Inkjet printers typically utilize a print head that includes slots to eject ink onto a print surface. Typically, data from channels is directed to the slots based on a sequence of ink ejection. The slots typically include the ink colors cyan, magenta, yellow, and black.
Features of the present disclosure are illustrated by way of example and not limited in the following figure(s), in which like numerals indicate like elements, in which:
For simplicity and illustrative purposes, the present disclosure is described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure. It will be readily apparent however, that the present disclosure may be practiced without limitation to these specific details. In other instances, some methods and structures have not been described in detail so as not to unnecessarily obscure the present disclosure.
Throughout the present disclosure, the terms “a” and “an” are intended to denote at least one of a particular element. As used herein, the term “includes” means includes but not limited to, the term “including” means including but not limited to. The term “based on” means based at least in part on.
Inkjet printing typically utilizes a print head that includes a plurality of slots to eject ink onto a print surface. Each slot typically ejects an ink of a different color. Data that is forwarded to the slots is typically forwarded from a data channel to a slot. If the number of slots is greater than the number of data channels, the print frequency is typically slowed down to allow the data to fill the additional slots. That is, the data is divided into multiple slots, which increases the number of cycles to load the data into the slots, which further slows down the print frequency. However, slowing down the print frequency also slows down the print speed of the printer.
According to examples, a multi-directional single pass printing apparatus and a method for multi-directional single pass printing are disclosed herein. The apparatus and method disclosed herein generally utilize a direction bit to select which print slot on a print head is to be selected for data loading. For single pass printing, the apparatus and method disclosed herein provide for the dot placement order (e.g., black then yellow then magenta then cyan) to be the same order regardless of the direction of travel of the print head. The apparatus and method disclosed herein provide for the inkjet print head to eject ink in the same order by increasing or duplication of the slots.
The apparatus and method disclosed herein may utilize a data multiplexing module to forward data to an appropriate slot. The data multiplexing module may operate in conjunction with a direction bit module that selects a direction bit based on a direction of travel (e.g., left to right, or right to left) of the print head. For example, if the print head is traveling in a left to right direction and the slot color order from left to right on the print head is C, M, Y, K, Y, M, C, (corresponding to slots A, B, C, D, E, F, G), then a left to right direction bit (e.g., 0) may selects slots D, E, F, and G, that correspond to the dot placement order of K, Y, M, C as the die scans across a coordinate on the print surface of a paper. The inactive slots A, B, and C have no data, may have data value of 0 for each primitive, and do not receive new data when the print head traverses from left to right. When the direction bit changes (e.g., changes to 1) based on the right to left travel of the print head, then slots D, C, B, and A may be selected, and the firing order is once again K, Y, M, C in the right to left direction. Data from the same channel or from low-voltage differential signaling (LVDS) pairs may be forwarded by the data multiplexing module to the appropriate slots. Further, a synchronizer in the data path may reset non selected slots to a zero data value.
The apparatus and method disclosed herein may provide for the firmware (i.e., the machine readable instructions) related to printer to remain the same, regardless of the print mode (e.g., single pass). For example, once the print head travels from left to right, and the ink is ejected onto the print substrate, the print substrate may be advanced before the print head travels from right to left. The firmware thus does not need to keep track of dot placement, and the print substrate may be advanced between each travel of the print head.
The apparatus and method disclosed herein may provide for the number of bond pads to remain the same. For example, based on the increased number of slots, additional bond pads may be needed to add additional channels to forward data to the additional slots. However, for the apparatus and method disclosed herein, since the number of the channels is not increased, the number of bond pads remains the same irrespective of the higher number of slots.
The apparatus and method disclosed herein may provide for the number of channels per slot to remain the same. For example, as disclosed herein, the number of channels per slot remains the same, irrespective of the higher number of slots compared to the number of channels.
The apparatus and method disclosed herein may provide for a single pass print mode in both directions (e.g., left to right, or right to left) while maintaining color order. For example, as disclosed herein, for left to right and for right to left travel of the print head, the dot placement order remains identical (e.g., K, Y, M, C in both directions). The use of the single pass print mode may provide for all of the dots that are needed to be placed on a print substrate to be placed in a single pass of the print head (e.g., a left to right pass). Thus, the right to left pass may be used to place all of the dots that are needed to be placed on the print substrate to be placed in another single pass of the print head. For the apparatus and method disclosed herein, the aspect of the single pass print mode may thus effectively double print speed, as opposed to the use of two passes to print a set of dots on the print substrate.
The apparatus and method disclosed herein may provide for the same application-specific integrated circuit (ASIC) that drives, for example, a four slot print head to be used to drive, for example, a seven slot print head. For example, as disclosed herein, even though the number of slots may be increased (e.g., from four to seven slots), the ASIC that is used for a four slot print head may be similarly used for a seven slot print head since the number of channels that are used to forward data to the slots remains the same.
The plurality of slots 104 may include a generally central slot 106 for a first ink color, and two or more additional slots 108. According to an example, the first ink color may include black (i.e., K). According to an example, the additional slots 108 may include six additional slots (i.e., the plurality of slots 104 include seven slots as illustrated in the example of
A slot 110 of the additional slots 108 may be disposed on a first side of the central slot 106. According to an example, further slots similar to the slot 110 may be disposed on the first side of the central slot 106. Further, another slot 112 of the additional slots 108 may be disposed on a second side of the central slot 106. According to an example, further slots similar to the slot 112 may be disposed on the second side of the central slot 106.
