KR20050062888A - Method for processing image according to input screen in plasma display panel - Google Patents

Abstract

The screen processing method of the present invention can improve image quality by adjusting gains for each mode while minimizing an increase in data lines. In the plasma display panel displaying an external image signal corresponding to an external input screen, the screen processing method according to the present invention comprises the steps of: a) detecting the image signal mode according to the type of the input external image signal, b) the input external Detecting the screen display mode according to the display method of the video signal; and c) a screen processing step of independently performing the screen processing for each area of the display screen according to the screen display mode and the video signal mode.

The screen processing method of the present invention can improve image quality by adjusting gains for each mode while minimizing an increase in data lines.

Description

Screen processing method according to input screen in plasma display panel {Method for Processing Image according to Input Screen in Plasma Display Panel}

The present invention relates to a screen processing method in a plasma display panel, and more particularly, to a screen processing method according to an input screen in a plasma display panel.

1A and 1B illustrate two image signal modes of a general plasma display panel according to an input screen. FIG. 1A illustrates a PC signal mode of a plasma display panel, in which a PC signal output from a personal computer (100) is converted into a form suitable for a plasma display panel through a format conversion unit 210, thereby converting the plasma display panel 200 into a plasma display panel 200. Is displayed through.

FIG. 1B illustrates a video signal mode of the plasma display panel, in which a video signal output from the set-top box 300 is converted into a form suitable for the plasma display panel through the format converter 210 and displayed on the plasma display panel 200. do.

In this case, the plasma display panel adjusts a gain value in the PC signal mode so that a screen having a relatively low luminance is displayed. In addition, the plasma display panel adjusts a gain value in the video signal mode to display a screen having a relatively high luminance.

Such adjustment of brightness generally requires a relatively high brightness because the video screen has a large change in gradation, and a PC screen needs a relatively low brightness because the change in gradation is small, so adjust the output according to each screen. For sake.

At this time, the type of signal inputted by the plasma display panel is determined by determining whether the mode selection signal transmitted through the input port is 1 or 0. That is, the plasma display panel determines that the mode selection signal is a PC signal when the mode selection signal is 1, and that it is a video signal when the mode selection signal is 0. That is, in order to determine the display mode of the plasma display panel, only one bit of data line is required.

However, the conventional plasma display panel displaying the screen in the PC signal mode and the video signal mode processes only assuming that the input screen is a pure video signal or a PC signal.

Therefore, when a PC signal and a video signal corresponding to an input screen are simultaneously input and simultaneously displayed in a picture in picture (PIP) or twin picture, the plasma display panel may not display an optimal picture quality.

In this case, the twin screen refers to a screen that is divided into two screens of the plasma display panel and appears in each area, and the sub-screen refers to a screen expressed in the PIP window and a screen expressed in the twin screen window. Hereinafter, a mode in which a sub screen such as a PIP or twin screen is displayed is called a screen display mode.

The present invention is to solve the above problems, and to provide a screen processing method of a plasma display panel that can provide an optimal picture quality when a video signal and a PC signal are input at the same time.

In order to achieve the above object, a plasma display panel displaying an external image signal corresponding to an external input screen, wherein the screen processing method according to the present invention comprises the steps of: a) detecting an image signal mode according to a type of an external image signal input; b) detecting a screen display mode according to a display method of an input external video signal; and c) a screen processing step of independently performing screen processing for each display screen region according to the screen display mode and the image signal mode. do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In order for the plasma display panel to determine the PC signal mode, the video signal mode, and the screen display mode such as PIP or twin screen, 1) whether the video signal mode / PC signal mode of 1-bit full screen is used, or 2) whether the screen display mode is 1-bit. , 3) whether a 1-bit PIP window or twin-screen window has a video or PC signal input, 4) the 22-bit PIP window or twin-screen window's start pixel position, and 5) the 22-bit PIP window or twin-screen window's width and height. A total of 47 bits of mode information signal are needed for the length.

The position of the start pixel is expressed by the coordinates of the horizontal line and the vertical line of the plasma display panel, and the length of the horizontal and the vertical means the number of pixels in the X-axis direction and the Y-axis direction from the start pixel. . Therefore, information about the position of the 22-bit start pixel and the 22-bit horizontal and vertical paths is the information about the sub-screen area.

At this time, since 47 bits of information is one embodiment, it is not necessarily limited to 47 bits. In addition, there may be a plurality of PIP windows, and area information of each of the plurality of PIP windows may be included in the mode information signal.

As described above, since more data lines are required to determine each mode, the present invention uses an IIC bus that supports two-bit serial communication present in the plasma display panel.

2 is a block diagram of a plasma display panel for performing a screen processing method according to the present invention. As shown in FIG. 2, the plasma display panel for performing the screen processing method according to the present invention includes a format converter 210, a pixel counter 220, a shift register 230, a main controller 240, and a gain. The controller 250, the subfield mapping unit 260, the data alignment unit 270, the X electrode driver 280, the Y electrode driver 290, the Z electrode driver 300, and the high voltage driver 310 are included. .

The format converter 210 converts the video signal and the PC signal into a data format that can be represented on the plasma display panel, and generates a mode selection signal. These mode selection signals are 1 bit full screen video signal mode / PC signal mode, 1 bit screen display mode, 1 bit PIP window or twin screen window video signal or PC signal input, 22 bit PIP Contains information about the position of the start pixel of a window or twin screen window, and the width and height of a 22-bit PIP window or twin screen window.

