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A printhead module comprising at least first and second rows configured to print ink of a similar type or color, at least some nozzles in the first row being aligned with respective corresponding nozzles in the second row in a direction of intended media travel relative to the printhead, the printhe

A printhead module comprising at least first and second rows configured to print ink of a similar type or color, at least some nozzles in the first row being aligned with respective corresponding nozzles in the second row in a direction of intended media travel relative to the printhead, the printhead module being configurable such that the nozzles in the first and second rows are fired such that some dots output to print media are printed to by nozzles from the first row and at least some other dots output to print media are printed to by nozzles from the second row.

대표청구항 ▼

What is claimed is: 1. A printhead module for use in a printhead having a plurality of printhead modules, the print head module comprising: a first row of contiguous and evenly spaced nozzles for ejecting ink of a first type or colour, the first row of nozzles extending in a direction transverse to

What is claimed is: 1. A printhead module for use in a printhead having a plurality of printhead modules, the print head module comprising: a first row of contiguous and evenly spaced nozzles for ejecting ink of a first type or colour, the first row of nozzles extending in a direction transverse to a feed direction of print media past the printhead; and a second row of contiguous and evenly spaced nozzles for ejecting ink of a second type or colour different to the first type or colour, the second row of nozzles extending in the direction transverse to the feed direction of print media past the printhead, wherein each of the rows of nozzles includes an odd sub-row and an even sub-row, the nozzles in the odd sub-row being spatially offset with respect to the nozzles in the even sub-row in the direction transverse to the feed direction of print media past the printhead, the odd sub-row of nozzles includes a vertical alignment discontinuity, and the nozzles in the odd sub-row on one side of the vertical alignment discontinuity are displaced relative to nozzles in the same odd sub-row on an opposite side of the vertical alignment discontinuity in a direction of intended print media travel relative to the printhead, and the even sub-row of nozzles includes a vertical alignment discontinuity, and the nozzles in the even sub-row on one side of the vertical alignment discontinuity are displaced relative to nozzles in the same even sub-row on an opposite side of the vertical alignment discontinuity in a direction of intended print media travel relative to the printhead, wherein either the odd or even sub-row of nozzles of a row of nozzles on one side of the vertical alignment discontinuity is respectively overlapped with the even or odd sub-row of nozzles of the row of nozzles on the opposite side of the vertical alignment discontinuity in the travel direction of print media. 2. A printhead module according to claim 1, controllable such that either of the nozzles in each aligned pair of nozzles in the first and second rows can be selected to output ink for a selected dot to be printed on the print media. 3. A printhead module according to claim 2, wherein, in the event a nozzle in the first row is faulty, the corresponding nozzle in the second row is selected to output ink for a dot for which the faulty nozzle would otherwise have output ink. 4. A printhead module according to claim 2, including a plurality of sets of the first and second rows. 5. A printhead module according to claim 4, wherein each of the sets of the first and second rows is configured to print in a single color or ink type. 6. A printhead module according to claim 5, wherein the first and second rows in at least one of the sets are separated by one or more rows from the other set or sets. 7. A printhead module according to claim 1, configured such that the first and second rows are fired alternately. 8. A printhead comprising a plurality of printhead modules according to claim 1. 9. A printhead according to claim 8, the printhead being a pagewidth printhead. 10. A printhead module according to claim 1, configured to receive dot data to which a method of at least partially compensating for errors in ink dot placement by at least one of a plurality of nozzles due to erroneous rotational displacement of a printhead module relative to a carrier has been applied, the nozzles being disposed on the printhead module, the method comprising the steps of: (a) determining the rotational displacement; (b) determining at least one correction factor that at least partially compensates for the ink dot displacement; and (c) using the correction factor to alter the output of the ink dots to at least partially compensate for the rotational displacement. 11. A printhead module according to claim 1, configured to receive dot data to which a method of expelling ink has been applied, the method being applied to a printhead module including at least one row that comprises a plurality of adjacent sets of n adjacent nozzles, each of the nozzles being configured to expel ink in response to a fire signal, the method comprising providing, for each set of nozzles, a fire signal in accordance with the sequence: [nozzle position 1, nozzle position n, nozzle position 2, nozzle position (n-l), . . . , nozzle position x], wherein nozzle position x is at or adjacent the centre of the set of nozzles. 12. A printhead module according to claim 1, configured to receive dot data to which a method of expelling ink has been applied, the method being applied to a printhead module including at least one row that comprises a plurality of sets of n adjacent nozzles, each of the nozzles being configured to expel ink in response to a fire signal, the method comprising the steps of: (a) providing a fire signal to nozzles at a first and nth position in each set of nozzles; (b) providing a fire signal to the next inward pair of nozzles in each set; (c) in the event n is an even number, repeating step (b) until all of the nozzles in each set has been fired; and (d) in the event n is an odd number, repeating step (b) until all of the nozzles but a central nozzle in each set have been fired, and then firing the central nozzle. 13. A printhead module according to claim 1, having been manufactured in accordance with a method of manufacturing a plurality of printhead modules, at least some of which are capable of being combined in pairs to form bilithic pagewidth printheads, the method comprising the step of laying out each of the plurality of printhead modules on a wafer substrate, wherein at least one of the printhead modules is right-handed and at least another is left-handed. 