KR100299973B1 - Method for Suppress Band Error in the Printer - Google Patents

Abstract

The present invention relates to a band printing method of a printer for printing print data in units of bands by a plurality of bands, wherein each graphic order is configured as an image for each type of graphic order constituting a predetermined printer control language. After the development processing time required for deployment is measured and stored in the nonvolatile memory, the development processing time of each graphic order required for creating a display list using the printer control language for the image of each band is recalled. When the accumulated band processing time is a complex band in which the accumulated band processing time exceeds the threshold processing time by comparing the accumulated and added band processing time with a predetermined threshold processing time in a nonvolatile memory, Allocate storage space to display band images A band error suppression method of a printer to be stored.

According to the present invention, it is possible to effectively prevent the band error which is a major obstacle when performing the real-time processing, there is an advantage that can perform the printing quickly by maximizing the performance of a given printer.

Description

Method for Suppress Band Error in the Printer

The present invention relates to a band error suppression method of a printer, and more particularly, to a laser printer, a band error suppression method of a printer for predicting a band error by calculating an expected time for processing a band and suppressing occurrence of a band error. It is about.

Recently, as the demand for office automation equipment such as printers, scanners, and facsimile is rapidly increasing due to the ever-changing office automation, each office automation equipment expands its own functions and at the same time lowers production costs. It is being developed to provide high efficiency, and in addition, each office automation device that was used independently is developed in one piece to reduce the economic burden and installation space for the user, and at the same time produce and output a complex document function. Is being provided.

In general, a laser beam printer has advantages such as fastness, low noise, and beautiful print quality, provided with toner, unlike a printer such as an inkjet.

Laser beam printers are page printing devices that continuously line scan without stopping the laser reading unit until paper is started and printing is completed. Therefore, video data to be scanned must be continuously fed to the photosensitive drum. .

In general, there is a method of printing through one direct memory access (DMA) with a page memory capable of storing all one page of bitmap data. Alternatively, data is printed page by page. In order to minimize these disadvantages, the page is divided into multiple bands to output complex pages with less memory of the laser beam printer. Band printing techniques for printing are known.

According to the band printing method according to the related art, all images of one band are stored in the form of a compressed command in a display list, and after the printing engine is driven, the graphic processor is compressed. Solve the command and print it on the print paper in real time. In the band printing method, when the image of the band is too complicated, a relatively large number of graphic orders must be processed, and thus, a band error occurs because the band processing speed of the graphic processing unit cannot keep up with the printing engine speed. there was. In this case, if a band error occurs, it is detected and printed as a full page or reprinted by increasing the number of physical bands. It takes much more time to print than this, and this may cause the user to recognize the printer as malfunctioning, which may cause inconvenience to the product and in some cases, waste of printing paper or toner unnecessarily. have.

Accordingly, the present invention has been devised to solve such a problem, and after estimating the estimated time required to process the corresponding band through a graphic order, the estimated time required to exceed the preset processing time. In this case, an object of the present invention is to provide a band error suppression method of a printer that can effectively prevent a band error, which is a major obstacle when performing real-time processing by storing the band in an image form.

1 is a schematic block diagram of a conventional printer apparatus for printing image data created on a computer with a printer;

2 is a detailed block diagram showing the configuration of a computer and a printer controller in a conventional general printer device;

3 is a detailed block diagram showing an internal configuration of a computer and a printer controller in a conventional GDI printer device;

Figure 4 is a flow chart showing a preferred embodiment of the band error suppression method of the printer according to the present invention.

In order to achieve the above object, the band error suppression method of the printer according to the present invention is a band printing method of a printer in which printing data by page is divided into a plurality of band units, each of which constitutes a predetermined printer control language. For each type of graphic order, the processing time required for developing each graphic order as an image is measured and stored in a nonvolatile memory, and then the image is controlled using the printer control language. The accumulated band processing time exceeds the threshold processing time by comparing the band processing time accumulated and added by reading the development processing time of each graphic order required in preparing the display list with the non-volatile memory with a preset threshold processing time. In the case of complex bands By allocating storage space as referred band it is characterized by a size that minimizes the error by storing the band-band image to the image status.

