KR20080025849A - Gradation data converting apparatus for lcd - Google Patents

Abstract

An apparatus for converting gray scale data for an LCD device is provided to reduce manufacturing cost by forming a gray scale converting unit in an LCD(Liquid Crystal Display) driver. An apparatus for converting gray scale data for an LCD(Liquid Crystal Display) device includes a first line memory(51), a gray scale storing unit(52), a data converting unit(55), a data compression unit(53), a data extraction unit(54), and a second line memory(56). The first line memory stores gray scale data for operating the LCD. The gray scale storing unit stores gray scale displayed through an LCD panel. The data converting unit generates gray scale data required for LCD operation based on the gray scale data of the first line memory and gray scale storing unit. The data compression unit compresses gray scale data from data converting unit and stores the compressed gray scale data. The data extraction unit extracts the compression of the gray scale data. The second line memory stores gray scale data from the gray scale storing unit and outputs the stored gray scale data to drive the LCD.

Description

Gradation data converting apparatus for LCD

1 is a block diagram showing the configuration of a conventional gradation data converting apparatus.

2 is a block diagram showing the configuration of a gradation data converting apparatus for an LCD according to an embodiment of the present invention;

3 is a view for explaining a gradation conversion operation according to the present invention;

*** Brief description of the main parts of the drawing ***

51, 56: line memory, 52: gradation data storage,

53: data compression unit, 54: data expansion unit,

55: data conversion unit.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gradation data converting apparatus for driving a liquid crystal display (LCD), and more particularly, to a gradation data converting apparatus for an LCD which can minimize the size of the apparatus for gradation conversion.

Currently, LCD is widely used as a display device. Such LCDs are easy to form large screens, and have a feature of flat panel display devices.

However, in general, LCDs have a long response time due to cumulative response, resulting in afterimages. Therefore, in order to improve such a response characteristic, a technology for over-drivening an LCD by converting grayscale data supplied to the LCD panel has been developed and used. Techniques related to such overdrives are disclosed in US Pat. Nos. 5,347,294, 5,465,102 and 5,844,533, Japanese Patent Application Laid-Open No. 128128 and US Patent Application No. 10 / 395,663.

1 is a block diagram showing a schematic configuration of a conventional overdrive technology, in particular, a gradation data converter disclosed in US Patent Application No. 10 / 395,663.

The gradation data converter shown in FIG. 1 includes a processor 10, an LCD driver 20, a data converter 30, and a frame memory 40. As shown in FIG.

The processor 10 processes image data to generate and output grayscale data for each pixel of the LCD panel, and the LCD driver 20 drives the LCD panel based on the input driving signal. These processors 10 and the LCD driver 20 are employed in a general LCD device.

On the other hand, the data converter 30 and the frame memory 40 are employed for overdrive of the LCD.

In the data conversion apparatus 30, the recording buffer 31 stores gradation data input from the processor 10, and the data conversion unit 32 stores gradation data and the frame memory 40 stored in the recording buffer 31. The data conversion process is executed based on the gradation data stored in. The grayscale data converted as described above is stored in the frame memory 40 to drive the LCD.

The frame memory 40 includes a data storage area corresponding to the number of pixels included in the LCD panel, and stores grayscale data displayed through the LCD panel. That is, the grayscale data currently displayed on the LCD is stored in the frame memory 40.

In the apparatus, the data conversion device 30 is displayed through the grayscale data stored in the recording buffer 31, that is, the grayscale data to be displayed next through the LCD and the grayscale data stored in the frame memory 40, that is, through the current LCD. The difference value between the two tone data is calculated by comparing the tone data, and the conversion process of the tone data is executed based on the difference value obtained at this time. At this time, the data conversion process overdrives the LCD by executing the gradation data supplied to the LCD to increase the difference value with the previous gradation data.

However, the above-described gradation data converter has the following problems.

In the conventional gradation data conversion apparatus, it is necessary to store the gradation data displayed through the LCD in order to convert the gradation data. For this reason, the frame memory 40 is essentially employed. This causes the price of the device for gradation conversion to increase.

1, the data converter 30 is provided in the LCD driver, and the frame memory 40 is provided as a separate device. Therefore, the adoption of the frame memory 40 requires a separate interface between the LCD driver and the frame memory 40.

In addition, when the frame memory 40 is integrally formed in the LCD driver, a problem arises in that the size of the LCD driver increases and the price of the LCD driver increases.

Accordingly, an object of the present invention is to provide a gradation data converting device for an LCD which can reduce the price of a product by minimizing the size of memory required for gradation data conversion. have.

In addition, another object of the present invention is to provide a gradation data conversion device for an LCD that can be used by employing it in a small size LCD driver by minimizing the size of memory required for the conversion of gradation data.

