portion contains a greater number of nozzles than a first nozzle row of the dropped row portion corresponding to the first nozzle row of the main row portion. 3. The method of claim 2 , wherein only nozzles from the second nozzle row of the dropped row portion that are aligned with nozzles from first nozzle row of the main row portion are used for firing droplets. 4. The method of claim 2 , wherein all nozzles from the second nozzle row of the dropped row portion are used for firing droplets, such that one or more pixels are printed by both a nozzle from the main row portion and a nozzle from the dropped row portion. 5. The method of claim 1 , further comprising the steps of: allocating third dot data for the image line of the image to nozzles of a third nozzle row of the main row portion; allocating fourth dot data for the image line of the image to nozzles of a fourth nozzle row of the dropped row portion; sending the third dot data to the print chip and firing droplets, based on the third dot data, from nozzles of the main row portion of the third nozzle row; sending the fourth dot data to the print chip and firing droplets, based on the fourth dot data, from nozzles of the dropped row portion of the fourth nozzle row, wherein the third nozzle row and the fourth nozzle row are non-corresponding nozzle rows, such that a number of nozzles contained in the main portion of the third nozzle row and a number of nozzles contained in the dropped row portion of the fourth nozzle row together is greater or fewer than N nozzles. 6. The method of claim 5 , wherein the first and second dot data correspond to even pixels of the image line, and wherein the third and fourth dot data correspond to odd pixels of the image line, or vice versa. 7. The method of claim 6 , wherein; the main row portion of the first nozzle row and the dropped row portion of the second nozzle row together contain greater than N nozzles; and the main row portion of the third nozzle row and the main row portion of the fourth nozzle row together contain fewer than N nozzles. 8. The method of claim 1 , wherein: one or more bits of the first dot data correspond to pixels of the image line aligned with the dropped row portion; and one or more bits of the second dot data correspond to pixels of the image line aligned with the main row portion. 9. The method of claim 8 , wherein said bits of the first dot data are allocated to nozzles of the main portion proximal the dropped row portion. 10. The method of claim 8 , wherein said bits of the second dot data are allocated to nozzles of the dropped row portion proximal the main row portion. 11. The method of claim 8 , wherein the dropped nozzle portion has a plurality of columnar zones, and said one or more bits of second dot data are ramped across the columnar zones towards the main nozzle portion. 12. The method of claim 1 , wherein allocation of first and second dot data to nozzles of the main row portion and dropped row portion is performed in a printer controller communicating with the print chip. 13. The method of claim 1 , wherein the print chip has redundant nozzle rows. 14. The method of claim 1 , wherein the print chip is a monochrome print chip having all nozzle rows supplied with a same color ink. 15. The method of claim 1 , wherein the second dot data is sent to the print chip subsequent to the first dot data. 16. The method of claim 1 , wherein the dot data comprises a ‘1’ for an enabled firing nozzle and a ‘0’ for a non-enabled non-firing nozzle.