A printer that enables required data, such as a remaining quantity of each ink, to be written securely even when a storage device having a relatively low allowable frequency of rewriting is applied for a storage element mounted on an ink cartridge. An ink cartridge that is detachably attached to the printer. In the printer, a sequential access-type EEPROM having a relatively low allowable frequency of rewriting is applied for storage elements incorporated in both a black ink cartridge and a color ink cartridge. A print controller in the printer has a memory, for which an EEPROM (or a DRAM) is applicable. Data relating to each ink cartridge, such as a remaining quantity of each ink in the ink cartridge, are stored into both the EEPROM of the print controller and a memory cell included in the storage element of the ink cartridge. The writing operation of data into the EEPROM of the print controller is carried out at every time the remaining quantity of each ink is calculated, whereas the writing operation into the memory cell in the storage element of the ink cartridge is carried out restrictedly in response to a power down instruction. This arrangement causes the frequency of writing into the storage element of the ink cartridge to be lower than the frequency of writing into the EEPROM of the print controller. This accordingly fulfills the requirements, that is, the sufficient reliability of data and the restriction of the allowable frequency of rewriting.
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0. 48. A cartridge for use with a printer that can write information to the cartridge and to a storage device in a printer main body of the printer, the printer having a movable print head for ejecting ink while moving, and outputting a clock signal, comprising:
an ink; and
a rewritable non-volatile memory that can receive and transmit data,
wherein said cartridge is configured to be detachably mounted on the printer, and
wherein information relating to consumption of ink from said cartridge is written by the printer into said non-volatile memory of said cartridge at a second timing different from a first timing with which the information relating to said cartridge is written by the printer into the storage device incorporated in a printer main body of the printer, the first timing corresponding to a completion of movement by the print head for printing of at least one of a line and a page, and wherein the writing of the specific information to said non-volatile memory of said cartridge is not triggered based on a movement of the print head.
0. 47. A method of managing information in a printer having a movable print head for ejecting ink while moving, to which printer a cartridge can be detachably mounted, the cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in the cartridge is transferred to a printing medium, so as to implement printing, said method comprising the steps of
writing plural pieces of information relating to the cartridge into the rewritable non-volatile memory of the cartridge; and
writing specific information relating to a consumption of ink from the cartridge into a rewritable storage device incorporated in said printer main body of said printer at a first timing corresponding to a completion of movement by the print head for printing of at least one of a line and a page, and writing a specific information relating to consumption of ink from the cartridge into the non-volatile memory of the cartridge at a second timing, the first timing being different from the second timing, wherein the writing of the specific information to the non-volatile memory of the cartridge is not triggered based on a movement of the print head, and at least some of the specific information and the plural pieces of information relating to the cartridge are the same.
0. 31. A printer, to which a cartridge can be detachably mounted, the cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in the cartridge is transferred to a printing medium, so as to implement printing, said printer comprising:
a print head that is mounted on a printer main body of said printer for ejecting ink while moving;
a memory writing unit that writes plural pieces of information relating to the cartridge into the rewritable non-volatile memory of the cartridge;
a rewritable storage device incorporated in said printer main body of said printer; and
an information writing unit that writes specific information relating to consumption of ink from the cartridge into said rewritable storage device of said printer main body at a first timing, and writes specific information relating to consumption of ink from the cartridge into the non-volatile memory of the cartridge at a second timing, the first timing corresponding to a completion of movement by the print head for printing of at least one of a line and a page, the first timing being different from the second timing, wherein the writing of the specific information to the non-volatile memory of the cartridge is not triggered based on a movement of the print head, and at least some of the specific information and the plural pieces of information relating to the cartridge are the same.
0. 44. A printer, to which a cartridge can be detachably mounted, the cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in the cartridge is transferred to a printing medium, so as to implement printing, said printer comprising:
a print head that is mounted on a printer main body of said printer;
a memory writing unit that writes plural pieces of information relating to the cartridge into the rewritable non-volatile memory of the cartridge;
a rewritable storage device incorporated in said printer main body of said printer;
an information writing unit that writes specific information relating to consumption of ink from the cartridge into said rewritable storage device of said printer main body at a first timing and writes specific information relating to consumption of ink from the cartridge into the non-volatile memory of the cartridge at a second timing, the first timing corresponding to an operation of the printer, the first timing being different from the second timing, wherein the writing of the specific information to the non-volatile memory of the cartridge is not triggered based on a movement of the print head, and at least some of the specific information and the plural pieces of information relating to the cartridge are the same; and
a cleaning unit that responds to a particular action of the printer by performing a head cleaning process that causes said print head to eject a predetermined quantity of ink,
wherein said information writing unit writes the specific information into said rewritable storage device at a timing when said cleaning unit performs the head cleaning process.
0. 1. A printer, to which a cartridge is detachably attached, said cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in said cartridge is transferred to a printing medium, so as to implement printing, said printer comprising:
a memory writing unit that writes plural pieces of information relating to said cartridge into said rewritable non-volatile memory of said cartridge at a preset timing and thereby at a certain frequency;
a rewritable storage device incorporated in said printer main body of said printer; and
an information writing unit that writes specific information into said rewritable storage device of said printer main body at a specified frequency that is higher than the certain frequency, at which the plural pieces of information relating to said cartridge are written into said non-volatile memory of said cartridge, the specific information being identical with at least part of the plural pieces of information relating to said cartridge.
0. 2. A printer in accordance with
0. 3. A printer in accordance with either one of claims 1 and 2, said printer further comprising:
a print head that is mounted on a printer main body of said printer,
wherein said cartridge is detachably attached to a carriage, on which said print head is mounted and which moves forward and backward relative to said printing medium, and
said storage device of said printer main body is disposed on said carriage.
0. 4. A printer in accordance with
0. 5. A printer in accordance with any one of claims 1 through 3, wherein said information writing unit writes the specific information into said rewritable storage device on completion of printing with regard to one page.
0. 6. A printer in accordance with any one of claims 1 through 5, wherein said information writing unit writes the specific information into said rewritable storage device on completion of printing with regard to at least one raster line.
0. 7. A printer in accordance with any one of claims 1 through 6, said printer further comprising:
a print head that is mounted on a printer main body of said printer; and
a cleaning unit that is activated in response to a predetermined operation, so as to carry out a head cleaning process, which causes said print head to eject a predetermined quantity of ink,
wherein said information writing unit writes the specific information into said rewritable storage device at a timing when said cleaning unit is activated.
0. 8. A printer in accordance with
said memory writing unit writes the plural pieces of information into said non-volatile memory of said cartridge in synchronism with a clock for specifying an address.
0. 9. A printer in accordance with
0. 10. A printer in accordance with
0. 11. A printer in accordance with
0. 12. A printer in accordance with either one of claims 9 and 11, wherein said rewritable storage device of said printer main body is disposed in a control IC, which directly controls the writing operation of the plural pieces of information into said non-volatile memory of said cartridge.
0. 13. A printer in accordance with
a print head that is mounted on a printer main body of said printer,
wherein said cartridge is detachably attached to a carriage, on which said print head is mounted and which moves forward and backward relative to said printing medium,
said control IC is disposed on said carriage, and
said control IC on said carriage transfers data to be written into said non-volatile memory from said printer main body to said cartridge via a cable connecting with said carriage.
0. 14. A printer in accordance with
both a black ink cartridge that keeps black ink and a color ink cartridge that keeps a plurality of different color inks are detachably attached to said printer as said cartridge, and
said memory writing unit writes the plural pieces of information into non-volatile memories, which are respectively provided in said black ink cartridge and said color ink cartridge.
