KR20010060934A - Method for displaying image in order to improve resolution and driving circuit of plasma display panel device - Google Patents

Abstract

PURPOSE: An image display method for improving a solution and a driving circuit of a plasma display panel thereof are provided to improve the resolution without increase of the number of pixel by dividing image data into two or numerous fields with a vertical interlace method. CONSTITUTION: Firstly, an inputted analog type image signal is divided into three fields. At this time, the first field of three fields includes the first column, the 4th column, the 7th column, so on. The second field of three fields includes the second column, the 5th column, the 8th column, so on. The third field of three fields includes the third column, the 6th column, the 9th column, so on. A delay is performed at each field, and the image signal of the delayed field is converted into a digital image signal. After this, the digital image signal including a field discrimination number is transmitted to a logic circuit part and is converted into different R,G,B arrangement each other according to each field. After this, the different R,G,B arrangement each other is displayed through a display panel. In conclusion, because three times image data are generated with the same number of RGB pixel, a resolution is improved.

Description

TECHNICAL FOR DISPLAYING IMAGE IN ORDER TO IMPROVE RESOLUTION AND DRIVING CIRCUIT OF PLASMA DISPLAY PANEL DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for displaying image data, and more particularly, to an image display method for improving image quality, i.e., resolution by dividing and displaying image data into two or more fields in a vertical interlace method without any hardware change. will be.

One of the widely used methods for increasing the resolution of a screen in a general display device is to physically increase the number of pixels.

However, if the number of pixels is increased in this way, the resolution is improved by the increase in the number of pixels, while the development time and the development cost are significantly increased because the panel, which is hardware, has to be changed to increase the number of pixels. In addition, as the number of physical pixels increases, the driving integrated circuit also increases, thereby causing another problem that the driving circuit for driving the panel as well as the panel must be changed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides an image display method of increasing resolution by dividing image data into two or a plurality of fields in a vertical interlace method without any hardware change. There is this.

In addition, the present invention is to provide a driving circuit of the plasma display panel device for increasing the resolution by displaying the image data divided into two or a plurality of fields in a vertical interlace method.

1 conceptually illustrates a frame configuration of a general television video signal;

2 conceptually illustrates a frame configuration method according to an embodiment of the present invention;

3 is a diagram illustrating different arrangements of R, G, and B configurations of pixels for each field;

4 is a diagram conceptually illustrating an R, G, and B configuration of a pixel for each field according to an embodiment of the present invention, and thereby improving an actual screen resolution.

Fig. 5 is a block diagram of a plasma display panel device to which the image display method of the present invention is applied.

* Description of the main parts of the drawing

100: video processing unit

120: data conversion and control signal generator

140: data driving circuit

160: scan driving circuit portion

180: panel

According to the present invention for achieving the above object, in the image display method of the display device, the analog image signal input to display one frame is divided into first to third fields by a vertical interlace method, and the first A first step of converting the video signal of the analog form divided into the third field into a digital video signal at different times; In response to the first to third fields, the digital image signals of the first to third fields are converted into different R (Red), G (Green), and B (Blue) arrays of pixels provided in the display device. Second step; And a third step of displaying, on a display panel, an image signal obtained by converting the R, G, and B arrays of the pixels differently for each field.

In addition, the present invention relates to a driving circuit of a plasma display panel device for displaying an image signal on a panel through discharge, wherein the analog signal inputted to display one frame is inputted to the first to third fields in a vertical interlaced manner. Video processing means for dividing and converting an analog image signal divided into the first to third fields into a digital image signal at different times; In response to a field identification signal for identifying each field output from the video processing means, the digital image signals of the first to third fields output from the video processing means are R, G, B of different pixels for each field. Data conversion means for converting to an array; And data driving means for discharging the data electrode in response to the converted signal output from the data converting means.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. do.

In the case of a general television, as shown in FIG. 1, original image data of one frame is divided into two fields, that is, even field and odd field, and odd line data of an input image signal is input in an odd field, and in an even field. The even line data of the input image signal is displayed. In this way, a video signal composed of two fields is basically produced by a broadcasting station or other VTR and transmitted to a television.

As described above, in the present invention, the field configuration is divided into three fields in the vertical direction, and the number of pixels is changed by changing the R (Red), G (Green), and B (Blue) configurations of the pixels for each field. Increase the resolution without increasing the.

