KR100444658B1 - Lcd module - Google Patents

Abstract

The present invention provides an LCD module that changes the conventional arrangement of the gate drive IC on the LCD module and reduces the number of output lines of the gate drive IC to solve the left and right asymmetry of the screen displayed on the LCD panel. do.

This allows the gate drive IC to be disposed above or below the LCD panel; The gate lines of the output terminal of the gate drive IC are grouped by two, and the first and second switching signal lines are formed in a direction perpendicular to the gate line wirings, and each of the gate lines is interlocked with the first and second switching signal lines. Configuring a switching element at the gate line; The odd-numbered switching elements of the switching elements are configured to be interlocked with the first switching signal line, the even-numbered switching elements are configured to be interlocked with the second switching signal line, and the odd-numbered gate lines of the gate lines are first Configured to interlock with a switching signal line so that its output is controlled by the odd-numbered switching element, and an even gate line is configured to interlock with the second switching signal line so that its output is controlled by an even-numbered switching element. This can be achieved by halving the number of output lines of the gate drive IC.

Description

LCD Module {LCD MODULE}

The present invention relates to an LCD module, and in particular, by changing the general arrangement of the gate drive IC on the LCD module and reducing the number of output lines of the gate drive IC to solve the left and right asymmetry of the screen displayed on the LCD panel To one LCD module.

In general, in the mobile small and medium-sized LCD display device, the limitation of the shape and size of the LCD module is critical, and the size of the LCD panel and the package form of the peripheral IC and the light source unit are becoming important.

In particular, in the package type of the drive IC, COG (Chip On Glass) type that meets the above-mentioned demand has come to the mainstream, and efforts to escape from the usual "a" or "b" type drive IC packing form are on the rise.

This is because the arrangement structure of “a” type as shown in FIG. 1a or “b” type as shown in FIG. 2a is applied to a predetermined device, for example, a mobile phone, as shown in FIGS. 1b and 2b. This is because left and right asymmetry, that is, left and right asymmetry in which the screen displayed on the LCD panel is biased to the left or right, inevitably occurs.

The occurrence of the left and right asymmetry results in the gate line on the LCD panel and the layout of the pixel portion. As shown in FIG. 3, the number of panel gate input lines equals the number of gates of the pixel portion. As the input line is formed at the site where the input line is formed, in the configuration of the LCD module, the pixel unit is caused to be configured to be biased to the left and right sides.

On the other hand, in order to secure the left and right asymmetry of the pixel portion as described above, in the configuration of the LCD module in the product manufacturing step, the external mechanism portion is designed and secured so as to be symmetrical around the pixel portion. It acts as a cause of increasing the left and right edges of the negative, and it is acting as a fatal factor in maximizing the display area of the pixel portion while taking a product size that meets the needs of consumers.

Accordingly, the present invention eliminates the left and right asymmetry of the pixel portion of the LCD panel by reducing the number of output lines of the gate drive IC in half while changing the arrangement state of the gate drive IC on the conventional LCD module from left or right to upper or lower side. Its purpose is to provide an LCD module that can be used.

1A and 2A are schematic configuration diagrams of a general COG type LCD module.

1B and 2B show a display state by the LCD module of FIGS. 1A and 2A;

3 is a view showing a gate line and a pixel part layout on a general LCD panel.

4A to 4D are schematic configuration diagrams of an LCD module according to the present invention.

5 illustrates a gate drive IC output stage panel layout in accordance with the present invention.

6 is a timing diagram of a gate drive IC output stage for explaining the operation of the present invention.

<Description of the symbols for the main parts of the drawings>

100: source drive IC 200: gate drive IC

300: LCD panel 400: pixel portion

G1 to Gn: gate line GP1, GP2: switching signal line

S1-Sn: switching element

According to an aspect of the present invention, there is provided an LCD module comprising: an LCD module including an LCD panel, a gate drive IC, and a source drive IC, wherein the gate drive IC is disposed above or below the LCD panel; The number of output lines of the gate drive IC is halved.

In order to halve the number of output lines of the gate drive IC, two gate lines of an output terminal of the gate drive IC are bundled, and first and second switching signal lines are formed in a direction perpendicular to the gate line wiring. Configuring switching elements in the respective gate lines in association with the first and second switching signal lines; An odd-numbered switching element of the switching elements is configured to interlock with the first switching signal line, an even-numbered switching element is configured to be interlocked with the second switching signal line, and an odd gate line of the gate lines is a first one. The output signal is controlled by the odd-numbered switching element, and the even gate line is configured to be linked with the second switching signal line so that its output is controlled by the even-numbered switching element. It is characterized by.

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

4A to 4D show a schematic configuration diagram of an LCD module according to the present invention. FIGS. 4A and 4B show a source drive IC 100 disposed above an LCD panel 300 and a gate drive IC ( 200 illustrates a state disposed below the LCD panel 300, and FIGS. 4C and 4D show a state in which both the source drive IC 100 and the gate drive IC 200 are disposed above the LCD panel 300. It is shown.