0. 15. A printer in accordance with
0. 16. A printer in accordance with
0. 17. A printer in accordance with
an identification unit that determines whether or not contents of storage in said non-volatile memory of said cartridge are coincident with contents of storage in said rewritable storage device of said printer main body at a time of power supply to said printer and/or at a time of initiating a replacement of said cartridge; and
a reconciliation unit that reconciles the contents of storage in one of said non-volatile memory and said rewritable storage device with the contents of storage in the other of said non-volatile memory and said rewritable storage device, in the case where said identification unit determines that the contents of storage in said non-volatile memory are not coincident with the contents of storage in said rewritable storage device.
0. 18. A method of managing information in a printer, to which a cartridge is detachably attached, said cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in said cartridge is transferred to a printing medium, so as to implement printing, said method comprising the steps of:
writing plural pieces of information relating to said cartridge into said rewritable non-volatile memory of said cartridge at a preset timing and thereby at a certain frequency; and
writing specific information into a rewritable storage device incorporated in said printer main body of said printer at a specified frequency that is higher than the certain frequency, at which the plural pieces of information relating to said cartridge are written into said non-volatile memory of said cartridge, the specific information being identical with at least part of the plural pieces of information relating to said cartridge.
0. 19. A cartridge keeping ink therein and having a rewritable non-volatile memory, said cartridge being detachably attached to a printer,
wherein information relating to said cartridge is written into said non-volatile memory of said cartridge at a certain frequency that is lower than a specified frequency, at which the information relating to said cartridge is written into a storage device incorporated in a printer main body of said printer.
0. 20. A cartridge in accordance with
0. 21. A cartridge in accordance with
0. 22. A cartridge in accordance with
0. 23. A cartridge in accordance with
0. 24. A cartridge in accordance with
an ink reservoir, in which a plurality of different inks are kept,
wherein plural pieces of information with regard to the plurality of different inks are written into said non-volatile memory of said cartridge.
0. 25. A cartridge in accordance with
wherein said non-volatile memory comprises a plurality of information storage areas, in which plural pieces of information regarding quantities of the at least three different inks are stored respectively and independently, and
a storage capacity of at least one byte is allocated to each of the plurality of information storage areas.
0. 26. A cartridge in accordance with
wherein said non-volatile memory comprises a plurality of information storage areas, in which plural pieces of information regarding quantities of the at least five different inks are stored respectively and independently, and
a storage capacity of at least one byte is allocated to each of the plurality of information storage areas.
0. 27. A cartridge in accordance with
the information storage areas for storing pieces of information regarding the three deep color inks being located in a first area that Is written first by said printer, and the information storage areas for storing pieces of information regarding the two light color inks being located in a second area that is written next by said printer.
0. 28. A cartridge in accordance with
0. 29. A cartridge in accordance with
0. 30. A cartridge in accordance with
0. 32. A printer in accordance with
0. 33. A printer in accordance with either one of claims 31 or 32, further comprising:
a carriage to which the cartridge is detachably attached, and on which said print head is mounted and which moves forward and backward relative to the printing medium, and
said storage device of said printer main body is disposed on said carriage.
0. 34. A printer in accordance with
0. 35. A printer in accordance with
said memory writing unit writes the plural pieces of information into the non-volatile memory of the cartridge in synchronism with a clock for specifying an address.
0. 36. A printer in accordance with
0. 37. A printer in accordance with
0. 38. A printer in accordance with
0. 39. A printer in accordance with
the cartridge includes both a black ink cartridge that keeps black ink and a color ink cartridge that keeps a plurality of different color inks and which are both detachably attached to said printer, and
said memory writing unit writes the plural pieces of information into non-volatile memories, which are respectively provided in the black ink cartridge and the color ink cartridge.
0. 40. A printer in accordance with
0. 41. A printer in accordance with
0. 42. A printer in accordance with
0. 43. A printer in accordance with
an identification unit that determines if contents stored in the non-volatile memory of the cartridge are coincident with contents stored in said rewritable storage device of said printer main body at a time of power supply to said printer and/or at a time of initiating a replacement of the cartridge; and
a reconciliation unit that reconciles the contents stored in one of the non-volatile memory and said rewritable storage device with the contents stored in the other of the non-volatile memory and said rewritable storage device, in the case where said identification unit determines that the contents stored in the non-volatile memory are not coincident with the contents stored in said rewritable storage device.
0. 45. A printer in accordance with either one of claims 44 or 37, wherein said rewritable storage device of said printer main body is disposed in a control IC, which directly controls the writing operation of the plural pieces of information into the non-volatile memory of the cartridge.
0. 46. A printer in accordance with
wherein the cartridge is detachably attached to a carriage, on which said print head is mounted and which moves forward and backward relative to the printing medium,
said control IC is disposed on said carriage, and
said control IC on said carriage transfers data to be written into the non-volatile memory from said printer main body to the cartridge via a cable connecting with said carriage.
0. 49. A cartridge in accordance with
0. 50. A cartridge in accordance with
0. 51. A cartridge in accordance with
0. 52. A cartridge in accordance with
0. 53. A cartridge in accordance with
0. 54. A cartridge in accordance with
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Notice: More than one reissue application has been filed for the reissue of U.S. Pat. No. 6,196,670. The reissue applications are application Ser. Nos. 11/056,608 (the present application) and 09/996,986.
This application is a continuation of application Ser. No. 09/996,986, which is a reissue of U.S. Pat. No. 6,196,670, filed on Nov. 26, 1999, for PRINTER AND INK CARTRIDGE ATTACHED THERETO.
1. Field of the Invention
The present invention relates to a printing apparatus, such as an ink jet printer and an ink jet plotter, and also to an ink cartridge detachably attached to a printer main body of the printing apparatus. More specifically the invention pertains to a technique of processing and storing required pieces of information in the ink cartridge.
2. Description of the Related Art
A printing apparatus such as the ink jet printer and the ink jet plotter mainly includes an ink cartridge, in which one or plural inks are kept, and a printer main body with a print head to carry out actual printing operations on a printing medium. The print head ejects ink fed from the ink cartridge onto the printing medium, such as printing paper, so as to implement printing on the printing medium. The ink cartridge is designed to be detachably attached to the printer main body. A new ink cartridge has a predetermined quantity of ink kept therein. When the ink kept in an ink cartridge runs out, the ink cartridge is replaced with a new one. Such a printing apparatus is arranged to cause the printer main body to calculate the remaining quantity of ink in the ink cartridge based on the amount of ink ejected from the print head and to inform the user of a state of running out of the ink, in order to prevent the printing procedure from being interrupted by the out-of-ink.
Another proposed ink cartridge stores certain pieces of information, such as the type and the capacity of each ink kept in the ink cartridge, in advance. These pieces of information are stored, for example, in the form of a barcode, in the ink cartridge. The printer, to which such an ink cartridge is attached, scans the barcode and reads the certain pieces of information, such as the type of ink kept in the ink cartridge, thereby enabling a printing process suitable for the ink to be carried out.
While the certain pieces of information, such as the type of each ink kept in the ink cartridge, are stored in the ink cartridge, other pieces of information relating to the ink cartridge, such as a remaining quantity of each ink, are stored in the printer or a printer driver for the printer. In the event that the ink cartridge is replaced with a new one in the course of a printing process, the information relating to the ink cartridge, such as the remaining quantity of each ink, may be lost or made incorrect.
The object of the present invention is thus to provide a printer that adequately processes and stores information relating to a cartridge, such as a remaining quantity of each ink, as well as a cartridge, which is detachably attached to such a printer, without increasing the manufacturing cost of the ink cartridge.