14. A printhead module according to claim 1, including: at least one row of print nozzles; at least two shift registers for shifting in dot data supplied from a data source to each of the at least one rows, wherein each print nozzle obtains dot data to be fired from an element of one of the shift registers. 15. A printhead module according to claim 1, installed in a printer comprising: a printhead comprising at least the first elongate printhead module, the at least one printhead module including at least one row of print nozzles for expelling ink; and at least first and second printer controllers configured to receive print data and process the print data to output dot data to the printhead, wherein the first and second printer controllers are connected to a common input of the printhead. 16. A printhead module according to claim 1, installed in a printer comprising: a printhead comprising first and second elongate printhead modules, the printhead modules being parallel to each other and being disposed end to end on either side of a join region; at least first and second printer controllers configured to receive print data and process the print data to output dot data to the printhead, wherein the first printer controller outputs dot data only to the first printhead module and the second printer controller outputs dot data only to the second printhead module, wherein the printhead modules are configured such that no dot data passes between them. 17. A printhead module according to claim 1, installed in a printer comprising: a printhead comprising first and second elongate printehad modules, the printhead modules being parallel to each other and being disposed end to end on either side of a join region, wherein the first printhead module is longer than the second printhead module; at least first and second printer controllers configured to receive print data and process the print data to output dot data to the printhead, wherein: the first printer controller outputs dot data to both the first printhead module and the second printhead module; and the second printer controller outputs dot data only to the second printhead module. 18. A printhead module according to claim 1, installed in a printer comprising: a printhead comprising first and second elongate printhead modules, the printhead modules being parallel to each other and being disposed end to end on either side of a join region, wherein the first printhead module is longer than the second printhead module; at least first and second printer controllers configured to receive print data and process the print data to output dot data for the printhead, wherein: the first printer controller outputs dot data to both the first printhead module and the second controller; and the second printer controller outputs dot data to the second printhead module, wherein the dot data output by the second printer controller includes dot data it generates and at least some of the dot data received from the first printer controller. 19. A printhead module according to claim 1, in communication with a printer controller for supplying dot data to at least one printhead module and at least partially compensating for errors in ink dot placement by at least one of a plurality of nozzles on the printhead module due to erroneous rotational displacement of the printhead module relative to a carrier, the printer being configured to: access a correction factor associated with the at least one printhead module; determine an order in which at least some of the dot data is supplied to at least one of the at least one printhead modules, the order being determined at least partly on the basis of the correction factor, thereby to at least partially compensate for the rotational displacement; and supply the dot data to the printhead module. 20. A printhead module according to claim 1, in communication with a printer controller for supplying dot data to a printhead module having a plurality of nozzles for expelling ink, the printhead module including a plurality of thermal sensors, each of the thermal sensors being configured to respond to a a temperature at or adjacent at least one of the nozzles, the printer controller being configured to modify operation of at least some of the nozzles in response to the temperature rising above a first threshold. 21. A printhead module according to claim 1, in communication with a printer controller for controlling a printhead comprising at least one monolithic printhead module, the at least one printhead module having a plurality of rows of nozzles configured to extend, in use, across at least part of a printable pagewidth of the printhead, the nozzles in each row being grouped into at least first and second fire groups, the printhead module being configured to sequentially fire, for each row, the nozzles of each fire group, such that each nozzle in the sequence from each fire group is fired simultaneously with respective corresponding nozzles in the sequence in the other fire groups, wherein the nozzles are fired row by row such that the nozzles of each row are all fired before the nozzles of each subsequent row, wherein the printer controller is configured to provide one or more control signals that control the order of firing of the nozzles. 22. A printhead module according to claim 1, in communication with a printer controller for outputting to a printhead module: dot data to be printed with at least two different links; and control data for controlling printing of the dot data; the printer controller including at least one communication output, each or the communication output being configured to output at least some of the control data and at least some of the dot data for the at least two inks. 23. A printhead module according to claim 1, including at least one row of printhead nozzles, at least one row including at least one displaced row portion, the displacement of the row portion including a component in a direction normal to that of a pagewidth to be printed. 24. A printhead module according to claim 1, in communication with a printer controller for supplying print data to at least one printhead module capable of printing a maximum of n of channels of print data, the at least one printhead module being configurable into: a first mode, in which the printhead module is configured to receive data for a first number of the channels; and a second mode, in which the printhead module is configured to receive print data for a second number of the channels, wherein the first number is greater than the second number; wherein the printer controller is selectively configurable to supply dot data for the first and second modes. 