KR100576117B1 - Pixel drive system for liquid crystal display - Google Patents

Abstract

The present invention relates to a pixel driving system for a liquid crystal display device. In the present invention, a signal output matrix is disposed in a signal controller, and thus the signal controller can quickly output various kinds of signals according to the type of source driver. do. In this case, the signal controller can flexibly respond to the source driver even though the source driver uses a different signal system for each manufacturer.

When the present invention is achieved, in the production line, the source driver can be freely replaced and used according to the process situation, and as a result, the overall process operation width can be greatly expanded.

Description

Pixel drive system for liquid crystal display

The present invention relates to a pixel driving system for a liquid crystal display device, and more particularly, to a pixel driving system for a liquid crystal display device to enable a signal controller to selectively output various kinds of signals according to the type of source driver.

In general, the image display method of the CRT (Cathode Ray Tube) used in a TV or a computer monitor is a method of scanning an analog data signal into a CRT with an electron gun, whereas the image display method of a liquid crystal display device is a digital signal controller The data signal is inputted to the analog data value using a source driver, for example, and then transferred to the image panel line by line.

In this case, the source driver which performs the digital / analog conversion of the data signal is generally driven by a main clock unit.

In general, in order to display an accurate image on an image panel of a liquid crystal display device, a pixel driving system having a specific configuration is essential.

The structure of such a conventional pixel driving system for a liquid crystal display device is, for example, US Patent No. 5250932 "Liquid crystal display device", US Patent No. 5426447 "Data driving circuit for liquid crystal display device (Data driving) circuit for LCD display ", US Patent No. 5070326," Liquid crystal display device ", and the like.

However, there are some serious problems with such a conventional pixel driving system for liquid crystal display devices.

As described above, the source driver is usually driven in the main clock unit to play a very important role of converting the data signal digitally input from the signal controller into an analog, in the production line, the other components of the liquid crystal display device They do not do this, even if the need arises to replace only source drivers individually while maintaining their original state.

This is because a commercially available source driver uses a different signal system for each company that manufactures it, and a signal controller for inputting a signal is preset according to the signal system of the selected source driver.

For example, the source driver manufactured by Company A has a signal system in which the output latch signal is driven at the rising edge, whereas the source driver produced by Company B has a polling edge ( In the case of having a signal system driven at the falling edge, the production line selects and purchases only one of them, and presets the signal controller accordingly. Of course, in this case, the compatibility between the source driver of A company and the source driver of B company is completely excluded. As a result, the production line will not be able to use them interchangeably as needed, resulting in a significant reduction in overall process operating breadth.

Therefore, it is an object of the present invention to enable the source driver to be replaced and used as needed in the production line.

Another object of the present invention is to ensure the compatibility of the source driver, thereby extending the overall process operating range.

Still other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

The present invention for achieving the above object is a gate driver disposed on the side of the image panel to sequentially turn on the gate of the TFT disposed in the pixels of the image panel, and the pixel data arranged and input to the other side of the image panel After storing the data, when the gate is turned on by driving the gate driver, the source driver selects a voltage corresponding to the pixel data and transfers the pixels to the pixels, and is disposed outside the image panel. And a signal controller for inputting a control signal to adjust a display state of the image panel.

In this case, an ID signal output block for outputting a plurality of IDs to a signal controller is disposed in the source driver, and a signal controller is combined with the input IDs to determine the type of the source driver, and then controlled by the source driver according to the determined type. A signal output matrix for outputting a signal is arranged.

When the present invention is practiced, the production line can securely secure the compatibility of the source driver, and eventually, the source driver can be elastically replaced and used according to the situation of the production line.

Hereinafter, a pixel driving system for a liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, in the pixel driving system for a liquid crystal display according to the present invention, a gate driver 3 is disposed at a side end of the image panel 1, for example, a left unidirectional side end, The source driver 2 is arranged at the other side end, for example, the upper longitudinal side end.

At this time, the gate driver 3 controls the gate electrode 11 of the TFT (Thin Film Transistor) so that the pixel data output from the source driver 2 can be correctly transmitted to the pixels 10 of the image panel 1. The source driver 2 stores the pixel data, and when the gate electrode 11 of the TFT is turned on by the above-described driving of the gate driver 3, selects a voltage corresponding to the pixel data. It transmits the voltage to each pixel 10.

Here, a signal controller 4 for controlling the display state of the image panel 1 by inputting a predetermined control signal to the gate driver 3 and the source driver 2 outside the image panel 1, for example, time. The controller is placed.

In the signal controller 4, for example, a start horizontal signal for loading a data signal into the source driver 2, a data signal is converted into an analog signal, and the converted analog signal is converted into an image. A load signal for applying to the panel 1, a start vertical signal for commanding the start of the gate-on signal for turning on the gate electrode 11 of the TFT, and a gate-on signal for the gate of the TFT. A gate clock signal and the like are sequentially output to the line.

In this case, the above-described data signal, start oriental signal, load signal, and the like are signals output to the source driver 2, and start vertical signals, gate clock signals, and the like are signals output to the gate driver 3.

Meanwhile, gate electrodes 11 connected to a plurality of gate electrode lines are disposed on a horizontal axis of the image panel 1, and source electrodes connected to a plurality of source electrode lines are formed on a vertical axis of the image panel 1. 14) is arranged.

