KR20060053560A - Driver circuit for lcd - Google Patents

Abstract

The present invention provides an over-driving only in a limited sampling period to suppress electromagnetic interference (EMI) through traffic reduction due to improved data processing speed, and to reduce the power consumption caused by traffic increase. It is about. The circuit includes a sampling section setting section for dividing the active area of the liquid crystal panel into a plurality of sampling sections; A position coordinate detector for detecting a position coordinate of pixel data input to the current frame; A first storage unit which stores pixel data of a previous frame; And a comparison unit cooperating with the sampling interval setting unit, the position coordinate detection unit, and the first storage unit, wherein the comparison unit determines a sampling interval corresponding to the position coordinate of the pixel data input to the current frame, Only the pixel data corresponding to the determined sampling interval among the pixel data of the previous frame is received from the storage unit and compared with the pixel data of the current frame.

Description

Driver circuit for LCD

1 is a block diagram of a typical overdriving circuit.

2 is a block diagram of an overdriving circuit according to the present invention;

3A and 3B are views for explaining the operation of the overdriving circuit according to the present invention.

* Names of symbols for main parts of the drawings

20: Sampling section setting section 21: EEPROM

22: decoding section 23: counter section

30: position coordinate detection unit 31: position counter unit

32: position data counter section 40: comparison section

50: frame memory 60: lookup table

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving circuit of a liquid crystal display device for improving a response speed, and more particularly, to an improvement in processing speed and reduction of electromagnetic interference (EMI) by reducing traffic in an over driving circuit. It relates to a driving circuit.

Conventional liquid crystal display devices display an image by controlling the light transmission oil of a liquid crystal having dielectric anisotropy using an electric field. An active matrix liquid crystal display device in which a thin film transistor as a switching element is formed for each liquid crystal cell is suitable for displaying moving images. However, in the conventional liquid crystal display, the liquid crystal molecules repeatedly start a new molecular arrangement state transformation for the next applied voltage before the liquid crystal molecules reach the molecular arrangement state corresponding to the applied voltage. As a result, in the conventional liquid crystal display device, not only the display luminance corresponding to the supplied pixel data is completely displayed but also an afterimage problem occurs in which the pixel data of the current frame affects the next frame. Image quality degradation problems such as burring phenomenon are caused. In order to solve such a slow response speed of the liquid crystal display, an over driving circuit for increasing the voltage applied to the liquid crystal by modulating the pixel data has been proposed.

The overdriving circuit modulates the original pixel data into pixel data of a higher level, and applies a voltage corresponding to the modulated pixel data to the liquid crystal cell to improve the response speed of the liquid crystal. The overdriving circuit compares the pixel data of the previous frame with the pixel data of the current frame, and selects and outputs the modulated pixel data according to whether or not the pixel data is changed. A liquid crystal display device using such an overdriving circuit compensates for the slow response speed of liquid crystal by modulating pixel data.

1 shows a block diagram of a typical overdriving circuit.

The overdriving circuit may include a frame memory 10 storing pixel data of one frame and a lookup table 11 for selecting and outputting modulation pixel data according to pixel data of a previous frame and pixel data of a current frame stored in the frame memory 10. ). The output signal of the lookup table 11 is output to the source driver (not shown) through the timing controller 12. Specifically, the timing controller 12 compares the pixel data of the current frame input through the internal comparator with the previous frame pixel data transferred from the frame memory 10 for each dot. Thereafter, the lookup table 11 selects the modulation pixel data corresponding to the comparison result and outputs it to the source driver through the timing controller 12. However, the conventional overdriving circuit as described above has a high level of electromagnetic interference and high power consumption as the state of high data processing frequency and data input / output traffic continues.

Accordingly, the present invention was created to solve the problems inherent in the prior art as described above, and an object of the present invention is to perform overdriving only on image data on a limited area, thereby improving the response speed of the liquid crystal cell, and The present invention provides a driving circuit of a liquid crystal display device capable of reducing traffic during processing to suppress electromagnetic interference.

In order to achieve the above object, according to an aspect of the present invention, there is provided a driving circuit of a liquid crystal display device, the circuit comprising: a sampling section setting section for dividing an active area of a liquid crystal panel into a plurality of sampling sections; A position coordinate detector for detecting a position coordinate of pixel data input to the current frame; A first storage unit which stores pixel data of a previous frame; And a comparison unit cooperating with the sampling interval setting unit, the position coordinate detection unit, and the first storage unit, wherein the comparison unit determines a sampling interval corresponding to the position coordinate of the pixel data input to the current frame, It is characterized in that only the pixel data corresponding to the determined sampling interval among the pixel data of the previous frame from the storage unit is received and compared with the pixel data of the current frame.

According to another aspect of the invention, the sampling interval setting unit comprises a second storage unit for storing the sampling interval variable; A decoding unit decoding the sampling interval variable provided from the second storage unit; And a counter unit for counting an output signal of the decoding unit and transmitting the counted output signal to the comparison unit.