At least part of the above and the other related objects is actualized by a printer, to which a cartridge is detachably attached, the cartridge keeping ink therein and having a rewritable non-volatile memory, wherein the ink kept in the cartridge is transferred from a print head mounted on a printer main body of the printer to a printing medium, so as to implement printing. The printer includes: a memory writing unit that writes plural pieces of information relating to the cartridge into the rewritable non-volatile memory of the cartridge at a preset timing and thereby at a certain frequency; a rewritable storage device incorporated in the printer main body of the printer; and an information writing unit that writes specific information into the rewritable storage device of the printer main body at a specified frequency that is higher than the certain frequency, at which the plural pieces of information relating to the cartridge are written into the non-volatile memory of the cartridge, the specific information being identical with at least part of the plural pieces of information relating to the cartridge.
The present invention is also directed to a method of managing information in a printer, which corresponds to the configuration of the printer discussed above. In the method, a cartridge, which is detachably attached to the printer, keeps ink therein and has a rewritable non-volatile memory, wherein the ink kept in the cartridge is transferred from a print head mounted on a printer main body of the printer to a printing medium, so as to implement printing. The method includes the steps of: writing plural pieces of information relating to the cartridge into the rewritable non-volatile memory of the cartridge at a preset timing and thereby at a certain frequency; and writing specific information into a rewritable storage device incorporated in the printer main body of the printer at a specified frequency that is higher than the certain frequency, at which the plural pieces of information relating to the cartridge are written into the non-volatile memory of the cartridge, the specific information being identical with at least part of the plural pieces of information relating to the cartridge.
In the printer and the corresponding method of the present invention, the rewritable non-volatile memory is mounted on the cartridge, which is detachably attached to the printer. Information relating to the cartridge is written into the storage device incorporated into the printer main body of the printer at a specified frequency, which is higher than a certain frequency, at which the information is written into the non-volatile memory of the cartridge. The information relating to the cartridge is thus updated at the higher frequency in the storage device of the printer, whereas the writing operation of the information into the non-volatile memory of the cartridge is restricted. This arrangement enables a storage element having a relatively low allowable frequency of rewriting to be applied for the non-volatile memory of the cartridge. This arrangement also prevents a possible trouble, that is, making the writing operation of information into the non-volatile memory incomplete, which occurs in a conventional structure when the power supply is suddenly cut off, for example, by power failure or by pulling the power plug out of the socket, in the course of the writing operation into the non-volatile memory of the cartridge.
The difference in frequency of writing may be attained by a specific configuration, wherein data are written into the non-volatile memory at the preset timing, whereas data are written into the storage device of the printer main body at the preset timing as well as at another timing.
In accordance with one preferable application of the present invention, the plural pieces of information are written into the rewritable non-volatile memory of the cartridge at a power-off time of the printer and/or at a time of replacement of the cartridge. While the power supply to the printer continues and the same cartridge is used, it is thought that the contents of the storage in the storage device of the printer main body accurately reflect the information relating to the cartridge attached to the printer.
In accordance with one preferable application of the present invention, the specific information is written into the rewritable storage device on completion of printing with regard to one page or on completion of printing with regard to at least one raster line. This is because the information relating to the cartridge is generally updated with the progress of the printing operation. By way of example, the amount of ink consumption gradually increases with the progress of the printing operation. It is accordingly effective to write the information regarding the amount of ink consumption into the storage device of the printer main body when the printing operation is completed with regard to one page or with regard to at least one raster line.
In accordance with another preferable application of the present invention, the printer further includes a cleaning unit that is activated in response to a predetermined operation, so as to carry out a head cleaning process, which causes the print head to eject a predetermined quantity of ink. In this structure, the specific information is written into the rewritable storage device at a timing when the cleaning unit is activated. This is because the head cleaning process consumes a relatively large quantity of ink. The timing of writing information into the storage device may be in the course of the head cleaning process, on completion of the head cleaning process, or before the head cleaning process is initiated.
In accordance with one preferable embodiment of the printer, the non-volatile ink transmits data by serial access. In this case, the plural pieces of information are written into the non-volatile memory of the cartridge in synchronism with a clock for specifying an address. The non-volatile memory that transmits data by serial access is generally inexpensive and desirably applied for the expendable cartridge.
In accordance with another preferable embodiment of the printer, the rewritable storage device of the printer main body is a non-volatile memory that holds contents of storage even after a power-off operation of the printer. In this case, the information in the storage device of the printer main body, which is rewritten at the high frequency, is kept even in the case of an accidental power off. In accordance with still another preferable embodiment of the printer, a writing rate of the rewritable storage device of the printer main body is higher than a writing rate of the rewritable non-volatile memory of the cartridge. Applying a high-speed storage element for the storage device of the printer main body that is rewritten at a high frequency enables the high-speed access in the printer main body and favorably reduces the total access time. Either a DRAM or an SRAM may be applicable as the high-speed storage element. The DRAM is generally inexpensive and readily available. The SRAM, on the other hand, does not require the refreshing process and is readily backed up.
The rewritable storage device of the printer main body may be disposed in a control IC, which directly controls the writing operation of the plural pieces of information into the non-volatile memory of the cartridge. In this structure, the printer main body is in charge of controlling the writing operation of data into the storage device of the printer main body incorporated in the control IC. In the case where there is a requirement for writing data into the non-volatile memory of the cartridge, for example, in the case of power failure, however, the control IC is in charge of controlling the writing operation into the non-volatile memory of the cartridge. This arrangement favorably relieves the loading to the printer main body, and enables the writing operation into the non-volatile memory of the cartridge to be carried out quickly. When there is a requirement for writing data, for example, in the case of cutting the power supply off, the printer main body outputs a writing instruction to the control IC. The control IC receives the writing instruction and directly writes the contents of storage in the storage device disposed therein into the non-volatile memory of the cartridge.
The printer may have a carriage, to which both a black ink cartridge, in which black ink is kept, and a color cartridge, in which a plurality of different color inks are kept, are detachably attached. In general, the printer may have a structure that receives any cartridge that keeps only one ink or a combination of selected inks. In this structure, a non-volatile memory should be provided in each cartridge, that is, respectively in the black cartridge and the color cartridge. The information relating to each cartridge is written into the non-volatile memory of the cartridge.
Although the writing operations into the non-volatile memory of the cartridge and into the rewritable storage device of the printer main body are carried out at different frequencies, the information is written into both the non-volatile memory and the rewritable storage device at some identical timings. For example, it is desirable that the data are written into both the storage device of the printer main body and into the non-volatile memory of the cartridge at a power-off time of the printer. In this case, the information may be written into the non-volatile memory of the cartridge, before the information is written into the storage device of the printer main body. This arrangement causes the contents of storage in the non-volatile memory of the cartridge to be securely updated. Even in the event that the cartridge is replaced with a new one during the power-off time of the printer, this enables the accurate pieces of information to be stored in the non-volatile memory of the cartridge.
In accordance with an alternative structure, the information is written into the non-volatile memory of the cartridge, after the writing operation of the information into the storage device of the printer main body is completed. In this case, a non-volatile storage element is applied for the rewritable storage device of the printer main body. This enables the storage device of the printer main body to securely hold the information relating to the cartridge. A storage element that enables the high-speed access is generally applied for the storage device of the printer main body. This advantageously completes the writing operation of the information relating to the cartridge within a short time period.
The printer and the corresponding method may further has a structure that determines whether or not the contents of storage in the non-volatile memory of the cartridge are coincident with the contents of storage in the rewritable storage device of the printer main body at a time of power supply to the printer and/or at a time of initiating a replacement of the cartridge. The structure reconciles the contents of storage in one of the non-volatile memory and the rewritable storage device with the contents of storage in the other of the non-volatile memory and the rewritable storage device, in the case where it is determined that the contents of storage in the non-volatile memory are not coincident with the contents of storage in the rewritable storage device. The contents of storage having the higher precision should be chosen preferentially over the other, based on a sequence of the writing operation discussed above. One possible application writes the information relating to the cartridge together with information regarding a writing time and refers to the information regarding the writing time to determine which contents of storage should be preferential over the other.
