KR101630336B1 - Liquid crystal display device - Google Patents

Abstract

The present invention relates to a liquid crystal display device capable of reducing power consumption, comprising: a liquid crystal panel for displaying an image; A memory for storing still image data for at least one still image; A timing controller for reading still image data stored in the memory in response to a video mode change signal from the outside and outputting the still image data only once and outputting a power saving mode signal; And a data driver for continuously supplying pixel voltages corresponding to gradations of still image data provided from the timing controller to the data lines of the liquid crystal panel every frame period in response to a power saving mode control signal from the timing controller .

A liquid crystal display, a timing controller, a power saving mode signal,

Description

[0001] LIQUID CRYSTAL DISPLAY DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display device capable of reducing power consumption.

The conventional liquid crystal display device continuously supplies image data through the timing controller even when the same still image is displayed on the screen. Accordingly, although the same still image is continuously displayed on the screen, the timing controller must continuously supply the video data to the data driver, thereby increasing the power consumption of the timing controller.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a liquid crystal display device capable of causing a timing controller to output still image data only once, And the power consumption of the timing controller can be drastically reduced by keeping the still image being held by continuously outputting the pixel voltage to be supplied to the timing controller.

According to an aspect of the present invention, there is provided a liquid crystal display device including: a liquid crystal panel for displaying an image; A memory for storing still image data for at least one still image; A timing controller for reading still image data stored in the memory in response to a video mode change signal from the outside and outputting the still image data only once and outputting a power saving mode signal; And a data driver for continuously supplying pixel voltages corresponding to gradations of still image data provided from the timing controller to the data lines of the liquid crystal panel every frame period in response to a power saving mode control signal from the timing controller .

Further comprising: a gate driver for generating scan pulses for driving the gate lines of the liquid crystal panel and sequentially supplying the scan pulses to the gate lines; The timing controller further generates and outputs a gate control signal for controlling the gate driver and a data control signal for controlling the data driver.

The gate control signal includes a gate start pulse, a gate shift clock, and a gate output enable signal; Wherein the data control signal includes a source output enable signal and a polarity inversion control signal.

Wherein the timing controller generates a clock signal through an internal voltage control generator and generates the gate control signal and the data control signal using the clock signal.

Wherein the still image is composed of a plurality of unit images; Wherein the liquid crystal panel includes a plurality of pixels for displaying the unit images; Then, all of the pixels display the same unit image.

Wherein the still image is composed of a plurality of unit images; Wherein the liquid crystal panel includes a plurality of pixels for displaying the unit images; Wherein pixels of a vertical line arranged along the length direction of the data line among the plurality of pixels representing the unit images all represent the same unit image; The pixels of at least two vertical lines represent different unit images.

And the video mode change signal is periodically supplied to the timing controller.

Different types of still picture data are stored in the memory; And,

And the image mode change signal includes a plurality of image mode change signals for selecting the still image data.

The liquid crystal display device according to the present invention has the following effects.

The liquid crystal display device according to the present invention allows the timing controller to output still image data only once when the still image is displayed on the screen of the liquid crystal panel and the data driver continuously outputs the pixel voltage corresponding to the still image data So that the power consumption of the timing controller can be drastically reduced.

1 is a view illustrating a liquid crystal display device according to an embodiment of the present invention.

1, a liquid crystal display according to an exemplary embodiment of the present invention includes a plurality of pixels arranged in a matrix, a plurality of gate lines GL1 to GLn arranged in one direction, A gate driver GD for sequentially driving the gate lines GL1 to GLn and a plurality of data lines DL1 to DLm arranged to cross the gate lines GL1 to GLn, A data driver DD for supplying the analog pixel voltages to all the data lines DL1 to DLm at the same time each time the gate driver GD and the data driver DD are driven and a timing controller TC for controlling the gate driver GD and the data driver DD ).

