KR100299502B1 - Contrast compensation method of liquid crystal display - Google Patents

Abstract

In all liquid crystal displays to which fast-fill mode is applied, compensating for the reduction in image display contrast due to white afterimages generated in each pixel unit after bit conversion of image data applied to pixels. For this purpose, the fast fill is started at the horizontal and vertical synchronization points, and then bit conversion of the image data is performed at the center point where the fast fill is performed, thereby reducing the white afterimage time and area of each pixel, thereby increasing the contrast efficiency of the panel. Accordingly, the present invention relates to a method of compensating for contrast of a liquid crystal display with improved image quality of an image displayed on a panel.

Description

Contrast Compensation Method of Liquid Crystal Display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display (LCD). Particularly, in a liquid crystal display in which a fast-fill mode is applied, a liquid crystal display is generated in units of pixels after bit conversion of image data applied to pixels. A contrast compensation method of a liquid crystal display for compensating for a reduction in image display contrast due to white afterimages.

The liquid crystal display applies an electrical signal to a plurality of liquid crystal pixel matrices through a driving circuit of a panel to display a desired image or character on the panel, and the level of the electrical signal applied to each pixel to change the displayed image. In the process, a pixel displaying a predetermined image in the process leaves a residual image of white on the panel, and the white residual image reduces the efficiency of contrast of the liquid crystal display.

In general, in order to improve the efficiency of the contrast, a fast fill mode is applied to the LCD, and the fast fill mode provides a high speed processing method of displaying all images including black or white at high speed. In the fast fill mode of the Ferro-electric Liquid Crystal Display (hereinafter referred to as 'FLCD'), the input image data is displayed on the panel by a fixed time schedule of the system controller, and then each pixel of the panel becomes black. .

Here, bit conversion of each input image data of the system controller causes bit conversion in which all the row data in the memory bank is changed from 0 to 1 or from 1 to 0. DISPLYTECH It is disclosed in the KAUAI REFERENCE MANUAL AND DESIGN SPECIFICATION, which was issued in July 1997 by the company.

When performing the bit conversion BC, as illustrated in FIG. 1A, image data corresponding to black (B; Black) are sequentially changed from white (W) to highest (lowest) low data.

Due to the characteristics of LCD panel such as FLCD, in order to remove the white afterimage of a pixel after one display, fast fill is performed from the highest row to the white in the bank and bit conversion is performed as shown in FIG. When the portion is enlarged on the time axis, the white portion B is generated for a period of time until the fast fill is completely performed on the lowest row according to a time delay, instead of simultaneously turning white from the highest row to the lowest row.

Here, the whites changed by the fast fill mode become black again by bit conversion.

In fact, the white portion B generated on the time axis during the fast fill process acts as a factor for rapidly reducing the image display contrast of the panel and reduces the displayed image quality.

An object of the present invention is to display an image display contrast due to a white afterimage generated in each pixel unit after bit conversion of image data applied to a pixel in all liquid crystal displays to which a fast-fill mode is applied. The present invention provides a method of compensating contrast of a liquid crystal display for performing bit conversion at a point in time in which fast fill is performed after fast fill is performed to compensate for the reduction.

In the contrast compensation method of the present invention for achieving the above object, in the liquid crystal display to which the fast fill mode is applied, the fast fill is performed when fast filling the image data recorded in the memory at a predetermined horizontal and vertical synchronization time point. At this point, the image data is bit-converted to minimize the area of the white portion along the time axis.

1 is a view for explaining a conventional fast fill and bit conversion timing,

2 is a block diagram showing an LCD image display control device applied to the present invention;

3 is a diagram illustrating a fast fill and bit conversion timing according to the present invention.

Explanation of symbols on the main parts of the drawings

10: memory bank 15: system controller

20: Liquid Crystal Display Panel

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

2 is a block diagram showing an LCD image display control device applied to the present invention, and includes a memory 10, a system controller 15, and an LCD panel 20.

The memory 10 includes a RAM array and a row / column driving circuit unit for storing predetermined image data for each address. The system controller 15 is configured to provide a clock signal, a sync signal, and a sync signal from an external source. Row / Column Address, Fast Fill, and Bit Conversion Control to Read and Receive Predetermined Image Data after Enabling Able Signal and Enable Data Output each signal.

The LCD panel 20 displays image data (Data) output from the memory 10 on the panel by signal processing, and receives the fast fill and bit conversion control signals output from the system controller 15 to receive the horizontal and vertical signals. It is configured to improve the efficiency of contrast by fast-filling and bit-converting the video data displayed on the panel at the time of synchronization.

That is, the process of performing the fast fill and at the same time performing the fast fill in white from the highest row to the lowest row in the bank of the memory 10 to remove afterimages of each pixel of the panel after one display due to the characteristics of the LCD series panel. Bit-converts the image data.

The time point of the bit conversion of the image data can be changed by changing the time schedule of the system controller 15, and the bit conversion timing is set to the point of optimum contrast.

3 is a view illustrating a fast fill and bit conversion timing according to an exemplary embodiment of the present invention. When the portion A of FIG. 1A is enlarged on a time axis, the image data output from the memory 10 to the LCD panel 20 is illustrated. It shows the time of bit conversion of (Data) and fast fill.

The fast fill and bit conversion control signals of the image data displayed on the LCD panel 10 are output from the system controller 15. At this time, the system controller 15 recognizes a section in which fast fill is performed from the highest row data to the lowest row data of the blurrier body in advance. It is possible to detect an intermediate point to be performed. When the intermediate point at which the fast fill is performed is detected, bit conversion is performed from the image data at the intermediate point at which the fast fill is performed.

By moving the bit conversion point (BCP) to the point where the intermediate fast fill is performed after starting the fast fill as described above, the area of the white area along the time axis is larger than that of the conventional pass fill and bit conversion. It can be seen through Figure 3 that the white portion generated by the reduced to half level.

As shown in FIG. 3, when bit conversion of the image data is performed at the center of the fast fill, the white area having the smallest area in the area distribution can be seen, thereby increasing the efficiency of screen contrast.

As described above, in the present invention, by performing bit conversion of the image data at the point where fast fill is performed, the white afterimage time and area of each pixel are reduced to increase the efficiency of the contrast of the panel. The image quality of the displayed image is further improved.

Claims (1)

In the liquid crystal display to which the fast peel mode is applied, Performing a fast fill of the image data recorded in the memory at a predetermined horizontal and vertical synchronization time point, Detecting an intermediate time point at which the fast peel is performed; When the intermediate point at which the fast fill is performed is detected, the image data corresponding to black is converted into white and the image data corresponding to white is converted into low data by starting bit conversion from the image data of the intermediate point at which the fast fill is performed. Contrast compensation method of the liquid crystal display, characterized in that consisting of a process.