The present invention is further directed to a cartridge keeping ink therein and having a rewritable non-volatile memory, the cartridge being detachably attached to a printer, wherein information relating to the cartridge is written into the non-volatile memory of the cartridge at a certain frequency that is lower than a specified frequency, at which the information relating to the cartridge is written into a storage device incorporated in a printer main body of the printer.
The timings of the writing operations into the non-volatile memory of the cartridge and into the storage device of the printer main body are those discussed above with regard to the printer of the present invention. For example, the information relating to the cartridge may be written into the non-volatile memory of the cartridge at a power-off time of the printer and/or at a time of replacement of the cartridge.
The applicable type of the non-volatile memory, the sequence of the writing operations into the storage device of the printer main body and the non-volatile memory of the cartridge, and the configuration of carrying out the writing operation into the non-volatile memory of each cartridge are identical with those discussed above with regard to the printer of the present invention.
In accordance with one preferable application of the present invention, the cartridge has an ink reservoir that is parted into at least three ink chambers, in which at least three different inks are kept. In this case, the non-volatile memory of the ink cartridge has a plurality of information storage areas, in which plural pieces of information regarding quantities of the at least three different inks are stored respectively and independently. It is practical that a storage capacity of at least one byte is allocated to each of the plurality of information storage areas. The respective inks have different amounts of ink consumption. It is accordingly desirable to store the amount of ink consumption for each ink.
In accordance with another preferable application of the present invention, the cartridge has an ink reservoir that is parted into at least five ink chambers, in which at least five different inks are kept. The at least five different inks include three deep color inks and two light color inks, which correspond to two deep colors among the three deep color inks. In a concrete example, the three deep color inks are cyan, magenta, and yellow, and the two light color inks are light cyan and light magenta.
In accordance with one preferable embodiment of the cartridge, the non-volatile memory has a specific writing area, in which the plural pieces of information are written, on one end of a memory space thereof. The end area of the memory space readily generates an address to be accessed preferentially. Namely the end area of the memory space is often included in an area accessed first as default. In the non-volatile memory of sequential access type, the memory is sequentially accessed from a head position or an end position thereof. Assuring the writing area in one end of the memory space thus favorably enables the information relating to the cartridge, for example, the remaining quantity of ink in the cartridge, to be stored quickly and securely, while reducing the manufacturing cost of the cartridge.
A programmable ROM (EEPROM) that can be erased electrically may be applied for the non-volatile memory. A flash ROM is also applicable for the non-volatile memory.
In the configuration of the present invention, the information relating to the cartridge may include a piece of information regarding a remaining quantity of each ink in the ink cartridge or a piece of information regarding a cumulative amount of ink consumption with regard to the cartridge. The information may also include pieces of information regarding the type of ink kept in the ink cartridge and the term of validity of the cartridge. The information may further include pieces of information regarding the time elapsing after unsealing the cartridge and the frequency of attachment and detachment of the cartridge to and from the printer main body, both of which are measured by the printer main body. The information may further include the pieces of information regarding the year, month, and date of manufacture of the cartridge and the capacity of each ink in the cartridge. Part of these pieces of information are not changed by the use of the cartridge and may thereby be kept in a non-rewritable area.
These and other objects, features, aspects, and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments with the accompanying drawings.
A more complete appreciation of the present invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein
The printer driver converts original color image data, which are input from the scanner SC and subjected to the required image processing, to color image data printable by the printer 1 in response to the printing instruction, and outputs the converted color image data to the printer 1. The original color image data consists of three color components, that is, red (R), green (G), and blue (B). The converted color image data printable by and output to the printer 1 consists of six color components, that is, black (K), cyan (C), light cyan (LC), magenta (M), light magenta (LM), and yellow (Y). The printable color image data are further subjected to binary processing, which specifies the on-off state of ink dots. These image processing and data conversion processes are known in the art and are thus not specifically described here. These processes may be carried out in the printer 1, in place of the printer driver included in the computer PC, as discussed later.
The following describes the basic structure of the printer 1. Referring to FIG. 1 and the block diagram of
A black ink cartridge 107K and a color ink cartridge 107F, which will be described later, are detachably attached to the cartridge attachment unit 18 of the carriage 101. The print head 10 receives supplies of inks fed from these ink cartridges 107K and 107F and ejects ink droplets against the printing paper 105 with a movement of the carriage 101, so as to create dots and print a picture image or letters on the printing paper 105.
Each of the ink cartridges 107K and 107F has a cavity therein for keeping ink, which is prepared by dissolving or dispersing a dye or a pigment in a solvent. The cavity for keeping ink therein is generally referred to as an ink chamber. The black ink cartridge 107K has an ink chamber 117K, in which black ink (K) is kept. The color ink cartridge 107F has a plurality of ink chambers 107C, 107LC, 107M, 107LM, and 107Y, which are formed separately. Cyan ink (C), light cyan ink (LC), magenta ink (M), light magenta ink (LM), and yellow ink (Y) are kept respectively in these ink chambers 107C, 107LC, 107M, 107LM, and 107Y. The print head 10 receives supplies of various color inks fed from the respective ink chambers 107C, 107LC, 107M, 107LM, and 107Y, and ejects ink droplets of various colors to implement color printing.
A capping unit 108 and a wiping unit 109 are disposed on one end of the printer 1, which is included in a non-printable area. The capping unit 108 closes nozzle opening formed on the print head 10 during the stoppage of printing operation. The capping unit 108 effectively prevents the solvent component in the ink from being vaporized during the stoppage of a printing operation. Preventing the vaporization of the solvent component in the ink favorably depresses an increase in viscosity of ink and formation of an ink film. Capping the nozzle openings during the stoppage of a printing operation effectively prevents the nozzles from being clogged. The capping unit 108 also has a function of collecting ink droplets ejected from the print head 10 by a flushing operation. The flushing process is carried out to eject ink when the carriage 101 reaches the end of the printer 1 during the execution of the printing operation. The flushing process is one of the actions for preventing the nozzles from being clogged. The wiping unit 109 is located in the vicinity of the capping unit 108 to wipe the surface of the print head 10, for example, with a blade, so as to wipe out the ink residue or paper dust adhering to the surface of the print head 10. In addition to these actions, the printer 1 of the embodiment carries out a sucking operation with regard to the nozzles, for example, in the case of an abnormality occurring due to invasion of bubbles into the nozzles. The sucking process presses the capping unit 108 against the print head 10 to seal the nozzle openings, activates a suction pump (not shown), and makes a passage connecting with the capping unit 108 in a negative pressure, so as to cause ink to be sucked out of the nozzles on the print head 10. The flushing operation, the wiping operation, and the sucking operation are included in a head cleaning procedure. The wiping operation may be carried out by an automatic mechanism that uses a preset blade and automatically wipes the surface of the print head 10 with forward and backward movements of the carriage 101. In this case, only the flushing operation and the sucking operation are included in the active head cleaning procedure.
A control circuit of the printer 1 is discussed with
Control lines of a switch panel 92 and a power source 91 are also connected to the print controller 40 via the parallel input-output interface 49. The switch panel 92 has a power switch 92a for turning the power source 91 on and off, a cartridge switch 92b for giving an instruction to replace the ink cartridge with a new one, and a cleaning switch 92c for giving an instruction to perform the forcible cleaning of the print head 10. When the power switch 92a on the switch panel 92 is operated to input an instruction of a power-off operation, the print controller 40 outputs a power down instruction as a requirement of non-maskable interruption NMI to the power source 91. The power source 91 receives the power down instruction NMI and falls into a stand-by state. In the stand-by state, the power source 91 supplies a stand-by electric power to the print controller 40 via a power supply line (not shown). The standard power-off operation carried out via the switch panel 92 thus does not completely cut off the power supply to the print controller 40.