In the gradation data converting apparatus for LCD according to the present invention for realizing the above object, in the gradation data converting apparatus for LCD converting the gradation data for driving the LCD panel, the gradation data for driving the LCD input from the outside A first line memory for storing a predetermined scan line unit, a gradation data storage unit for storing gradation data currently displayed through the LCD panel, gradation data stored in the first line memory and the gradation data storage unit A data converter for generating and outputting grayscale data for driving the LCD panel based on the stored grayscale data; a data compressor for compressing the grayscale data output from the data converter and storing the grayscale data stored in the grayscale data storage unit; A data decompression unit for decompressing the gradation data read out from the storage unit and the image Storing the gradation data outputted from the tone data storage section to a predetermined scan line by unit is characterized in that comprises a second line memory for output to the LCD driving.

The data compression unit may perform data compression according to a DCT algorithm.

In addition, the data conversion unit and the gradation data storage unit may be integrated in the LCD driver.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings.

2 is a block diagram showing the configuration of a gradation data conversion device for an LCD according to an embodiment of the present invention. In addition, in FIG. 2, the same code | symbol is attached | subjected to the substantially same part as the structure of FIG. 1 mentioned above, and the detailed description is abbreviate | omitted.

In FIG. 2, the gradation data conversion device for the LCD includes a first line memory 51, an image data storage unit 52, a data compression unit 53, a data extension unit 54, a data conversion unit 55, and a second unit. And a line memory 56.

The first line memory 51 stores grayscale data input from the processor 10. The first line memory 51 stores data to be displayed on the LCD panel in scan line units. In the present embodiment, the first line memory 51 has a data storage capacity corresponding to eight scan lines of the LCD panel, for example, and stores these gray scale data to be displayed.

The gradation data storage unit 52 stores the gradation data currently being displayed through the LCD panel. The gradation data storage section 52 is composed of a memory such as a general RAM. The frame memory 40 of FIG. 1 includes a gradation data storage area corresponding to the number of pixels of the LCD panel. However, the gradation data storage unit 52 of this embodiment has a storage capacity of, for example, 1/8 of the conventional frame memory 40. The gradation data storage unit 52 does not store the gradation data for driving the LCD panel, but only the gradation data currently being displayed through the LCD panel for subsequent gradation conversion. The gray scale data stored in the gray scale data storage unit 52 is used for the gray scale conversion operation of the data converter 55 to be described later.

The data compressor 53 compresses the grayscale data to be stored in the grayscale data storage 52 at a predetermined ratio, for example, eight times in this embodiment. This data compression section 53 is composed of, for example, a JPEG compressor or an MPEG compressor using a Discrete Cosine Transform (DCT) algorithm. This data compression unit 53 is composed of hardware or software.

The data decompression unit 54 decompresses the compressed data read out from the gradation data storage unit 52 and applied to the data conversion unit 55 to the original data. This data decompressor 54 uses an decompressor that uses an inverse DCT algorithm if the JPEG compressor is used as the data compressor 53. The data decompression unit 54 is also composed of hardware or software similarly to the data compression unit 53.

Of course, as the data compressor and the data expander, it is possible to use any other that can effectively compress or decompress image data.

The data conversion unit 55 inputs the grayscale data stored in the first line memory 51, that is, the new grayscale data to be displayed through the LCD panel and the grayscale data stored in the grayscale data storage 52, that is, the current grayscale data. The gradation data conversion operation is executed based on the gradation data being displayed on the LCD panel. The method for converting the gray scale data at this time is to subtract new gray scale data from the current gray scale data as described in US Patent Application No. 10 / 395,663, multiply a predetermined coefficient by the subtraction result value, and then multiply the multiplied result value. Execute by adding to the current gradation data.

The gray-scaled data output from the data converter 55 is stored in the gray data storage 52 through the data compressor 53 and provided to the second line memory 56.

Like the first line memory 51, the second line memory 56 stores data to be displayed through the LCD panel in units of scan lines. In the present embodiment, the second line memory 56 has a data storage capacity corresponding to eight scan lines of the LCD panel, for example, and stores these gray scale data to be displayed. The gray data stored in this way is applied to the LCD driver 20 and displayed on the LCD panel.

Next, the operation of the device having the above configuration will be described.

When the gray scale data to be displayed through the LCD panel is input from the processor 10, the first line memory 51 sequentially stores the gray scale data corresponding to eight scan lines of the LCD panel.

When data storage is completed in the first line memory 51, the data converter 55 reads out the gray data displayed on the LCD panel corresponding to the input gray data from the gray data storage 52. Perform the data conversion operation. As described above, the compressed gradation data stored in the gradation data storage unit 52 is expanded by the data extension unit 54 to the original gradation data and input to the data conversion unit 55.