The pixel counter 220 counts the number of pixels from the converted video signal or the PC signal.

The shift register unit 230 temporarily stores the 47-bit mode information signal transmitted from the format converter 210.

The main controller 240 receives the mode information signal from the format converter 210 through the IIC bus supporting 2-bit serial communication and stores it in the shift register 230 to display the type of mode and the sub-screen. If the pixels of the main screen and the sub-screen area are counted from the pixel counter 220 by determining whether a signal or a video signal is present and the area of the sub-screen, a gain control signal according to a signal expressed in the main and sub-screen areas Output

The gain adjusting unit 250 adjusts the gain of the video signal corresponding to the main screen and the sub-screen according to the gain control signal transmitted from the main control unit 240.

The subfield mapping unit 260 maps the image signal whose gain is adjusted by the gain adjusting unit 250 to a preset subfield pattern.

The data aligning unit 270 rearranges the image signals for each subfield mapped by the subfield mapping unit and applies them to the panel.

The X electrode driver 280 and the Y electrode driver 290 apply an address pulse and a scan pulse to the X electrode and the Y electrode to form wall voltages in the discharge cells of the plasma display panel under the control of the main controller 240. .

The Y electrode driver 290 and the Z electrode driver 300 alternately apply a sustain pulse to the Y electrode and the Z electrode to maintain the discharge of the discharge cell in which the wall voltage is formed under the control of the main controller.

The high voltage driving circuit unit 310 receives a logic control pulse from the main controller 240 and applies the high voltage control pulse to the X electrode, the Y electrode, and the Z electrode driving unit 280, 290, 300.

3 is a flowchart of a screen processing method according to the present invention.

First, the format converter 210 converts an external input video signal into a video signal suitable for a plasma display panel, generates a mode information signal, and transmits it through an IIC bus supporting 2-bit serial information. In addition, the pixel counter 220 counts pixels using the image signal converted by the format converter S310.

The main controller 240 receives the 47-bit mode information signal input through the IIC bus and stores the bit information by 2 bits (S320).

Thereafter, the main controller 240 determines whether the current mode is the PC signal mode or the video signal mode by using the mode information signal (S330).

At this time, if the current mode is the PC signal mode, the main controller 240 analyzes the mode information signal to determine whether there is a screen display mode (S340).

If there is no screen display mode, the main controller 240 controls the gain adjuster 250 to adjust the gain of the video signal of the entire screen so that the luminance is lowered (S350).

If there is a screen display mode, the main controller 240 determines whether the video signal corresponding to the sub-screen is a video signal (S360).

If the video signal corresponding to the sub-screen is a video signal, the main controller 240 detects an area of the sub-screen using the mode selection signal and uses the information on the number of pixels input from the pixel counter 220 to display the sub-screen. The gain adjusting unit 250 is controlled to reduce the luminance of the image signal corresponding to the region and to increase the luminance of the image signal corresponding to the region of the sub-screen (S370).

If the current mode is the video signal mode in S330, the main controller 240 analyzes the mode information signal to determine whether there is a screen display mode (S380).

If there is no screen display mode, the main controller 240 controls the gain adjuster 250 to adjust the gain of the video signal of the entire screen so that the luminance is increased (S390).

If there is a screen display mode, the main controller 240 determines whether the video signal corresponding to the sub-screen is a PC signal (S400).

If the video signal corresponding to the sub-screen is a PC signal, the main control unit 240 may increase the luminance for the video signal corresponding to the area of the main screen and lower the luminance for the video signal corresponding to the area of the sub-screen. The control unit 250 is controlled (S410).

As described above, the screen processing method of the present invention may improve image quality by adjusting gains for each mode while minimizing an increase in data lines.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the screen processing method of the present invention may improve image quality by adjusting gains for each mode while minimizing an increase in data lines.

1A and 1B illustrate two image signal modes of a general plasma display panel according to an input screen.

2 is a block diagram of a plasma display panel for performing a screen processing method according to the present invention.

3 is a flowchart of a screen processing method according to the present invention.

Claims (8)

In the plasma display panel for displaying an external video signal corresponding to the external input screen, Detecting a video signal mode according to the type of the external video signal; Detecting a screen display mode according to the display method of the input external video signal; And And a screen processing step of independently performing screen processing for each area of a display screen according to the screen display mode and the image signal mode. The method of claim 1, And the video signal mode is information for determining whether the external video signal is a video signal or a PC signal. The method of claim 1, And the screen display mode determines whether the PIP image has at least one sub-screen. The method of claim 1, And the screen display mode is information for determining whether the screen is a multi-screen image having two or more different display areas. The method of claim 1, And processing the screen to have a different luminance value for each display area. The method of claim 5, In the screen display mode, when the external video signal corresponding to the main screen is a video signal and the external video signal corresponding to the sub-screen is a PC signal, the brightness of the video signal is adjusted to increase the brightness, and The brightness of the screen by adjusting the gain to reduce the method of processing. The method of claim 5, In the screen display mode, when the external video signal corresponding to the main screen is a PC signal and the external video signal corresponding to the sub-screen is a video signal, the gain of the video signal is adjusted to increase the luminance, and A screen processing method, characterized in that the brightness is reduced by adjusting the gain. The method of claim 1, The generated mode selection signal is transmitted through an IIC bus supporting serial transmission.