Facsimile and static presentation processing – Static presentation processing – Dot matrix array
Reexamination Certificate
2000-04-05
2004-11-30
Lamb, Twyler (Department: 2622)
Facsimile and static presentation processing
Static presentation processing
Dot matrix array
C358S001900, C358S296000
Reexamination Certificate
active
06825951
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to inkjet printing. More particularly, this invention relates to a method used to control one or more printheads in an inkjet printer, and to an inkjet printer utilizing this method.
2. Related Technology
Inkjet printers or plotters typically have a print cartridge mounted on a carriage. This carriage is traversed back and forth across the width of a print medium (i.e., usually paper or a plastic plotting film, for example) as the print medium is fed through the printer or plotter. Plural orifices on the print cartridge are fed ink (or other printing fluid) by one or more channels communicating from a reservoir of the print cartridge. Energy applied individually to addressable resistors (or other energy-dissipating elements, for example, to piezoelectric actuators), transfers energy to printing fluid; which is within or associated with selected ones of the plural orifices. These orifices then eject printing fluid onto the printing medium.
Presently, it is conventional that when a new printhead technology is developed older printers are replaced with new printers that are able to use the new printhead technology. This is due to the conventional practice of using a control circuit in conventional printers that is a print formatter and printhead controller circuit. This control circuit, which is of a proprietary nature to each printer or family of printers, receives high level printing signals, and produces the control signals necessary not only to control the actions of the printer (i.e., movements of the print medium, and of the printhead carriage relative to this medium), but also controls the actions of the print cartridge itself. Thus, no two printer models, or only a family of printer models, even those manufactured by the same company, are compatible and can use printheads interchangeably. Theretofore it has not been practical to update existing printers with new printheads of new and improved technology because the new printhead would require control signals that simply could not be provided by the old formatter and printhead controller circuit.
Viewing now PRIOR ART
FIG. 12
, it is seen that in a conventional ink jet printer
500
, all of these actions of the printer are controlled by a combination print formatter and printhead controller circuit
502
; which receives high-level printing signals and printing data (represented by arrow
504
), and transforms this high-level printing signals and data from the high-level language of the host computer (or other printing data source—not shown in the drawing Figures) into those discreet-event commands which control not only the firing sequence of the orifices of a printhead (i.e., the printing fluid ejection events) but also the position of the printhead(s), the movement of paper or other printing medium through the printer, etc.
Viewing
FIG. 12
in greater detail, it is seen that a communication channel
504
(i.e., a printer cable, for example) exists between a sending device or other originator or source of high-level printing data and signals (such as a personal computer or other host computer system), and a conventional printer
500
having a combination print formatter and printhead controller circuit
502
. The communication channel
504
facilitates the communication of the high-level printing signals
502
to the printer
500
. This communication channel
500
may be a direct linkage between the host system and the print formatter and printhead controller circuit
502
, or the communication channel may be effected through intermediate devices, such as a network print server, or the printer
500
may simply include a memory cache such as is incorporated into many conventional printing devices (i.e., a print buffer). That is, some part of, or all of the high-level print data and signals may be uploaded and stored in a print buffer memory cache until the combination print formatter and printhead controller circuit is ready to receive this communication. The print formatter and printhead controller circuit
502
then translates the signals
500
sent by the host system into a set of instructions that are conveyed to a printheads
506
of the printer
500
in a two way communication steam
508
such that the printhead
506
receives all necessary data for performing the print job and reports back such things as current position (i.e., horizontal and vertical position relative to the print medium), printhead temperature, and possibly an array of error messages to the control device, so that not only may the print formatter and printhead control circuit
502
keeps track of the position of the printhead
506
, but also corrective action may be taken if any problems arise.
A long-standing challenge and deficiency in the manufacturing of such conventional inkjet printers
500
has been that when new improved printheads are developed and come on the market there is no easy or practical way to upgrade existing printers to utilize the new technology. This is the case because the print formatter and printhead controller circuit is able to provide control signals only for a particular one or limited family of printheads. As new printhead technology and new printheads become available, they require control signals that the print formatter and printhead controller circuit
502
cannot provide.
SUMMARY OF INVENTION
In view of the deficiencies of the related technology, an object for this invention is to reduce or overcome one or more of these deficiencies.
One or more of the objectives of this invention may be realized through a method of communication between a print formatter circuit and a printhead controller circuit which utilizes selected codes and algorithms. The information of how to convert the selected codes and algorithms to the discreet action commands required by a particular printhead is embedded in an ASIC chip or chipset. This ASIC chip or chipset may be specific to a single printhead, or to a family of printheads. This method will allow utilization of different printhead types in a printer at different times.
Further, the present invention provides for a printer to have a printhead controller circuit which is a separate circuit from a print formatter circuit, and that the printhead controller circuit will have the means to determine if the type of printhead currently in the printer is compatible with the current instruction set.
Accordingly, in view of the above, it is seen that the present invention makes it possible to diminish or eliminate the conventional problems relating to printer and printhead upgrades by providing a method and apparatus by which a printer may be altered in an economical fashion to adapt to, communicate with, and utilize any new applicable printhead. A new printhead controller circuit (i.e., and ASIC chip or chipset) may be inserted into the printer, and the new printhead will then be controlled by the print formatter circuit via this new printhead controller.
The present invention provides a method and apparatus for providing communication between the formatter of a printer and a printhead; which will allow for the adaptation of multiple printhead types with little alteration of the printer hardware. This new printer communication interface or protocol will function with an application specific integrated circuit chip (i.e., an ASIC) which is easily changed in and out of the printer.
Such an ASIC is an integrated circuit chip or chipset with application specific instructions built into it which relate to each and every function necessary for the control of a printhead (or plural printheads). The above mentioned instruction set includes directives such as those relating to the multiple functions of the printer mechanism. Some of the more common functions for a printhead controller are listed below:
1. Power supply sequencing; which provides control signals and timing for properly controlling the various power supplies during printhead power up and power down;
2. Reset sequencing. This is a signal or group
Tan Jui-Tong
Vives Juan Carles
Hewlett--Packard Development Company, L.P.
Lamb Twyler
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