In general, a printer may be classified into a window graphic device interface (GDI) printer for a Windows program that provides device-independent graphic function for a corresponding device when an image is developed in a Windows operating system environment, and a general printer. There are various types of general printers, such as a printer control language (PCL) printer, a KS / KSSM printer, and a PostScript printer developed by Hewlett Packard.

1 is a schematic block diagram of a conventional printer device for printing image data created by a computer on a printer, and FIG. 2 is a detailed block diagram showing the configuration of a computer and a printer controller in a conventional general printer device. Is a detailed block diagram showing the internal structure of a computer and a printer controller in a conventional GDI printer apparatus.

A printer driver corresponding to the printer driver program 3 to create an original file (image data) that a user wants to output by using the application program 2 of the computer 1, and to print the created original file. If the printer is a GDI printer, the printer driving program 3 uses the GDI printer driving program 5, and the GDI printer driving program 5 is the computer 1. After receiving the device-independent output command from the device, generate image data for device-dependent output, compress the image data with a compressor (typically using 'RLE: Run Length Encoding') 6, and To the parallel port (4).

The printer controller 9 mounted in the printer 8 analyzes PCL commands and image data (or compressed image data in a GDI printer) received through the parallel port 4, and stores font data and image data. After the print image is developed using, the developed print image is temporarily stored in the buffer memory 11. Raw image data for output temporarily stored in the buffer memory 11 is finally transmitted to the printer engine 13 via the data sending unit 12 to perform a printing operation.

Here, 14, which is not described in FIG. 1, is an operation panel that can select various functions of the printer 8. In FIG. In addition, reference numeral 15 in FIG. 2 denotes a band processing unit which divides a print page into several bands or pieces, and later synthesizes these bands or pieces to print the page, and 16 to 19 are printer controllers 9. And a communication device, a panel driver, a paper feed controller, and an engine driver of the printer 8 to be controlled by the. 20 is a program memory in which a program for controlling the driving state of the printer 8 described above is stored, 21 is a font memory for storing font data transmitted from the computer 1, and 22 is driving of the printer 8 It is a central processing unit which controls the state and simultaneously develops the image data transmitted from the printer 1.

Background Art A conventional printer has recently tended to print print data in units of bands in a plurality of bands in order to minimize the amount of memory required for printing. Hereinafter, with reference to Figure 4 attached to a preferred embodiment of the band error suppression method of the printer according to the present invention based on the hardware configuration of the printer as described above in detail as follows.

Figure 4 is a flow chart showing a preferred embodiment of the band error suppression method of the printer according to the present invention.

According to a preferred embodiment of the method for suppressing a band error of a printer according to the present invention, as shown in FIG. 4, in a band printing method of a printer in which printing data in units of pages is divided and printed in units of bands,

Measuring deployment processing time required for developing each graphic order as an image for each type of graphic order constituting a preset printer control language and storing the development processing time in a nonvolatile memory (S10);

Calculating the band processing time of the corresponding band by reading and accumulating and adding the development processing time of each graphic order necessary for creating a display list using the printer control language for the images of each band in the nonvolatile memory. (S20);

Checking whether the accumulated band processing time exceeds a predetermined threshold processing time and determining a complexity of the corresponding band (S30);

As a result of the determination step (S30) and the determination result, when the accumulated band processing time is a complex band exceeding the threshold processing time, the band image is allocated to the image state by allocating a storage space corresponding to the band size, rather than the graphic order form. Storing (S40); And

As a result of the determination step (S30) and the determination result, if the accumulated band processing time is a simple band which does not exceed a predetermined threshold processing time, the display list is created by the graphic order using the printer control language to compress the display list. It is configured to include a step (S50) to make a command form.

The procedure of the preferred embodiment of the band error suppression method of the printer according to the present invention configured as described above will be described in detail with reference to FIG.

First, in step S10, for each type of graphic order constituting the preset printer control language, the development processing time required for developing each graphic order as an image is measured and stored in the nonvolatile memory.