The print controller 40 monitors whether or not a preset electric power is supplied from the power source 91, and outputs the power down instruction NMI when a power plug is pulled out of a socket. The power source 91 has an auxiliary power unit, for example, a capacitor, to ensure a power supply for a predetermined time period, for example, 0.3 seconds, after the power plug is pulled out of the socket. The print controller 40 also outputs the power down instruction NMI when the cartridge switch 92b on the switch panel 92 is operated to give an instruction of replacing the ink cartridge.
The print controller 40 has an EEPROM 90 mounted thereon as a memory of the printer main body 100, which stores information relating to the black ink cartridge 107K and the color ink cartridge 107F mounted on the carriage mechanism 12 as shown in FIG. 1. The EEPROM 90 stores plural pieces of specific information including information relating to quantities of inks in the black ink cartridge 107K and the color ink cartridge 107F, as discussed later in detail. The ink quantity-relating information may regard the remaining quantities of inks in the ink cartridges 107K and 107F or the amount of ink consumption with regard to the ink cartridges 107K and 107F. The ink controller 40 also has an address decoder 95, which converts desired addresses in a memory cell 81 (described later) of a storage element 80 (described later), at which the controller 46 requires to gain accesses (read and write), into numbers of clocks. The controller 46 in the print controller 40 generally processes data by the unit of 8 bits or 1 byte. The memory cell 81 of the storage element 80 incorporated in the ink cartridges 107K and 107F is serially accessed in synchronism with reading and writing clocks. The address decoder 95 accordingly converts the addresses to be accessed into the numbers of clocks.
The printer 1 determines the amount of ink consumption by calculation. The calculation of the amount of ink consumption may be carried out by the printer driver incorporated in the computer PC or by the printer 1. The calculation of the amount of ink consumption is performed by taking into account the following two factors.
(1) Amount of ink consumption by printing an image.
In order to accurately calculate the amount of ink consumption in the process of printing, image data are subjected to color conversion and binarization processes and converted to on-off data of ink dots. With regard to the image data in the on condition of ink dots, the weight of each dot is multiplied with the number of dots. Namely the frequency of ejection of ink droplets from the nozzle openings 23 is multiplied by the weight of each ink droplet. The amount of ink consumption may be approximated from the densities of the respective pixels included in the image data.
(2) Amount of ink consumption by cleaning the print head 10.
The amount of ink consumption by cleaning the print head 10 includes an amount of ink ejection by the flushing operation and an amount of ink suction by the sucking operation. The action of the flushing operation is identical with the normal ejection of ink droplets, and the amount of ink ejection by the flushing operation is thus calculated in the same manner as described in the factor (1). The amount of ink consumption by the sucking operation is stored in advance according to the revolving speed and the activation time of the sucking pump. The amount of ink consumed by one sucking action is generally measured and stored in advance.
The current remaining quantity of ink is determined by subtracting the calculated amount of ink consumption from the previous remaining quantity of ink prior to the current printing operation. The controller 46 carries out the calculation of the remaining quantity of ink according to a specific program, for example, one stored in the ROM 45, using data stored in the EEPROM 90.
In the arrangement of this embodiment, the color conversion and binarization processes are performed by the printer driver in the computer PC as described previously. The printer 1 thus receives the binary data, that is, the data on the dot on-off conditions with regard to each ink. The printer 1 multiplies the weight of ink for each dot (that is, the weight of each ink droplet) by the number of dots to determine the amount of ink consumption, based on the input binary data.
The ink jet printer 1 of the embodiment receives the binary data as described previously. The array of the binary data is, however, not coincident with the nozzle array on the print head 10. The control unit 46 accordingly divides the RAM 44 into three portions, that is, an input buffer 44A, an intermediate buffer 44B, and an output buffer 44C, in order to perform the rearrangement of the dot data array. The ink jet printer 1 may alternatively carry out the required processing for the color conversion and the binarization. In this case, the ink jet printer 1 registers the print data, which includes the multi-tone information and are transmitted from the computer PC, into the input buffer 44A via the interface 43. The print data kept in the input buffer 44A are subjected to command analysis and then transmitted to the intermediate buffer 44B. The controller 46 converts the input print data into intermediate codes by supplying information regarding the printing positions of the respective letters or characters, the type of modification, the size of the letters or characters, and the font address. The intermediate codes are kept in the intermediate buffer 44B. The controller 46 then analyzes the intermediate codes kept in the intermediate buffer 44B and decodes the intermediate codes into binary dot pattern data. The binary dot pattern data are expanded and stored in the output buffer 44C.
In any case, when dot pattern data corresponding to one scan of the print head 10 are obtained, the dot pattern data are serially transferred from the output buffer 44C to the print head 10 via the parallel input-output interface 49. After the dot pattern data corresponding to one scan of the print head 10 are output from the output buffer 44C, the process erases the contents of the intermediate buffer 44B to wait for conversion of a next set of print data.
The print head 10 causes the respective nozzle openings 23 to eject ink droplets against the printing medium at a predetermined timing, so as to create an image corresponding to the input dot pattern data on the printing medium. The driving signal COM generated in the driving signal generator circuit 48 is output to an element driving circuit 50 in the print head 10 via the parallel input-output interface 49. The print head 10 has a plurality of pressure chambers 32 and a plurality of piezoelectric vibrators 17 (pressure-generating elements) respectively connecting with the nozzle openings 23. The number of both the pressure chambers 32 and the piezoelectric vibrators 17 is thus coincident with the number of the nozzle openings 23. When the driving signal COM is sent from the element driving circuit 50 to a certain piezoelectric vibrator 17, the corresponding pressure chamber 32 is contracted to cause the corresponding nozzle opening 23 to eject an ink droplet.
The black ink cartridge 107K and the color ink cartridge 107F, which are attached to the ink jet printer 1 having the above configuration, have a common basic structure. The following description regards the structure of the ink cartridge, the black ink cartridge 107K as an example, and the structure of the cartridge attachment unit 18 of the printer main body 100, which receives and holds the ink cartridge 107K, with reference to
Referring to
Referring to
The ink cartridge 107K is attached to the cartridge attachment unit 18 according to the following procedure. When the user operates the cartridge switch 92b on the switch panel 92 to give an instruction of replacing the ink cartridge 107K, the carriage 101 moves to a certain position that allows replacement of the ink cartridge 107K. The procedure of replacement first removes the used ink cartridge 107K. A lever 192 is fixed to a rear wall 188 of the cartridge attachment unit 18 via a support shaft 191 as shown in FIG. 5. The user pulls up the lever 192 to a release position, at which the ink cartridge 107K can be removed from the cartridge attachment unit 18. A new ink cartridge 107K is then located on the cartridge attachment unit 18, and the lever 192 is pressed down to a fixation position, which is over the ink cartridge 107K. The press-down motion of the lever 192 presses the ink cartridge 107K downward, so as to make the ink supply unit 175 fitted into the recess 183 and make the needle 181 pierce the ink supply unit 175, thereby enabling a supply of ink. As the lever 192 is further pressed down, a clutch 193 disposed on a free end of the lever 192 engages with a mating element 189 disposed on the cartridge attachment unit 18. This securely fixes the ink cartridge 107K to the cartridge attachment unit 18. In this state, the plurality of connection terminals 174 on the storage element 80 in the ink cartridge 107K electrically connect with the plurality of electrodes 185 on the cartridge attachment unit 18. This enables transmission of data between the printer main body 100 and the storage element 80. When the replacement of the ink cartridge 107K is completed and the user operates the switch panel 92 again, the carriage 101 returns to the initial position to be in the printable state.
