KR20080001484A - Method and apparatus for transmitting data of liquid crystal display - Google Patents

Abstract

A method and an apparatus for transmitting the data of an LCD device are provided to process the bit number of data to be transmitted without increasing a driving clock frequency by transmitting data pairs corresponding to the bit number of data. An apparatus for transmitting data of an LCD(Liquid Crystal Display) device includes a timing controller(10), source drivers(21,22,23,24), and a liquid crystal panel(40). The timing controller processes 12-bit image data inputted from outside based on a frame unit and transmits 10-data pairs based on 4 times clock signals. The source drivers receive the 10-data pairs, and output the data voltages of corresponding levels to the liquid crystal panel. The liquid crystal panel drives respective liquid crystal cells and displays corresponding images.

Description

METHOD AND APPARATUS FOR TRANSMITTING DATA OF LIQUID CRYSTAL DISPLAY}

1 is a block diagram of a data transmission device of a liquid crystal display device according to the present invention;

2 is a format diagram of transmission data according to the present invention;

*** Description of the symbols for the main parts of the drawings ***

10: Timing Controller 11: Overdrive Controller

12: frame memory 13: line memory

14: Timing Controller 21-24: Source Driver

30: gate driver 40: liquid crystal panel

The present invention relates to a technology for transmitting data in a liquid crystal display, and in particular, when data is transmitted from the timing controller to the data driver, data pairs are allocated corresponding to the number of data bits to be transmitted, thereby increasing data without increasing the driving clock frequency. The present invention relates to a data transmission method and apparatus for one liquid crystal display device.

In general, a timing controller of a liquid crystal display device receives a predetermined type of data, for example, a low-voltage differential signaling (LVDS) type of data, and is integrated into a plurality of ICs and mounted on a liquid crystal panel. driver).

When the timing controller transmits data to a source driver, the timing controller transmits data in a mini-LVDS (low-voltage differential signaling) scheme.

For reference, in case of TTL (Transistor-To-Transistor) which is a data transmission method between LDI in general timing controller, not only the transmission speed is slow but also the current consumption and the EMI characteristic are poor. to be. In the conventional TTL method, only the swing size of the signal is slightly reduced, thereby improving the EMI characteristics and slightly improving the transmission speed. On the other hand, mini-LVDS has further reduced the voltage swing size and is a revolutionary method that greatly improves the current consumption and EMI characteristics of the entire chip by reducing the number of transmission lines through a new structure of data modulation.

In general, in a liquid crystal module (LCM), data is transmitted and received between a timing controller and a source driver direct device (IC) in 8 bits, and the data mapping structure in this case follows a predetermined format. For example, in case of using the clock signal of 4 pair rule (4 times), data is transmitted by 6 data pairs for 1 clock signal pair, and it is transmitted separately by 8bit Even / Odd data. Done.

However, in the conventional LCD, when the system specification is improved in the future, the number of bits of the data line between the timing controller and the source driver is added, and the higher bit data is transmitted to the added bits. Since there is no mapping system for transmitting the required extended data without increasing the frequency and expanding more data pairs, there is a problem in that it cannot cope with future system development.

Accordingly, an object of the present invention is to transmit data of the required number of bits by allocating a data pair corresponding to the number of data bits to be transmitted without increasing the driving clock frequency when transmitting data from the timing controller of the liquid crystal display to the data driver side. It is to provide a transmission method and apparatus.

According to an aspect of the present invention, there is provided a method of processing a 12-bit image data input from the outside in a frame unit and transmitting the data to the source driver in 10 data pairs according to a frequency rule of a clock signal; Receiving the 10 data pairs and outputting a data voltage of a corresponding level to a liquid crystal panel; And driving the respective liquid crystal cells of the matrix type using the data voltage to display a corresponding image.

Another object of the present invention to achieve the above object is a timing controller for processing the 12-bit image data input from the outside in units of frames and transmits to 10 data pairs in accordance with the frequency rules of the clock signal; A source driver for receiving the 10 data pairs from the timing controller and outputting a data voltage of a corresponding level to a liquid crystal panel; The liquid crystal cells of the matrix type are driven by the source driver and the gate driver to form a liquid crystal panel displaying a corresponding image.