At this time, even if the graphic order is the longest among the various graphic orders, the operation is performed in a very short time, such as nano picoseconds, so the development processing time of each graphic order is actually measured. In order to measure the repetition processing time of a plurality of the same graphic order, it is possible to easily measure the reproduction processing time of the graphic order by dividing by the number of repetitions. Here, since the processing time of development of each graphic order is highly dependent on the performance of the processor of the printer, the items of the look-up table (LUT) for each graphic order are created in consideration of this.

As described above, the present invention is based on the premise that the development processing time of each graphic order is measured off-line and pre-stored in the form of a lookup table in a nonvolatile memory.

On the premise that the development processing time of each graphic order is searched in the non-volatile memory as described above, in step S20, each graphic order required for creating a display list using the printer control language for the image of each band is used. The band processing time of the corresponding band is calculated by reading and accumulating and adding the development processing time to the nonvolatile memory.

In step S30, the complexity of the corresponding band is determined by checking whether the accumulated band processing time exceeds a predetermined threshold processing time. In this case, it is preferable that the threshold processing time is set within a time that the band processing speed of the graphic processing unit can follow the printing engine speed by an experimental method.

In general, when compressing an image through each graphic order in the printer control language, if the texture distribution of the image is relatively complex, even if the bands of the same size are used, more graphic orders are required than simple images. At the same time, it means that the compression rate is low and at the same time, it takes a lot of time to develop the graphic orders of the band.

As a result of the determination step (S30) and the determination result, when the accumulated band processing time is a complex band exceeding the threshold processing time, in step S40, the storage space is allocated to the image state by allocating a storage space corresponding to the band size rather than the graphic order form. When the band image is stored, and the determination step (S30) and the determination result is a simple band in which the accumulated band processing time does not exceed a predetermined threshold processing time, in step S50, each graphic is executed using the printer control language. By creating the display list as an order, it is in the form of a compressed instruction.

In order to print one page of each band, the printing engine is run, and the data created by the graphic order is printed by decompressing (expanding) the compressed command. Otherwise, the data of the band image in the image state is printed on the print paper as it is. By printing in real time, printing can be performed quickly without band error.

Terminologies used herein are terms defined in consideration of functions in the present invention, which may vary according to the intention or customs of those skilled in the art, and the definitions should be based on the contents throughout the present application. will be.

In addition, since the present invention has been described through the preferred embodiment of the present invention, in view of the technical difficulty aspects of the present invention, those having ordinary skill in the art can easily be different from another embodiment of the present invention. Since modifications may be made, it is obvious that both the embodiments and modifications cited in the above description belong to the claims of the present invention.

As described in detail above, in a band printing method of a printer in which print data in units of pages is divided and printed in units of a plurality of bands, for each type of graphic order constituting a preset printer control language, After measuring the development processing time required to develop a graphic order as an image, storing it in a nonvolatile memory, and using the printer control language for the image of each band, When the accumulated band processing time is a complex band in which the accumulated band processing time exceeds the threshold processing time by comparing the band processing time accumulated and added by reading an unfolding processing time from the nonvolatile memory, the graphic order form Rather, it allocates the amount of storage space According to the present invention for storing the band image in an unknown state, it is possible to effectively prevent the band error, which is a major obstacle when performing real-time processing, so that the printing can be performed quickly by maximizing the performance of a given printer. have.

Claims (1)

A band printing method of a printer for printing printing by dividing the page-by-page print data into a plurality of band units; Measuring a deployment processing time required for developing each graphic order as an image for each type of graphic order constituting a predetermined printer control language and storing the same in a nonvolatile memory; Calculating the band processing time of the corresponding band by reading and accumulating and adding the development processing time of each graphic order necessary for creating a display list using the printer control language for the images of each band in the nonvolatile memory. Wow; Determining the complexity of the corresponding band by checking whether the accumulated band processing time exceeds a predetermined threshold processing time; If the accumulated band processing time is a complex band exceeding the threshold processing time, storing the band image in an image state instead of the graphic order form; And And when the accumulated band processing time is a simple band in which the accumulated band processing time does not exceed the threshold processing time, creating the display list with each graphic order using the printer control language. The band error suppression method of the printer characterized by the above-mentioned.