At this time, when the signal voltage is applied to the gate electrodes 11 by the gate driver 3, the gate electrodes 11 are turned on, and during this time, the pixel voltage having information about the image is sourced. When applied to the source electrodes 14 by 2), the source electrodes 11 transfer this pixel voltage through the liquid crystal capacitor 12 and the storage capacitor 13 through the gate electrodes 11 and the drain electrodes 15. Is applied. Accordingly, the pixel voltage is continuously charged to the liquid crystal capacitor 12 and the storage capacitor 13.

The liquid crystal capacitor 12 and the storage capacitor 13 continue to maintain the state of charge of the pixel voltage even after the gate electrodes 11 are turned off.

Thereafter, when a certain time elapses, the liquid crystal capacitor 12 and the storage capacitor 13 apply the charged pixel voltage to the liquid crystals (not shown), whereby the liquid crystals are properly re- suited to the applied pixel voltage. By being arranged, the image panel 1 is quickly displayed with image information.

At this time, as shown in Figure 2, the source driver 2 of the present invention is disposed with the ID signal output block 20 for outputting a plurality of ID signals to the above-described signal controller 4, the signal controller corresponding thereto In (4), a signal output matrix 5 for combining the IDs included in the ID signal to determine the type of the source driver and outputting the control signal to the source driver 2 according to the type is arranged.

The operation thereof is as follows.

First, the source driver 2 determines its own ID using the ID1 generator 21 and the ID2 generator 22 disposed in the ID signal output block 20, and then determines the plurality of determined IDs in the ID signal. The signal is transmitted to the signal output matrix 5 of the signal controller 4.

At this time, when the ID signal is transmitted from the source driver 2, the signal controller 4 checks the ID list stored in the data area of the signal output matrix 5 by referring to the details of the ID included in the ID signal. Are combined to determine the type of the source driver 2 concerned. After that, when the type of the source driver 2 is determined, a signal signal corresponding to the type is output to the source driver 2.

As an example, when the ID signal transmitted from the source driver 2 has an ID of, for example, "0,1", the signal controller 4 is based on the signal output matrix 5 and the type of the source driver 2 corresponding thereto. Quickly identify that this is "Type B." In this way, when it is confirmed that the type of the source driver 2 is "B type", the signal controller 4 sends a signal to the source driver 2, for example, a signal at which the output latch signal is driven at the rising edge. To 2).

As another example, when the ID signal transmitted from the source driver 2 has an ID of, for example, "1,1", the signal controller 4 is based on the signal output matrix 5 and the type of the corresponding source driver 2. Quickly identify that this is a "type D". In this way, when it is confirmed that the type of the source driver 2 is "D type", the signal controller 4 sends a signal to the source driver 2, for example, a signal for which the output latch signal is driven at the falling edge. To 2).

When the present invention is achieved, the signal controller 4 can output various kinds of signals according to the type of the source driver 2, and as a result, the compatibility of the source driver 2 in the production line can be stably It can be secured.

As described above, in the conventional production line, only the source driver of the liquid crystal display device cannot be replaced individually. This is because source drivers in the market use different signal systems for each company that manufactures them, and signal controllers for inputting signals are preset according to the signal system of the selected source driver.

However, in the case of the present invention, as described above, since the signal controller 4 can output various kinds of signals according to the type of the source driver 2, the source driver 2 has a different signal system for each manufacturer. Even if using, it is possible to respond flexibly. As a result, when the present invention is achieved, it is possible to freely replace and use the source driver 2 in the production line according to the process situation, as a result, it is possible to greatly expand the overall process operating range.

As described above, in the present invention, by allowing the signal controller to selectively output various types of signals in accordance with the type of the source driver, the source driver can be freely replaced according to the situation of the production line.

The present invention has an overall useful effect in all kinds of liquid crystal display devices manufactured in the production line.

And while certain embodiments of the invention have been described and illustrated, it will be apparent that the invention may be embodied in various modifications by those skilled in the art.

Such modified embodiments should not be understood individually from the technical spirit or point of view of the present invention and such modified embodiments should fall within the scope of the appended claims of the present invention.

As described in detail above, in the pixel driving system for a liquid crystal display according to the present invention, a signal output matrix is arranged in a signal controller, and the signal controller can quickly output various kinds of signals according to the type of source driver. To help. In this case, the signal controller can flexibly respond to the source driver even though the source driver uses a different signal system for each manufacturer.

When the present invention is achieved, in the production line, the source driver can be freely replaced and used according to the process situation, and as a result, the overall process operation width can be greatly expanded.

1 is an exemplary view showing a pixel driving system for a liquid crystal display according to the present invention.

2 is a block diagram illustrating an ID signal output block and a signal output matrix according to the present invention.

Claims (1)

A gate driver disposed on the side of the image panel to sequentially turn on gates of the TFTs disposed in the pixels of the image panel; After storing predetermined pixel data arranged and arranged on the other side of the image panel, when the gate is turned on by driving the gate driver, a voltage corresponding to the pixel data is selected to convert the voltage into the pixels. A source driver for transmitting; A signal controller disposed outside the image panel and inputting a predetermined control signal to a gate driver and a source driver to adjust a display state of the image panel; The source driver is provided with an ID signal output block for outputting a plurality of ID signals to the signal controller, And a signal output matrix arranged in the signal controller to determine the type of the source driver by combining the IDs included in the ID signal and to output a control signal to the source driver according to the type. Pixel driving system.