According to an example, the first side may be generally opposite to the second side. The additional slots 108 may include a further ink color that provides a generally mirrored arrangement of ink colors relative to the first ink color. According to an example, the further ink color may include yellow (i.e., Y). Further, for the example of
The data multiplexing module 116 may forward data to a set of slots 118 of the plurality of slots 104 when a direction bit 120 related to the print head 102 is set to a first value (e.g., 0). The data multiplexing module 116 may forward the data to another set of slots 122 of the plurality of slots 104 when the direction bit 120 is set to a second value (e.g., 1). According to an example, the data multiplexing module 116 may include a data multiplexer to forward data to the set of slots 118 or to the set of slots 122. According to an example, the data multiplexing module 116 may be implemented on the die of the print head Silicon.
The data multiplexing module 116 may include a plurality of channels 124 to forward the data to the plurality of slots 104. For the example of
The direction bit 120 may be set by the direction bit module 126. The direction bit module 126 may operate in conjunction with the print head travel determination module 128 to determine a direction of travel of the print head 102. The first value (e.g., 0) of the direction bit 120 may correspond to a direction of travel of the print head (e.g., the left to right direction of travel 114). Further, the second value (e.g., 1) of the direction bit 120 may correspond to a generally opposite direction of travel of the print head (e.g., a right to left direction of travel 130).
The synchronization module 132 may load a zero data value in an inactive slot of the plurality of slots. The synchronization module 132 may include a Csync, or other such synchronizers to load a zero data value in an inactive slot of the plurality of slots. For example, for the left to right direction of travel 114 for the print head 102 during which the slots D, E, F, and G are selected based on the first value (e.g., 0) of the direction bit 120, the synchronization module 132 may load a zero data value in the inactive slots A, B, and C. Similarly, for the right to left direction of travel 130 for the print head 102 during which the slots D, C, B, and A are selected based on the second value (e.g., 1) of the direction bit 120, the synchronization module 132 may load a zero data value in the inactive slots E, F, and G.
Based on the first value (e.g., 0) of the direction bit 120 or the second value (e.g., 1) of the direction bit 120, the data for operating the print head 102 may be respectively forwarded to the set of slots (e.g., D, E, F, and G) or to the set of slots (e.g., D, C, B, and A) in a same specified data order. For example, for the example of
With respect to a printer that uses the apparatus 100, the machine readable instructions related to operation of the printer may be modified for operating the apparatus 100 (e.g., dividing the slots of the print head 102 into the set of slots D, E, F, and G, or the set of slots D, C, B, and A. However, the machine readable instructions related to placement of ink dots in the correct order may be based on the direction bit 120 and the layout of the apparatus 100 to provide for a correct ink dot placement order (e.g., divide the slots 104 into a set of slots D, E, F, and G, or D, C, B, and A, by changing the direction bit 120).
Referring to
At block 204, the method may include setting a direction bit related to the print head to a first value that corresponds to a first direction of travel, and to a second value that corresponds to a second direction of travel based on the determined direction of travel of the print head. For example, referring to
At block 206, the method may include utilizing a plurality of channels to forward data to a set of slots of the plurality of slots when the direction bit is set to the first value, and to forward the data to another set of slots of the plurality of slots when the direction bit is set to the second value, where the plurality of channels may be less than the plurality of slots. For example, referring to
According to an example, for the method 200, utilizing a plurality of channels to forward data to a set of slots of the plurality of slots when the direction bit is set to the first value, and forwarding the data to another set of slots of the plurality of slots when the direction bit is set to the second value may further include forwarding the data to the set of slots and to the another set of slots in a same specified data order.
Referring to
At block 304, the method may include setting a direction bit related to the print head to a first value that corresponds to a first direction of travel, and to a second value that corresponds to a second direction of travel based on the determined direction of travel of the print head. For example, referring to
At block 306, the method may include utilizing a plurality of channels to forward data in a specified order to a set of slots of the plurality of slots when the direction bit is set to the first value, and to forward the data in the specified order to another set of slots of the plurality of slots when the direction bit is set to the second value, where the plurality of channels may be less than the plurality of slots. For example, referring to
The computer system 400 may include a processor 402 that may implement or execute machine readable instructions performing some or all of the methods, functions and other processes described herein. Commands and data from the processor 402 may be communicated over a communication bus 404. The computer system may also include a main memory 406, such as a random access memory (RAM), where the machine readable instructions and data for the processor 402 may reside during runtime, and a secondary data storage 408, which may be non-volatile and stores machine readable instructions and data. The memory and data storage are examples of computer readable mediums. The memory 406 may include a multi-directional single pass printing module 420 including machine readable instructions residing in the memory 406 during runtime and executed by the processor 402. The multi-directional single pass printing module 420 may include the modules of the apparatus 100 shown in
The computer system 400 may include an I/O device 410, such as a keyboard, a mouse, a display, etc. The computer system may include a network interface 412 for connecting to a network. Other known electronic components may be added or substituted in the computer system.
What has been described and illustrated herein is an example along with some of its variations. The terms, descriptions and figures used herein are set forth by way of illustration only and are not meant as limitations. Many variations are possible within the spirit and scope of the subject matter, which is intended to be defined by the following claims—and their equivalents—in which all terms are meant in their broadest reasonable sense unless otherwise indicated.
Filing Document | Filing Date | Country | Kind |
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PCT/US2014/062930 | 10/29/2014 | WO | 00 |