Printing apparatus, printing method and storage medium

The invention claimed is: 1. A printing apparatus comprising: a plurality of print element arrays that comprise a plurality of printing elements that are arranged in arrays and that are used for discharging ink, the plurality of print element arrays being placed side by side in a direction crossing the direction of the print element arrays; a relative movement unit configured to cause relative movement between the plurality of print element arrays and a print medium that faces the plurality of print element arrays in the crossing direction; and a drive unit configured to drive the plurality of printing elements of the plurality of print element arrays by time-divisional driving in which the drive timing differs for each specified number of printing elements in a specified drive sequence, wherein the plurality of printing elements of a specified print element array from among the plurality of print element arrays that discharges a specified type of ink are arranged so as to take on relative displacement amounts in the crossing direction according to a first drive sequence for the specified print element array in the time-divisional driving, the drive unit drives the plurality of printing elements of the specified print element array by the time-divisional driving to which the first drive sequence is applied so that dots are arranged in a linear shape based on image data that indicates a pixel array in the array direction that is formed in a specified area of a print medium, and the drive unit drives, by the time-divisional driving, the plurality of printing elements of a different print element array other than the specified print element array of the plurality of print element arrays so that dots based on image data that indicates a pixel array in the array direction that is formed in the specified area are printed in positions displaced by relative displacement amounts in the crossing direction according to drive timing between the plurality of printing elements. 2. The printing apparatus according to claim 1 , wherein the plurality of printing elements of the different print element array are arranged so as to take on relative displacement amounts with respect to each other according to the first drive sequence, and the drive unit drives the plurality of printing elements of the different print element array by applying a second drive sequence that differs from the first drive sequence in the time-divisional driving. 3. The printing apparatus according to claim 2 , wherein the second drive sequence is set so that the number obtained by adding the sequence order number in the first drive sequence and the sequence order number in the second drive sequence for each of the plurality of printing elements is one less than the number of the drive timing divisions in the time-divisional driving. 4. The printing apparatus according to claim 1 , wherein the plurality of printing elements of the different print element array are arranged in a straight line, and the drive unit drives the plurality of printing elements of the different print element array by applying the first drive sequence in the time-divisional driving. 5. The printing apparatus according to claim 1 , wherein the relative displacement amounts in the crossing direction according to the drive timing between the plurality of printing elements are set based on the drive sequence order numbers of each of the plurality of printing elements in the first drive sequence, and the image resolution in the direction of relative movement that is achieved on the print medium. 6. The printing apparatus according to claim 1 , further comprising a plurality of print heads installed with each print element array from among the plurality of print element arrays. 7. The printing apparatus according to claim 1 , wherein each print element array from among the plurality of print element arrays discharges different ink, respectively. 8. The printing apparatus according to claim 1 , wherein the specified print element array and the different print element array discharge different ink, respectively. 9. The printing apparatus according to claim 8 , wherein the specified print element array discharges ink having the highest density among the plurality of print element arrays. 10. The printing apparatus according to claim 9 , further comprising a determination unit configured to determine whether to discharge ink having the highest density or to discharge other ink from the plurality of print element arrays. 11. The printing apparatus according to claim 9 , wherein the ink having the highest density is black ink, and the specified print element array discharges the black ink. 12. The printing apparatus according to claim 1 , wherein each of the plurality of printing elements has a discharge port and a thermal energy generating element for generating thermal energy for discharging ink from the discharge port, and the drive unit drives the plurality of printing elements by causing the corresponding thermal energy generating element to generate thermal energy. 13. The printing apparatus according to claim 1 , wherein the relative movement unit conveys the print medium in the crossing direction of the plurality of print element arrays with the printing element arrays being stationary. 14. A printing method for use with a plurality of print element arrays that comprise a plurality of printing elements that are arranged in arrays and that are used for discharging ink, the plurality of print element arrays being placed side by side in a direction crossing the direction of the print element arrays, the printing method comprising the steps of: causing relative movement between the plurality of print element arrays and a print medium that faces the plurality of print element arrays in the crossing direction; and driving the plurality of printing elements of the plurality of print element arrays by time-divisional driving in which the drive timing differs for each specified number of printing elements in a specified drive sequence; wherein the plurality of printing elements of a specified print element array from among the plurality of print element arrays that discharges a specified type of ink are arranged so as to take on relative displacement amounts in the crossing direction according to a first drive sequence for the specified print element array in the time-divisional driving, by the step of driving, the plurality of printing elements of the specified print element array are driven by the time-divisional driving to which the first drive sequence is applied so that dots are arranged in a linear shape based on image data that indicates a pixel array in the array direction that is formed in a specified area of a print medium, and by the step of driving, the plurality of printing elements of a different print element array other than the specified print element array of the plurality of print element arrays are driven by the time-divisional driving so that dots based on image data that indicates a pixel array in the array direction that is formed in the specified area are printed in positions displaced by relative displacement amounts in the crossing direction according to drive timing between the plurality of printing elements. 15. The printing method according to claim 14 , wherein the plurality of printing elements of the different print element array are arranged so as to take on relative displacement amounts with respect to each other according to the first drive sequence, and by the step of driving, the plurality of printing elements of the different