The timing controller TC generates a data control signal DCS and a gate control signal GCS using a horizontal synchronizing signal Hsync, a vertical synchronizing signal Vsync and a dot clock DCLK input to the timing controller TC To the data driver (DD) and the gate driver (GD). The data control signal DCS includes a dot clock, a source shift clock, a source enable signal, a polarity reversal signal, and the like. In addition, the timing controller TC receives and rearranges image data (R / G / B data) from the system, and supplies them to the data driver DD according to the timing.

The gate control signal GCS includes a gate start pulse (GSP), a gate shift clock (GSC), a gate output enable signal GOE (Gate Output Enable) The control signal GCS is input to the gate driver GD.

The data driver DD samples the image data (R / G / B data) according to the data control signal DCS from the timing controller TC and then outputs the sampled image data (R / G / B data) And supplies analog pixel voltages corresponding to the latched image data (R / G / B data) to the data lines DL1 to DLm for each one horizontal period (1H, 2H, ...). That is, the data driver DD converts the image data (R / G / B data) from the timing controller TC into an analog pixel voltage using the gamma voltage input from the power generator, DLm.

The gate driver GD includes a shift register for sequentially generating scan pulses in response to a gate start pulse GSP of a gate control signal GCS from the timing controller TC and a scan driver for driving the voltage of the scan pulse to drive the liquid crystal cell And a level shifter for shifting to a suitable voltage level. The gate driver GD sequentially supplies the scan pulses to the gate lines GL1 to GLn in response to the gate control signal GCS.

Each pixel PXL includes a thin film transistor that is turned on by a scan pulse from a corresponding gate line to switch a pixel voltage from the corresponding data line and a pixel electrode that receives a switched pixel voltage from the thin film transistor, . The pixels PXL having such a configuration are formed in the display panel PN.

The liquid crystal display device according to the present invention further includes a memory (M) in which the still image data (I_Data) for at least one still image is stored in advance.

The timing controller TC reads the still image data I_Data stored in the memory M in response to a video mode change signal MCS from the outside and outputs it only once. In addition, the timing controller TC outputs a power saving mode signal (PSS) in response to the video mode change signal (MCS). That is, when the timing controller TC receives the video mode change signal MCS from the outside, the timing controller TC receives the video data from the system and receives the still picture data I_Data from the memory M instead . The timing controller TC does not output the image data or the still image data I_Data until the next image mode change cancel signal is supplied from the outside. That is, when the video mode change cancel signal is inputted from the outside, the timing controller TC receives the video data (R / G / B Data) from the system and supplies it to the data driver DD.

The data driver DD outputs pixel (PXL) voltages corresponding to the gradation of the still image data I_Data provided from the timing controller TC in response to the power save mode signal PSS from the timing control to the data lines For every frame period. In order to display the still image on the screen of the liquid crystal panel, the timing controller TC feeds the image data to the data driver only once so that the power consumption of the timing controller TC is significantly reduced.

Meanwhile, the timing controller TC continuously outputs the gate control signal GCS and the data control signal DCS described above in response to the video mode change signal MCS. At this time, the timing controller TC generates a clock signal through an internal voltage control generator, and generates the gate control signal GCS and the data control signal DCS using the clock signal.

2 is a view showing various types of still pictures that can be displayed on the screen of the liquid crystal panel PN by the still picture data I_Data stored in the memory M of Fig.

Any one of various kinds of still picture data I_Data which can represent any one of the still pictures as shown in FIG. 2 can be stored in advance in the memory M, or various kinds of still picture data (I_Data) may be stored.

The still image is composed of a plurality of unit images, which are displayed by the pixels PXL of the liquid crystal panel PN. That is, unit images of the pixels PXL are gathered to form one still image. At this time, as shown in FIG. 2A, all the pixels PXL of the liquid crystal panel PN can display the same unit image. As shown in FIGS. 2B and 2C, among the plurality of pixels PXL representing the unit images, the pixels PXL of the vertical lines arranged along the length direction of the data lines are all It is also possible to express the same unit image. At this time, the pixels PXL of at least two vertical lines represent different unit images. Specifically, as shown in FIG. 2 (b), pixels PXL of two adjacent vertical lines may display different unit images, and as shown in FIG. 2 (c), all The pixels PXL of the vertical line can display different unit images.