The color ink cartridge 107F basically has a similar structure to that of the ink cartridge 107K, and only the difference is described here. The color ink cartridge 107F has five ink chambers in which five different color inks are kept. It is required to feed the supplies of the respective color inks to the print head 10 via separate pathways. The color ink cartridge 107F accordingly has five ink supply units 175, which respectively correspond to the five different color inks. The color ink cartridge 107F, in which five different color inks are kept, however, has only one storage element 80 incorporated therein. Pieces of information regarding the ink cartridge 107F and the five different color inks are collectively stored in this storage element 80.
As shown in the block diagram of
The actual procedure of the writing operation is described with reference to
The controller 46 of the printer controller 40 first makes a chip select signal CS, which sets the storage element 80 in an enabling state, in a high level at step ST21. While the chip select signal CS is kept at the low level, the count on the address counter 83 is set equal to zero. When the chip select signal CS is set to the high level, the address counter 83 is enabled to start the count. The controller 46 then generates a required number of pulses of the clock signal CLK to specify an address, at which data are written, at step ST22. The address decoder 95 incorporated in the print controller 40 is used to determine the required number of pulses of the clock signal CLK. The address counter 83 included in the storage element 80 counts up in response to the required number of pulses of the clock signal CLK thus generated. During this process, a read/write signal R/W is kept in a low level. This means that an instruction of reading data is given to the memory cell 81. Dummy data are accordingly read synchronously with the output clock signal CLK.
After the address counter 83 counts up to the specified address for writing data, the controller 46 carries out an actual writing operation at step ST23. The writing operation switches the read/write signal R/W to the high level, outputs one-bit data to a data terminal I/O, and changes the clock signal CLK to a high active state on the completion of data output. While the read/write signal R/W is in the high level, data DATA of the data terminal I/O are written into the memory cell 81 of the storage element 80 synchronously with a rise of the clock signal CLK. Although the writing operation starts synchronously with a fifth pulse of the clock signal CLK in the example of
Data arrays of the storage elements 80, in which data are written, are described with references to
Referring to
The rewritable data stored in the second storage area 760 include first data on the remaining quantity of black ink and second data on the remaining quantity of black ink that are respectively allocated to first and second black ink remaining quantity memory divisions 701 and 702, which are accessed in this order.
There are the two black ink remaining quantity memory divisions 701 and 702 for storing the data on the remaining quantity of black ink. This arrangement enables the data on the remaining quantity of black ink to be written alternately in these two memory divisions 701 and 702. If the latest data on the remaining quantity of black ink is stored in the first black ink remaining quantity memory division 701, the data on the remaining quantity of black ink stored in the second black ink remaining quantity memory division 702 is the previous data immediately before the latest data, and the next writing operation is performed in the second black ink remaining quantity memory division 702.
The read only data stored in the first storage area 750 include data on the time (year) of unsealing the ink cartridge 107K, data on the time (month) of unsealing the ink cartridge 107K, version data of the ink cartridge 107K, data on the type of ink, for example, a pigment or a dye, data on the year of manufacture of the ink cartridge 107K, data on the month of manufacture of the ink cartridge 107K, data on the date of manufacture of the ink cartridge 107K, data on the production line of the ink cartridge 107K, serial number data of the ink cartridge 107K, and data on recycling showing whether the ink cartridge 107K is new or recycled, which are respectively allocated to memory divisions 711 through 720 that are accessed in this order.
Referring to
The rewritable data stored in the second storage area 660 include first data on the remaining quantity of cyan ink, second data on the remaining quantity of cyan ink, first data on the remaining quantity of magenta ink, second data on the remaining quantity of magenta ink, first data on the remaining quantity of yellow ink, second data on the remaining quantity of yellow ink, first data on the remaining quantity of light cyan ink, second data on the remaining quantity of light cyan ink, first data on the remaining quantity of light magenta ink, and second data on the remaining quantity of light magenta ink that are respectively allocated to color ink remaining quantity memory divisions 601 through 610, which are accessed in this order.
In the same manner as the black ink cartridge 107K, there are the two memory division, that is, the first color ink remaining quantity memory division 601 (603, 605, 607, 609) and the second color ink remaining quantity memory division 602 (604, 606, 608, 610), for storing the data on the remaining quantity of each color ink. This arrangement enables the data on the remaining quantity of each color ink to be rewritten alternately in these two memory divisions.
Like the black ink cartridge 107K, the read only data stored in the first storage area 650 include data on the time (year) of unsealing the ink cartridge 107F, data on the time (month) of unsealing the ink cartridge 107F, version data of the ink cartridge 107F, data on the type of ink, data on the year of manufacture of the ink cartridge 107F, data on the month of manufacture of the ink cartridge 107F, data on the date of manufacture of the ink cartridge 107F, data on the production line, serial number data, and data on recycling that are respectively allocated to memory divisions 611 through 620, which are accessed in this order. These data are common to all the color inks, so that only one set of data are provided and stored as common data to all the color inks.
When the power source 91 of the printer 1 is turned on after the ink cartridges 107K and 107F are attached to the printer main body 100, these data are read by the printer main body 100 and stored into the EEPROM 90 incorporated in the printer main body 100. As shown in
The following describes a series of basic processings carried out the by the ink jet printer 1 of the embodiment between a power-on time and a power-off time of the printer 1 and a difference between the allowable frequencies of writing into the storage element 80 and the EEPROM 90, with referring to the flowcharts of
The controller 46 executes the processing routine of
When it is determined that the ink cartridge 107K or 107F has just been replaced, that is, in the case of an affirmative answer at step S30, on the other hand, the controller 46 increments the frequency of attachment by one and writes the incremented frequency of attachment into the storage element 80 of the ink cartridge 107K or 107F at step S32. The controller 46 then reads the data from the respective storage elements 80 of the ink cartridges 107K and 107F at step S31. The controller 46 subsequently writes the read-out data at preset addresses in the EEPROM 90 at step S33. At subsequent step S34, the controller 46 determines whether or not the ink cartridges 107K and 107F attached to the ink jet printer 1 are suitable for the ink jet printer 1, based on the data stored in the EEPROM 90. When suitable, that is, in the case of an affirmative answer at step S34, a printing operation is allowed at step S35. This completes the preparation for printing, and the program exits from the processing routine of FIG. 11. When not suitable, that is, in the case of a negative answer at step S34, on the contrary, the printing operation is not allowed, and information representing the prohibition of printing is displayed on either the switch panel 92 or the display MT at step S36.
In the case where the printing operation is allowed at step S35, the printer 1 carries out a predetermined printing process in response to a printing instruction output from the computer PC. At this moment, the controller 46 transfers print data to the print head 10 and calculates the remaining quantity of each ink. The processing routine executed in this state is described with reference to the flowchart of FIG. 12. When the program enters the printing process routine shown in
The controller 46 then sums up the amount of ink consumption ΔI thus calculated to determine a cumulative amount of ink consumption Ii at step S43. The amount of ink consumption corresponding to the input print data is successively calculated, but is not written into the EEPROM 90 on every time of calculation. In order to determine the total amount of ink consumption up to the moment, the procedure sums up the amount of ink consumption ΔI with regard to the input print data and thereby determines the cumulative amount of ink consumption Ii. The controller 46 subsequently converts the input print data to appropriate data suitable for the layout of the nozzle openings 23 on the print head 10 and the ejection timing and outputs the converted print data to the print head 10 at step S44.
When the processing of the input print data with regard to the predetermined number of raster lines is concluded, the controller determines whether or not the printing operation has been completed with regard to one page at step S45. In the case where the printing operation with regard to one page has not yet been completed, that is, in the case of a negative answer at step S45, the program returns to step S41 and repeats the processing of and after step S41 to input and process a next set of print data. In the case where the printing operation with regard to one page has been completed, that is, in the case of an affirmative answer at step S45, on the other hand, the program calculates the current remaining quantity of each ink In+1 at S46, and writes the current remaining quantity of ink In+1 thus calculated into the EEPROM 90 at step S47. The current remaining quantity of ink In+1 is obtained by subtracting the cumulative amount of ink consumption Ii determined at step S43 from the previous remaining quantity of ink In read at step S40. The updated remaining quantity of ink In+1 is rewritten into the EEPROM 90.