The gray scale conversion operation by the data converter 55 is performed in gray scale data units for eight pixels in the longitudinal direction and eight pixels in the row direction as indicated by the dotted lines in FIG. In this way, the gradation data conversion operation unit is set to 8x8 as the compression / extension algorithm by the data compression unit 53 and the data expansion unit 54, and the compression ratio is 1/8 while using DCT or inverse DCT algorithm. In consideration of the setting of, the unit of the gradation data conversion operation will be set accordingly if another data compression / extension algorithm is used or if the compression ratio is set differently.

The data converter 55 stores the result data in the second line memory 56 when the tone conversion operation for the 8x8 block is finished based on the pixel data on the LCD panel. Accordingly, the gray line data for eight pixels in the longitudinal direction and eight pixels in the row direction are stored in the second line memory 56 in the same manner as shown in FIG.

In addition, the data conversion unit 55 applies the gradation conversion result data to the data compression unit 53 to perform a data compression operation. As described above, the data compressor 53 compresses the grayscale data for the 8 × 8 block based on the grayscale data applied from the data converter 55, that is, the pixel data on the LCD panel, according to the DCT algorithm. . As a result, the gray scale data output from the data compression unit 53 is reduced to 1/8 of the data amount compared with the original gray scale data. The compressed gray data is stored in the gray data storage 52.

The data converting unit 51 sequentially executes a converting operation on the gray scale data corresponding to the 8 scan lines of the LCD panel stored in the first line memory 51 in the same manner as described above. The second line memory 56 and the gray scale data storage 52 are sequentially stored.

When the gradation data conversion operation for the eight scan lines of the LCD panel is finished according to the above-described method, the gradation data stored in the second line memory 56 are sequentially applied to the LCD driver 20 to be displayed on the LCD panel. do.

When the display operation of the gray scale data for the eight scan lines of the LCD panel stored in the second line memory 56 is finished, the gray scale data for the next eight scan lines is input again from the processor 10 to receive the first line memory. The grayscale data stored in the 51 and thus stored are provided to the LCD driver 20 in the same manner as described above.

When the gradation conversion and display operation according to the above-described method is performed for one frame of the LCD panel, the gradation data storage unit 52 stores the gradation data for one frame output through the LCD panel. Of course, in this case, the grayscale data stored in the grayscale data storage unit 52 stores data compressed to 1/8 by the DCT algorithm.

When the display operation for the next frame of the LCD panel is started, the gradation data stored in the gradation data storage unit 52, that is, the gradation data currently being displayed through the LCD panel, are sequentially ordered, i.e. The data is output to the data converter 55 through the data expander 54.

In the conventional gradation data converting apparatus shown in Fig. 1, gradation data to be displayed in the frame memory 40 is stored, and the stored data is output to the LCD driver. Therefore, in the conventional apparatus, use of a frame memory having a storage capacity corresponding to the number of pixels of the LCD panel is required.

In the embodiment according to the present invention, the grayscale data currently displayed on the LCD panel is stored in a memory using a predetermined compression algorithm, and the data converter 55 directly converts the grayscale data to the LCD driver 20. The LCD panel is overdriven by applying and displaying.

According to the present invention, the size of the memory used for the data conversion operation is minimized. Therefore, it becomes possible to mount the gradation data storage unit 52 in the LCD driver without increasing the size of the LCD driver, thereby eliminating the need to implement an interface between the LCD driver and the gradation data storage unit 52 as well as gradation data. The manufacturing price of the inverter can be greatly reduced.

The embodiment according to the present invention has been described above. Embodiment described above shows one preferred embodiment of the present invention, this embodiment is not intended to limit the scope of the invention. The present invention can be carried out in various modifications without departing from the spirit thereof.

As described above, according to the present invention, it is possible to implement a gradation data conversion device for an LCD which can reduce the price of a product by minimizing the size of memory required for gradation data conversion.

In addition, according to the present invention, it is possible to implement a gradation data conversion apparatus for an LCD that can be employed and used in a small size LCD driver by minimizing the size of memory required for the conversion of gradation data.

Claims (3)

A gradation data converting apparatus for an LCD for converting gradation data for driving an LCD panel, A first line memory for storing gradation data for driving an LCD input from an external unit in a predetermined scan line unit; A gradation data storage unit for storing gradation data currently being displayed on the LCD panel; A data converter configured to generate and output grayscale data for driving the LCD panel based on the grayscale data stored in the first line memory and the grayscale data stored in the grayscale data storage unit; A data compressor which compresses the grayscale data output from the data converter and stores the grayscale data in the grayscale data storage unit; A data decompression unit for decompressing the gradation data read out from the gradation data storage unit, and And a second line memory configured to store the grayscale data output from the grayscale data storage unit in predetermined scan line units and output the grayscale data for driving the LCD. The method of claim 1, And the data compression unit performs data compression according to a DCT algorithm. The method of claim 1, And a data converting unit and a gradation data storage unit are integrated in the LCD driver.

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