The present invention reduces the number of output lines of the gate drive IC 200 in half while arranging the gate drive IC 200 above or below the LCD panel 300 as described above. This can be achieved by implementing the output panel layout as shown in FIG.

That is, the gate lines G1, G2, G3, ..., Gn-1, Gn of the output terminal of the gate drive IC 200 are grouped by two, and the gate lines G1, G2, G3, ..., Gn The switching signal lines GP1 and GP2 are formed in a direction perpendicular to the -1, Gn wiring, and the gate lines G1, G2, G3, ... are interlocked with the switching signal lines GP1 and GP2. Switching elements S1, S2, S3, ..., Sn-1, Sn are formed in, Gn-1, Gn.

Here, the switching elements S1, S2, S3, ..., Sn-1, Sn may be configured as FETs, and the switching elements S1, S3, S5, ... are switching signal lines GP1. And the switching elements S2, S4, S6, ... are configured to interlock with the switching signal line GP2, and the gate lines G1, G2, G3, ..., Gn-1, The odd gate lines G1, G3, G5, ... of Gn are configured to be interlocked with the switching signal line GP1 so that their output is controlled by the switching elements S1, S3, S5, ..., The even gate lines G2, G4, G6, ... are configured to be interlocked with the switching signal line GP2 so that their output is controlled by the switching elements S2, S4, S6, ... A switching signal is input to the switching signal lines GP1 and GP2 by a control IC in an LCD module (not shown) and configured to switch the switching elements S1, S2, S3, ..., Sn-1, Sn.

The operation of the control IC (not shown) is similar to the operation of a conventional TFT LCD. As shown in FIG. It will be output sequentially.

To this end, the switching elements S1, S3, S5, ... which are switched in accordance with the switching signal from the switching signal line GP1 and the switching elements S2 which are switched in accordance with the switching signal from the switching signal line GP2. S4, S6, ...) are sequentially switched one by one so that the gate signals of odd gate lines (G1, G3, G5, ...) and even gate lines (G2, G4, G6, ...) are sequentially output. Be sure to

That is, first of all, the switching element S1 interlocked with the switching signal line GP1 is turned on so that the gate signal of the gate line G1 is output, and then the switching element S2 interlocked with the switching signal line GP2. To turn on the gate signal of the gate line G2, and output the gate signal of the gate line G3 by turning on the switching element S3 interlocked with the switching signal line GP1. The gate signal of the gate line G4 is output by turning on the switching element S4 interworking with the GP2. The remaining gate lines G5, G6, G7, ..., Gn-1, Gn are also described above. The gate signal is outputted in the same manner as in that so that the gate signals are sequentially output.

4A and 4B, the source drive IC 100 is disposed above the LCD panel 300, and the gate drive IC 200 is disposed below the LCD panel 300, or FIG. 4C. As shown in FIG. 4D, both the source drive IC 100 and the gate drive IC 200 are disposed on the upper side of the LCD panel 300 to output the gate signal using the gate signal output method as described above. The output signal of 200 may be sent only to the left or the right as shown in FIGS. 4A and 4C, or divided into the left and right sides as shown in FIGS. 4B and 4D, respectively. Edges can be minimized.

Meanwhile, instead of configuring only one gate drive IC 200 as described above, the gate signal may not be sent to the left and right sides, and two independent gate drive ICs 200 may be configured to input the gate signals to the left and right sides of the LCD panel 300. However, detailed description thereof is weak.

The present invention is not limited to the above described embodiments, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

As described above, the present invention reduces the output line of the gate drive IC on the LCD panel in half, and at the same time, the gate input lines are formed on only one side of the left and right sides of the existing LCD panel, and the gates on the left and right sides of the LCD panel are the same. By distributing the line wiring and bringing the layout of the gate drive IC to the top or bottom of the LCD panel, the left and right edges of the LCD panel can be minimized, and the center arrangement of the pixel portion can be achieved. It has the effect of maximizing the left and right screen area.

Claims (3)

In the LCD module comprising an LCD panel, a gate drive IC and a source drive IC, Arranging the gate drive IC on the upper side or the lower side of the LCD panel, tying two gate lines at the output terminal of the gate drive IC, and forming first and second switching signal lines in a direction perpendicular to the gate line wiring; Configuring switching elements in the respective gate lines to be interlocked with the first and second switching signal lines; An odd-numbered switching element of the switching elements is configured to interlock with the first switching signal line, an even-numbered switching element is configured to be interlocked with the second switching signal line, and an odd gate line of the gate lines is a first one. And configured to interlock with a switching signal line so that its output is controlled by the odd-numbered switching element, and even gate lines are configured to interlock with the second switching signal line so that its output is controlled by an even-numbered switching element. And halving the number of output lines of the gate drive IC. delete The LCD module according to claim 1, wherein a gate line of an output terminal of the gate drive IC is distributed to the left and right sides of the LCD panel.