The procedure of this embodiment updates the data on the remaining quantity of ink by the unit of page. This is because the printing operation is generally carried out by the unit of page. One modified procedure carries out the writing operation of data on the remaining quantity of ink with regard to a predetermined number of pages or with regard to one raster line or a predetermined number of raster lines. Another modified procedure determines that the printing operation has been completed every time the print head 10 has moved forward and backward by a predetermined number of times, and writes the data on the remaining quantity of ink into the EEPROM 90.
The updated remaining quantity of each ink In+1 is written into only the EEPROM 90 incorporated in the print controller 40 of the printer 1 at the time of calculation. The same updated data on the remaining quantities of the respective inks are written into the storage elements 80 of the black ink cartridge 107K and the color ink cartridge 107F when the power down instruction NMI is output. The power down instruction NMI is output at the following three timings as described previously:
With referring to the flowchart of
In the case where the cause of the interruption is not the forcible cut-off of the power supply, that is, in the case of a negative answer at step S50, on the other hand, it is determined that the interruption is caused by either the operation of the power switch 92a on the switch panel 92 in the printer 1 to turn the power source 91 off or the operation of the cartridge switch 92b on the switch panel 92 to give an instruction of replacement of the ink cartridge. The program accordingly continues the printing operation in progress by a preset unit, for example, up to the end of one raster line, and calculates the remaining quantities of inks at step S51. The calculation is performed according to the flowchart of FIG. 12. The controller 46 then drives the capping unit 108 to cap the print head 10 at step S52, and stores the driving conditions of the print head 10 into the EEPROM 90 at step S53. The driving conditions here include a voltage of the driving signal to compensate for the individual difference of the print head and a condition of collection to compensate for the difference between the respective colors. The controller 46 subsequently stores counts on a variety of timers into the EEPROM 90 at step S54, and stores the contents of a control panel, for example, an adjustment value to correct the misalignment of hitting positions in the case of bidirectional printing, into the EEPROM 90 at step S55. After the processing of step S55, the program carries out the processing of step S56 described above. Namely the controller 46 writes the updated data on the remaining quantities of inks In+1 into the second storage areas 660 and 760 of the respective storage elements 80 of the ink cartridges 107K and 107F at step S56. In the case where the power switch 92a on the switch panel 92 of the printer 1 is operated to activate this interruptive processing routine of
As described above, the printer 1 of the first embodiment calculates the remaining quantities of the respective inks in the black ink cartridge 107K and the color ink cartridge 107F, which are detachably attached to the carriage 101 of the printer main body 100, with the progress of the printing operation. The calculated data on the remaining quantities of inks are written into the EEPROM 90 every time the printing operation has been completed with regard to one page. The same data are written into the respective storage elements 80 of the ink cartridges 107K and 107F only at the timings when the power switch 92b on the switch panel 92 is operated to turn the power source 91 off, when the cartridge switch 92b on the switch panel 92 is operated to give an instruction of replacement of the ink cartridge, and when the power supply is forcibly cut off. The data on the remaining quantities of inks are updated at a higher frequency in the EEPROM 90, whereas the same data are updated at a lower frequency in the storage elements 80. This arrangement of the embodiment favorably restricts the writing frequency of the remaining quantity of each ink into the storage element 80 and thereby enables the storage unit having a relatively low allowable frequency of writing to be applied for the storage elements 80 of the expendable ink cartridges 107K and 107F. This advantageously reduces the manufacturing cost of the ink cartridge.
Although the frequency of rewriting data into the storage elements 80 is restricted, the latest data on the remaining quantities of inks are stored in the EEPROM 90 of the printer 1. The arrangement of the embodiment accordingly does not have any adverse effects on the monitoring process of the remaining quantities of inks in the printer 1. The monitoring process may blink an LED mounted on the switch panel 92 of the printer 1 when the remaining quantity of ink becomes equal to or less than a preset level. The monitoring process may alternatively inform the printer driver incorporated in the computer PC of the fact that the remaining quantity of ink reaches the preset level and give an alarm on the display MT connected to the computer PC. Since the latest data on the remaining quantities of inks are kept in the EEPROM 90 of the print controller 40, the printer 1 can refer to the latest data on the remaining quantities of inks according to the requirements and output an alarm representing the state of running out of ink at an adequate timing. These data may be utilized to display the current remaining quantities of inks visually, for example, in the form of a bar graph, according to a utility program.
In the first embodiment, the remaining quantities of inks are written into the respective storage elements 80 of the ink cartridges 107K and 107F every time the power down instruction NMI is generated. When there is no change in the remaining quantities of inks, for example, in the case where no printing operation has been carried out since the start of power supply, however, the remaining quantities of inks may not be written into the storage elements 80. Such a decision may depend upon a flag, which is set when there is any change in the remaining quantities of inks. In this structure, the value of the flag is read immediately after the output of the power down instruction NMI. In the embodiment discussed above, the data written into the storage elements regard the remaining quantities of inks. There are, however, other data that are written into the EEPROM 90 and the storage elements 80 at different frequencies. By way of example, such data may regard the cumulative time period of use of the ink cartridge or the state of application of the ink cartridge.
The timings of the writing operations into the EEPROM 90 and the storage elements 80 are not restricted to those described above. For example, while the writing operation into the EEPROM 90 is performed M times, the writing operation into the storage elements 80 is performed only once. When the cleaning switch 92c on the switch panel 92 is operated to activate the sucking operation, the remaining quantity of ink significantly decreases. The writing operation of data into the storage element 80 may accordingly be carried out on completion of the head cleaning by the sucking action. In accordance with another preferable application, the frequency of writing into the storage element 80 is written into a specific area of the storage element 80. With an increase in frequency of writing, the timing of the writing operation is reduced to decrease the frequency of writing. In accordance with still another preferable application, the writing operation of data into the storage elements 80 of the ink cartridges 107K and 107F is carried out when the user gives an explicit instruction. For example, data may be written into the storage elements 80 when the user activates the printer driver and presses a ‘Write’ button provided in the printer driver or when the user operates a switch for writing instruction provided on the switch panel 92. This arrangement restricts the frequency of writing into the storage elements 80. Another application monitors the frequencies of the writing operations into the EEPROM 90 and the storage elements 80 and neglects a writing instruction of the user in the case where the frequency of writing into the storage element 80 is undesirably high.
In another possible configuration, a buffer memory (RAM) is provided in either the print controller 40 or the storage elements 80. The controller 46 writes data into the EEPROM 90 and the buffer memory at identical timings and thereby at an identical frequency. The timing of writing data from the buffer memory to the storage elements 80 is restricted, for example, to the time of the cut-off of the power supply and the time of a replacement of the ink cartridge. This arrangement also desirably restricts the frequency of the writing operation into the memory cells 81, which have the restriction of the writing frequency. As described above, in the first embodiment, an inexpensive EEPROM, which carries out only the sequential access, is applied for the memory cells 81 of the storage elements 80 included in the black and color ink cartridges 107K and 107F. Such application desirably reduces the cost of the expendable ink cartridges 107K and 107F.
In the arrangement of the first embodiment, the second storage areas 660 and 760 in the storage elements 80, where rewritable data are stored, are located at addresses that are sequentially accessed prior to the first storage areas 650 and 750, where read only data are stored. Even in the structure that carries out the writing operation of data into the second storage areas 660 and 760 after the power-off operation of the power switch 92a on the switch panel 92, this arrangement ensures completion of the writing operation of data before the power plug is pulled out of the socket. The configuration of the first embodiment, which applies the inexpensive storage elements 80 enabling only the sequential access to decrease the cost of the ink cartridges 107K and 107F, thus advantageously reduces the possible failure in the process of rewriting the data.