2 conceptually illustrates a frame configuration method according to an embodiment of the present invention, and further illustrates a sampling time point for converting an analog image signal into a digital image signal.

First, the input analog video signal is divided into three fields, namely, first, fourth, seventh,... A first field composed of columns, and second, fifth, eighth,... A second field composed of columns, and third, sixth, ninth,... The third field is divided into columns. The analog video signal divided into three fields is delayed for each field and converted into a digital video signal.

Therefore, the data of the frame is divided into first to third fields, and the data divided into three fields are sent to the logic circuit portion of the display device together with the field identification signal, which is then returned to different R, G, and B arrays of pixels for each field. Is converted. For example, as shown in FIG. 3, the first, fourth, seventh,... Regarding the data of the first field composed of columns, the R, G, and B configurations of the pixels are arranged in the R, G, and B arrays as in the prior art, and the second, fifth, eighth,. Regarding the data of the second field composed of columns, the R, G, and B configurations of the pixels are converted into G, B, and R arrays differently from the prior art, and the third, sixth, ninth,... As for the data of the third field composed of columns, the R, G, and B configurations of the pixels are converted into B, R, and G arrays unlike in the prior art.

Next, data in which the R, G, and B configurations of the pixels are differently converted for each field is displayed on the display panel through the driving integrated circuit.

Therefore, by using the image data three times in the same number of RGB pixels, the resolution of the actual screen is improved as shown in FIG.

Fig. 5 is a block diagram of a plasma display panel device to which the image display method of the present invention is applied. The image display method of the present invention will be described again by taking the plasma display panel device as an example.

First, the analog video signal is received from the video processor 100 and the analog video signal is divided into first to third fields as described above, and the analog video signals of the divided first to third fields are different at different timings. Convert to a digital video signal. In this case, the video processor 100 outputs a field identification signal for distinguishing each field.

In addition, the data conversion and control signal generator 120 outputs the digital image signals of the first to third fields output from the video processor 100 in response to the field identification signal. After converting the data into an array and outputting it to the data driving circuit unit 140, the control signal output from the data conversion control signal generating unit 120 is input to the scan driving circuit unit 160 to select a line of the panel 180. This is the same as in the conventional plasma display device.

Finally, an appropriate voltage is applied to the panel 180 through the data driving circuit unit 140 and the scan driving circuit unit 160 receiving the converted data, and discharges to display an image signal on the panel.

As a result, the resolution of the actual screen is improved by using three times the RGB pixels through the image data divided into three fields in the same number of RGB pixels of the panel 180.

Although the technical idea of the present invention has been described in detail according to the above preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

According to the present invention as described above, the image data is divided into two or a plurality of fields by the vertical interlacing method, thereby increasing the resolution without increasing the number of pixels.

Claims (4)

In the image display method of the display device, The analog video signal input to display one frame is divided into first to third fields by a vertical interlace method, and the analog video signal divided into the first to third fields is digitally divided at different times. Converting to a video signal; In response to the first to third fields, the digital image signals of the first to third fields are converted into different R (Red), G (Green), and B (Blue) arrays of pixels provided in the display device. Second step; And A third step of displaying an image signal obtained by converting the R, G, and B arrays of the pixels for each field on a display panel through a driving integrated circuit; An image display method comprising a. The method of claim 1, wherein in the first step, The first field is 3n + 1 (n is 0, 1, 2, ...) columns of the frame, The second field is, Consisting of 3n + 2 columns of the frame, The third field is And 3n + 3 columns of the frame. The method of claim 1, wherein in the second step, The digital video signal of the first field is arranged in an R, G, B arrangement of the pixels. The digital video signal of the second field is arranged in the G, B, R array of the pixels. And the digital video signal of the third field is converted into B, R, and G arrays of the pixels, respectively. In the driving circuit of the plasma display panel device for displaying a video signal on the panel through the discharge, The analog video signal input to display one frame is divided into first to third fields by a vertical interlace method, and the analog video signal divided into the first to third fields is digitally divided at different times. Video processing means for converting and outputting an image signal; In response to a field identification signal capable of identifying each field output from the video processing means, the digital image signals of the first to third fields output from the video processing means are R, G, B of different pixels for each field. Data conversion means for converting to an array; And Data driving means for discharging the data electrode in response to the converted signal output from the data converting means A driving circuit of the plasma display panel device comprising a.