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

1 is an exemplary embodiment of a data transmission device of a liquid crystal display according to the present invention. As shown in FIG. 1, after processing 12-bit image data input from outside in units of frames, a clock signal of 4 pair rules is matched. A timing controller 10 for transmitting in 10 data pairs; Source drivers (21), (22), (23) and (24) for receiving the 10 data pairs from the timing controller (10) and outputting data voltages of the corresponding levels to the liquid crystal panel (40); A gate driver 30 outputting a scan signal to a gate line on the liquid crystal panel 40 in synchronization with the data voltage output of the source drivers 21, 22, 23, and 24; The liquid crystal panel 40 is driven by the source drivers 21, 22, 23, 24, and the gate driver 30 to display a corresponding image. Referring to Figure 2 attached to the operation of the present invention will be described in detail.

In the timing controller 10, the overdrive controller 11 stores image data input from the outside in the LVDS method in the frame memory 12. Thereafter, the overdrive controller 11 compares the currently input image data with the image data of the previous frame stored in the frame memory 12.

In addition, if there is data changed as a result of the comparison, the overdrive controller 11 transmits the corresponding data to the source drivers 21 and 22 installed on the left side of the upper portion of the liquid crystal panel 40 through the line memory 13. It transmits to installed source drivers 23 and 24, respectively.

In this case, the gate driver 30 outputs a scan signal to the gate line on the liquid crystal panel 40 in synchronization with the data voltage output of the source drivers 21, 22, 23, and 24.

However, the liquid crystal panel 40 applied to the present embodiment is a liquid crystal panel operating with 12 bits. Therefore, the data line between the timing controller 10 and the source drivers 21, 22, 23, and 24 as well as the timing controller 10 includes 12 bits. Figure 2 shows the data mapping structure in such a 12-bit data transmission system.

In such a data transmission system, when data is transmitted in the mini-LVDS method to the source drivers 21, 22, 23, and 24 through the line memory 13 of the timing controller 10, 10 data pairs (LV0 ± LV4 ±) and (LV5 ± LV9 ±) are transmitted to the source drivers 21 and 22, and the 10 data pairs are also applied to the source drivers 23 and 24 on the right side. (RV0 ± -RV4 ±), RV5 ± -RV9 ±), and FIG. 2 shows 10 data pairs (LV0 ± LV4 ±), which are transmitted to the source drivers 21 and 22 on the left. The mapping structure of LV5 ± LV9 ±) is exemplarily shown.

In this embodiment, a clock signal of four pair rules (four times) is used, and the ten data pairs (LV0 ± LV9 ±) each consist of eight data bits. Looking at the mapping structure of 5 data pairs (LV0 ± LV4 ±) as an example, 12 red data bits (R00 to R011), 12 green data bits (G00 to G011), and 12 blue It is understood that the data consists of the data B00 to B011.

Accordingly, data is transmitted in 10 data pairs for one clock signal pair, and is divided into 8-bit Even / Odd data.

As a result, by allocating a data pair corresponding to the 12-bit transmission system to accommodate all the data bits, it is possible to transmit data of 12 bits while complying with the four pair rules of the clock signal.

As described in detail above, the present invention, by transmitting the data pairs corresponding to the number of data bits to be transmitted when transmitting data from the timing controller of the liquid crystal display device, the number of data bits to be transmitted without increasing the drive clock frequency There is an effect that can accommodate all of them.

Claims (8)

A first process of processing 12-bit image data input from the outside and transmitting the data to the source driver as 10 data pairs according to a clock signal of 4 pair rules; A second process of receiving the 10 data pairs and outputting a data voltage of a corresponding level to a liquid crystal panel; And a third step of displaying an image by driving the liquid crystal cells on the liquid crystal panel using the data voltage. The method of claim 1, wherein the 12-bit image data is transmitted in an LVDS method. The method of claim 1, wherein the 12-bit image data includes red, green, and blue (R, G, B) data. The method of claim 1, wherein each data pair consists of eight data bits. The method of claim 1, wherein the image data is transmitted in 10 data pairs for one clock signal pair. The method of claim 1, wherein the image data is divided into 8-bit Even / Odd data and transmitted. A timing controller for processing the 12-bit image data input from the outside in units of frames and transmitting the data in 10 data pairs according to a 4-fold clock signal; A source driver for receiving the 10 data pairs from the timing controller and outputting a data voltage of a corresponding level to a liquid crystal panel; And a liquid crystal panel configured to drive respective liquid crystal cells of a matrix type using the data voltage to display a corresponding image. The method of claim 7, wherein the timing controller A frame memory for storing image data of 12 bits input from the outside in units of frames; And an overdrive controller that compares the currently input frame data with the data stored in the frame memory and transmits the changed part data through the line memory in 10 data pairs according to a 4 times clock signal. Data transmission device of liquid crystal display device.

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