According to another aspect of the present invention, the position coordinate detection unit includes a position counter unit for counting position coordinates of input pixel data; And a position data counter unit which receives the output signal of the position counter unit and transmits position coordinate information of the pixel data to the comparison unit.

According to another aspect of the present invention, the pixel data compared in the comparison unit is converted into modulated pixel data corresponding to the comparison result through a lookup table.

(Example)

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

2 shows a block diagram of an overdriving circuit according to the invention.

The overdriving circuit according to the present invention includes a sampling section setting unit 20, a position coordinate detection unit 30, a comparison unit 40, and a frame memory 50.

The sampling section setting unit 20 is located inside the timing controller to divide the active area of the liquid crystal panel into a plurality of sampling sections (H / V), and stores the sampling section variables in the horizontal (H) and vertical (V) regions. EEPROM 21, a decoding unit 22 for decoding the sampling interval variable supplied from the EEPROM 21, and a counter unit 23 for counting the output signal of the decoding unit 22 and transmitting it to the comparator 40 do. Here, the EEPROM 21 may be provided inside or outside the timing controller. In addition, the sampling section of the horizontal (H) refers to the source driver region, and the sampling section of the vertical (V) refers to the gate driver region.

The position coordinate detector 30 detects the position coordinates of the pixel data including the image information among the pixel data which are located inside the timing controller and are input together with the clock in the current frame. The position coordinate detection unit 30 receives output signals of the position counter unit 31 and the position counter unit 31 counting the position coordinates of the input pixel data, and transmits the position coordinate information of the pixel data to the comparison unit 40. And a position data counter 32.

The comparator 40 uses the sampling interval variable transmitted from the sampling interval setting unit 20 and the position coordinate information of the pixel data transmitted from the position coordinate detection unit 30 to determine the position coordinates of the pixel data input in the current frame. Determine the corresponding sampling interval. In addition, only the pixel data of the previous frame corresponding to the determined sampling interval is received from the frame memory 50 and compared with the pixel data of the current frame. The compared pixel data is converted into modulated pixel data corresponding to the comparison result through the lookup table 60 and transmitted to the source driver.

Hereinafter, the operation of the circuit of the present invention will be described with reference to FIGS. 3A and 3B.

Referring to FIG. 3A, the overdriving circuit according to the present invention determines an arbitrary sampling interval variable and divides the active region into a plurality of sampling intervals. At this time, the position coordinates of the pixel data containing the image information among the pixel data input to the current frame are grasped, and the sampling section corresponding thereto is determined. Thereafter, overdriving is performed by comparing only the pixel data of the current frame and the pixel data of the previous frame on the determined sampling period A. FIG. For example, as shown in FIG. 3B, when the horizontal and vertical sampling interval variables (m, n) are set to "130" and "180", the sampling intervals are horizontal (m) "520" and "910", respectively. In the meantime, the length (n) is determined between "180" and "620", and overdriving is performed in the determined sampling interval. Here, the smaller the value of the horizontal and vertical sampling section variables (m, n), the more accurate section can be designated. As described above, the overdriving circuit according to the present invention can reduce the data throughput by overdriving only the pixel data within the limited sampling period, and accordingly, the traffic for data processing between the timing controller and the frame memory is reduced to The response speed is improved.

According to the configuration as described above of the present invention, by performing the over-driving only in a limited sampling period, it is possible to suppress the electromagnetic interference through the traffic reduction according to the improvement of the data processing speed, it is possible to reduce the power consumption due to the traffic increase .

While the invention has been shown and described with reference to certain preferred embodiments, the invention is not so limited, and the invention is not limited to the spirit and scope of the invention as set forth in the following claims. It will be readily apparent to those skilled in the art that these various modifications and variations can be made.

Claims (4)

In the driving circuit of the liquid crystal display device, A sampling period setting unit dividing the active area of the liquid crystal panel into a plurality of sampling periods; A position coordinate detector for detecting a position coordinate of pixel data input to the current frame; A first storage unit which stores pixel data of a previous frame; And And a comparison unit interworking with the sampling interval setting unit, the position coordinate detection unit, and the first storage unit, The comparison unit determines a sampling period corresponding to the position coordinates of the pixel data input to the current frame, and receives only pixel data corresponding to the determined sampling period among the pixel data of the previous frame from the first storage unit to thereby receive the pixel of the current frame. A drive circuit for a liquid crystal display device, characterized in that the data is compared with data. The method of claim 1, The sampling section setting unit A second storage unit storing sampling interval variables; A decoding unit decoding the sampling interval variable provided from the second storage unit; And And a counter unit for counting an output signal of the decoding unit and transmitting the counted output signal to the comparison unit. The method of claim 1, The position coordinate detection unit, A position counter unit for counting position coordinates of input pixel data; And And a position data counter unit for receiving the output signal of the position counter unit and transferring position coordinate information of the pixel data to the comparison unit. The method of claim 1, And the pixel data compared by the comparison unit is converted into modulated pixel data corresponding to the comparison result through a lookup table.

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