When different kinds of still picture data I_Data are stored in the memory M, one of a plurality of still picture data I_Data stored in the memory M is selected using a plurality of picture mode change signals And supplied to the timing controller TC.

On the other hand, as another embodiment, the timing controller TC periodically supplies the video mode change signal MCS to the timing controller to read the still image data I_Data from the memory M at regular intervals, periodically It may be supplied to the data driver DD. For example, the video mode change signal MCS may be supplied to the timing controller TC every 10 frame periods, and the timing controller TC may output still image data (for example, I_Data) to be supplied to the data driver (DD). In this case, the data driver DD supplies the above-described pixel (PXL) data to the data lines of the liquid crystal panel PN every 10 frame periods. In this case as well, since the timing controller TC operates on a 10-frame period basis, the power consumption of the timing controller TC is greatly reduced.

3 is a detailed configuration diagram of the timing controller TC of FIG.

3, the timing controller TC includes a data processing unit DPB for processing the image data from the system or the still image data I_Data from the memory M and a gate control signal GCS ), A data control signal (DCS), a power saving control signal (PSS), and the like.

The data processing unit DPB reads the still image data I_Data from the memory M in response to a video mode change signal MCS from the outside and outputs it only once. The control signal generation unit CSG outputs the gate control signal GCS, the data control signal DCS and the power saving mode signal PSS in response to a video mode change signal MCS from the outside.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents. Will be clear to those who have knowledge of.

1 is a view illustrating a liquid crystal display device according to an embodiment of the present invention;

Fig. 2 is a view showing various kinds of still pictures that can be displayed on the screen of the liquid crystal panel by the still picture data stored in the memory of Fig. 1. Fig.

3 is a detailed configuration diagram of the timing controller of FIG.

Claims (8)

A liquid crystal panel for displaying an image; A memory for storing still image data for at least one still image; A timing controller for reading still image data stored in the memory in response to a video mode change signal from the outside and outputting the still image data only once and outputting a power saving mode signal; And And a data driver for supplying, in response to a power saving mode control signal from the timing controller, pixel voltages corresponding to gradations of still image data provided from the timing controller to the data lines of the liquid crystal panel continuously for every frame period Display device. The method according to claim 1, Further comprising: a gate driver for generating scan pulses for driving the gate lines of the liquid crystal panel and sequentially supplying the scan pulses to the gate lines; And, Wherein the timing controller further generates and outputs a gate control signal for controlling the gate driver and a data control signal for controlling the data driver. 3. The method of claim 2, The gate control signal includes a gate start pulse, a gate shift clock, and a gate output enable signal; Wherein the data control signal includes a source output enable signal and a polarity inversion control signal. The method of claim 3, Wherein the timing controller generates a clock signal through an internal voltage control generator and generates the gate control signal and the data control signal using the clock signal. The method according to claim 1, Wherein the still image is composed of the same unit image; Wherein the liquid crystal panel includes a plurality of pixels for displaying the unit image; And, Wherein all the pixels display the same unit image. The method according to claim 1, Wherein the still image is composed of a plurality of unit images; Wherein the liquid crystal panel includes a plurality of pixels for displaying the unit images; Wherein pixels of a vertical line arranged along the length direction of the data line among the plurality of pixels representing the unit images all represent the same unit image; And, Wherein pixels of at least two vertical lines represent different unit images. The method according to claim 1, Wherein the image mode change signal is periodically supplied to the timing controller. The method according to claim 1, Different types of still picture data are stored in the memory; And, Wherein the image mode change signal includes a plurality of image mode change signals for selecting the still image data.

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