In the first embodiment, data on the remaining quantities of inks are stored with regard to the respective inks in the ink cartridges 107K and 107F. This arrangement enables the user to be informed of the remaining quantity of each ink and to receive an alarm representing the out of Ink with regard to each ink.
The following describes a second embodiment according to the present invention. An ink jet printer and ink cartridges of the second embodiment have structures that are substantially similar to those of the ink jet printer 1 and the ink cartridges 107K and 107F in the first embodiment. The only difference from the first embodiment is that a control IC 200 is provided between the parallel input-output interface 49 in the print controller 40 of the printer 1 and the respective storage elements 80 of the black and color ink cartridges 107K and 107F. Referring to
The control IC 200 is connected with the parallel input-output interface 49 via four signal lines and transmits data to and from the parallel input-output interface 49 by serial communication. The four signal lines include a signal line R×D, through which the control IC 200 receives data, a signal line T×D, through which the control IC 200 outputs data, a power down signal line NMI, through which the print controller 40 outputs a requirement of writing operation at the time of power failure to the control IC 200, and a selection signal line SEL that allows transmission of data through either the signal line R×D or the signal line T×D. These four signals are transmitted between the parallel input-output interface 49 and the control IC 200 via a flexible print cable (FPC) 300. The controller 46 transmits required data to and from the control IC 200 using these four signals. The speed of communication between the controller 46 and the control IC 200 is sufficiently higher than the speed of data transmission between the control IC 200 and the storage elements 80. As described in the first embodiment, the power down signal NMI is output when the power switch 92a on the switch panel 92 is operated, when the cartridge switch 92b on the switch panel 92 is operated, and when the power supply is forcibly cut off by pulling the power plug out of the socket.
The control IC 200 has a function of separately transmitting data to and from the two storage elements 80. In the arrangement of the second embodiment, one control IC 200 attains data transmission to and from the respective storage elements 80 of the black ink cartridge 107K and the color ink cartridge 107F. In the illustration of
In the structure of the second embodiment, the controller 46 of the print controller 40 in the printer 1 carries out the processing routine shown in the flowchart of FIG. 12. In the second embodiment, however, after calculating the current remaining quantities of inks In+1 at step S46, the controller 46 writes the calculated current remaining quantities of inks In+1 not into the EEPROM 90 but into the RAM 210 incorporated in the control IC 200. The controller 46 makes the selection signal SEL active to select the control IC 200 and writes the current data In+1 on the remaining quantities of inks into the control IC 200 through the signal line R×D by non-synchronous serial communication.
In the case of a press of the power switch 92a, a press of the cartridge switch 92b, or the forcible cut-off of the power supply, the print controller 40 outputs the power down signal NMI both inside the print controller 40 and outside the print controller 40, that is, to the control IC 200. The control IC 200 receives the power down signal NMI and writes at least the data regarding the remaining quantities of the respective inks among the data stored in the internal RAM 210, into the respective storage elements 80 of the ink cartridges 107K and 107F. The control IC 200 carries out the writing operation into the storage elements 80 by the technique discussed in the first embodiment. As shown in
In the second embodiment discussed above, the data on the remaining quantities of inks, which are to be written into the storage elements 80 of the ink cartridges 107K and 107F, are stored in the RAM 210 incorporated in the control IC 200 that directly controls the data transmission to and from the storage elements 80. The controller 46 writes the data regarding the remaining quantities of inks into the RAM 210 of the control IC 200 every time the data are updated, that is, every time the printing operation with regard to one page has been completed. Namely the latest data on the remaining quantities of inks are kept in the RAM 210 of the control IC 200. When the power down signal NMI is output in response to the forcible cut-off of the power supply, the data stored in the RAM 210 are immediately written into the respective storage elements 80 of the ink cartridges 107K and 107F, irrespective of the operations of the print controller 40 and the controller 46 therein. This arrangement desirably simplifies the processing of the controller 46 at the time of forcible cut-off of the power supply and thereby significantly reduces the loading of the processing. In the second embodiment discussed above, the writing operation of data Into the storage elements 80 of the ink cartridges 107K and 107F is initiated by the output of the power down signal NMI. One possible modification transmits a standard command of the writing operation through the receiving signal line R×D, so as to cause the control IC 200 to initiate the writing operation of data.
In the arrangement of the second embodiment, the writing operation of the remaining quantities of inks into the RAM 210 of the control IC 200 is carried out at a higher frequency, whereas the writing operation into the memory cells 81 of the storage elements 80 is carried out at a lower frequency. This arrangement fulfills the contradictory requirements, that is, the storage of latest and accurate data and the restriction of the frequency of writing operation into the non-volatile memory cells 81. The RAM 210 used in the second embodiment is a DRAM, which erases the contents of storage when the power supply to the printer 1 is cut off. In the arrangement of the second embodiment, the control IC 200 accordingly reads the data on the remaining quantities of inks stored in the storage elements 80 and stores the data into the RAM 210 on a start of the power supply to the printer 1. The controller 46 reads the data from the RAM 210 at a first timing of calculation of the remaining quantities of inks (step S40 in the flowchart of
One modification of the second embodiment shown in
In accordance with another modification of the second embodiment, the calculated data on the remaining quantities of inks are written into a specific area in the RAM 44 every time the printing operation with regard to one page has been completed in the processing routine of FIG. 12. The data on the remaining quantities of inks are written into the RAM 210 incorporated in the control IC 200 by an interruptive routine, which is activated at a different timing from the timing of the writing operation into the RAM 44. In this arrangement, the latest data on the remaining quantities of inks are kept on the RAM 44. Another possible modification backs up the contents of storage in the RAM 210 of the control IC 200 by means of a battery or a mass storage capacitor. The RAM 210 may be replaced with an EEPROM. The contents of storage in the EEPROM 90 incorporated in the printer main body 100 may not be completely coincident with the contents of storage in the RAM 210 of the control IC 200. Other pieces of information required for the control procedure as well as the pieces of information relating to the ink cartridges 107K and 107F are written into the EEPROM 90, whereas only the information relating to the ink cartridges 107K and 107F are written into the RAM 210 of the control IC 200.
The present invention is not restricted to the above embodiments or their modifications, but there may be many other modifications, changes, and alterations without departing from the scope or spirit of the main characteristics of the present invention. For example, dielectric memories (FROM) may replace the memory cells 81 in the storage elements 80 and the EEPROM 90.
The information relating to the quantities of inks indicates the remaining quantities of inks in the above embodiments, but may indicate the amounts of ink consumption instead. The storage elements 80 may not be incorporated in the respective ink cartridges 107K and 107F, but may be exposed to the outside.
The upright wall 55 also has a recess 58 that is located on the substantial center of the width of the ink cartridge 500. A circuit board 31 is mounted on the recess 58. The circuit board 31 has a plurality of contacts, which are located to face contacts on the printer main body, and a storage element (not shown) mounted on the rear face thereof. The upright wall 55 is further provided with projections 55a and 55b and extensions 55c and 55d for positioning the circuit board 31.
The ink cartridge 500 of this structure also enables the data on the remaining quantities of inks to be stored into the storage element provided on the circuit board 31, as in the embodiments discussed above.
The above embodiments use the five color inks, magenta, cyan, yellow, light cyan, and light magenta, as the color inks kept in the color ink cartridge 107F. The principle of the present invention is also applicable to another ink cartridge, in which six or more different color inks are kept. The present invention is further applicable to the structure in which the ink cartridges are set to the printer main body 100, as well as to the structure in which the ink cartridges are mounted on the carriage 101.
The scope and spirit of the present invention are limited only by the terms of the appended claims.
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