25. A printhead module according to claim 1, in communication with a printer controller for supplying data to a printhead comprising a plurality of printhead modules, the printhead being wider than a reticle step used in forming the modules, the printhead comprising at least two types of the modules, wherein each type is determined by its geometric shape in plan. 26. A printhead module according to claim 1, used in conjunction with a printer controller for supplying one or more control signals to a printhead module, the printhead module including at least one row that comprises a plurality of sets of n adjacent nozzles, each of the nozzles being configured to expel ink in response to a fire signal, such that: (a) a fire signal is provided to nozzles at a first and nth position in each set of nozzles; (b) a fire signal is provided to the next inward pair of nozzles in each set; (c) in the event n is an even number, step (b) is repeated until all of the nozzles in each set has been fired; and (d) in the event n is an odd number, step (b) is repeated until all of the nozzles but a central nozzle in each set have been fired, and then the central nozzle is fired. 27. A printhead module according to claim 1, used in conjunction with a printer controller for supplying one or more control signals to a printhead module, the printhead module including at least one row that comprises a plurality of adjacent sets of n adjacent nozzles, each of the nozzles being configured to expel ink in response to a fire signal, the method comprising providing, for each set of nozzles, a fire signal in accordance with the sequence: [nozzle position 1, nozzle position n, nozzle position 2, nozzle position (n-l), . . . , nozzle position x], wherein nozzle position x is at or adjacent the centre of the set of nozzles. 28. A printhead module according to claim 1, in communication with a printer controller for supplying dot data to at least one printhead module, the at least one printhead module comprising a plurality of rows, each of the rows comprising a plurality of nozzles for ejecting ink, wherein the printhead module includes at least first and second rows configured to print ink of a similar type or color, the printer controller being configured to supply the dot data to the at least one printhead module such that, in the event a nozzle in the first row is faulty, a corresponding nozzle in the second row prints an ink dot at a position on print media at or adjacent a position where the faulty nozzle would otherwise have printed it. 29. A printhead module according to claim 1, in communication with a printer controller for receiving first data and manipulating the first data to produce dot data to be printed, the print controller including at least two serial outputs for supplying the dot data to at least one printhead. 30. A printhead module according to claim 1 being capable of printing a maximum of n of channels of print data, the printhead being configurable into: a first mode, in which the printhead is configured to receive print data for a first number of the channels; and a second mode, in which the printhead is configured to receive print data for a second number of the channels, wherein the first number is greater than the second number. 31. A printhead module according to claim 1, including at least one row that comprises a plurality of sets of n adjacent nozzles, each of the nozzles being configured to expel ink in response to a fire signal, such that, for each set of nozzles, a fire signal is provided in accordance with the sequence: [nozzle position 1, nozzle position n, nozzle position 2, nozzle position (n-l), . . . , nozzle position x], wherein nozzle position x is at or adjacent the centre of the set of nozzles. 32. A printhead module according to claim 1, including at least one row that comprises a plurality of adjacent sets of n adjacent nozzles, each of the nozzles being configured to expel the ink in response to a fire signal, the printhead being configured to output ink from nozzles at a first and nth position in each set of nozzles, and then each next inward pair of nozzles in each set, until: in the event n is an even number, all of the nozzles in each set has been fired; and in the event n is an odd number, all of the nozzles but a central nozzle in each set have been fired, and then to fire the central nozzle. 33. A printhead module according to claim 1, for receiving dot data to be printed using at least two different inks and control data for controlling printing of the dot data, the printhead module including a communication input for receiving the dot data for the at least two colors and the control data. 34. A printhead module according to claim 1, having a plurality of rows of nozzles configured to extend, in use, across at least part of a printable pagewidth, the nozzles in each row being grouped into at least first and second fire groups, the printhead module being configured to sequentially fire, for each row, the nozzles of each fire group, such that each nozzle in the sequence from each fire group is fired simultaneously with respective corresponding nozzles in the sequence in the other fire groups, wherein the nozzles re fired row by row such that the nozzles of each row are all fired before the nozzles of each subsequent row. 35. A printhead module according to claim 1, in communication with a printer controller for providing data to a printhead module that includes: at least one row of print nozzles; at least first and second shift registers for shifting in dot data supplied from a data source, wherein each shift register feeds dot data to a group of nozzles, and wherein each of the groups of the nozzles is interleaved with at least one of the other groups of the nozzles. 36. A printhead module according to claim 1, having a plurality of nozzles for expelling ink, the printhead module including a plurality of thermal sensors, each of the thermal sensors being configured to respond to a temperature at or adjacent at least one of the nozzles, the printhead module being configured to modify operation of the nozzles in response to the temperature rising above a first threshold. 37. A printhead module according to claim 1, comprising a plurality of rows, each of the rows comprising a plurality of nozzles for ejecting ink, wherein the printhead module includes at least first and second rows configured to print ink of a similar type or color, and being configured such that, in the event a nozzle in the first row is faulty, a corresponding nozzle in the second row prints an ink dot at position on print media at or adjacent a position where the faulty nozzle would otherwise have printed it.