KR100995331B1 - Display device - Google Patents

Abstract

According to the present invention, in a display device such as a TFT-LCD or an OLED, a channel of a driver is increased due to an increase in the number of pixels of a panel, and thus the number of driver chips can only increase due to an acceptable channel limit of the driver chip. The technical problem is to solve the problem of technology. According to an exemplary embodiment of the present invention, a display device includes a panel in which pixels are arranged, a source driver for driving a source line of the panel, a gate driver for driving a gate line of the panel, and data, control signals, and a clock in the source driver. A display apparatus comprising a control unit for supplying a signal and supplying a control signal to the gate driver, the display apparatus comprising: first switching means for receiving an output of the source driver and switching the signal to be transmitted to each source line of the panel; And a second switching means configured to receive an output of the switch and transmit the switched output to each gate line of the panel.

Display, Driver, Switch Device, Chip Count

Description

Display device             

1 is a block diagram of a TFT-LCD according to the prior art;

2 is a view showing an example in which the present invention is applied to a TFT-LCD as a first embodiment of the present invention;

3 is a view showing another example of applying the present invention to a TFT-LCD as a second embodiment of the present invention; and

4 is a third embodiment of the present invention, and shows another example in which the present invention is applied to a TFT-LCD.

<Explanation of symbols for main parts of the drawings>

1, 11, 21, 37: display panel

31: display area

2, 12, 22, 32: receiver

3, 13, 23, 33: timing controller

4, 14, 24, 24 ': source driver

5, 15, 25: Gate Driver                 

16, 26, 35, 36: switch block

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device such as a TFT-LCD or an OLED, and more particularly, to a display device capable of drastically reducing the number of driver chips for driving a display panel.

In the case of the TFT-LCD according to the prior art, a plurality of source drivers and a plurality of gate drivers are provided to drive the gate line and the source line of the TFT-LCD panel, and are arranged as shown in the example shown in FIG.

As shown in FIG. 1, a TFT-LCD device includes a panel 1 in which pixels are arrayed, a plurality of source drivers 4 and a plurality of gate drivers 5 for driving gate lines and source lines of the panel, And control devices 2 and 3 for supplying data, control signals and clock signals to the drivers 4 and 5, respectively.

In addition, the control apparatuses 2 and 3 include a receiving apparatus 2 for receiving the graphic data from the graphics card, and a timing control apparatus 3 for controlling the timing of supplying signals to the driver.

In such a configuration, the panel 1 is integrated on the glass substrate, and the control devices 2 and 3, the source driver 4 and the gate driver 5 are implemented in respective chips.                         

The operation of the conventional TFT-LCD device in this configuration will be described. When the graphic data and the control signal are supplied from the graphics card to the receiving device 2 of the TFT-LCD, the timing controller 3 supplies the graphic data, the control signal and the clock signal to the source driver 4, and the gate driver ( Supply control signal to 5).

At this time, the source drivers 4 express the gray scale in each pixel by converting the digital graphic data received from the timing controller 3 into analog graphic data and transferring the same to the source lines in the display panel. Meanwhile, the gate drivers 5 output analog signals so that the gate lines in the display panel are activated in accordance with the signals transmitted from the source drivers 4 according to the control signal received from the timing controller 3.

As a result of such operation, various dynamic images are formed and displayed on the display panel 1 according to the combination of graphic data.

On the other hand, the larger the number of pixels as the display panel 1 becomes larger according to its structural characteristics, the number of channels of the source driver and the gate driver for controlling the signal supply to each pixel increases, thereby accommodating the driver chip. Since there is a limit on the number of possible channels, the number of driver chips mounted in the display device also increases.

Therefore, as the screen becomes larger, the display device according to the related art has a problem of deterioration in price competitiveness and power consumption due to an increase in driver chips, and even in the case of the same driver chip, each chip has different characteristics of the mass-produced product. Another problem arises in that graphic values supplied to panels are not constant.

The present invention is to solve the problems of the prior art, by using a single gate driver or source driver and by switching the signal supplied from the single driver to the switch element to drive each electrode line of the panel, It is an object of the present invention to provide a display device that solves the increase in the number of driver chips.

As a means for solving the above technical problem, the present invention provides a panel in which pixels are arranged, a source driver for driving a source line of the panel, a gate driver for driving a gate line of the panel, and a source driver. A display device comprising a control unit for supplying data, a control signal, a clock signal, and a control signal to the gate driver, the display apparatus comprising: a first switching unit configured to receive an output of the source driver and to switch the output to a source line of the panel; And second switching means for receiving and switching the output of the gate driver and transferring the output to the gate lines of the panel. The control unit, the source driver and the gate driver are configured on a single chip.

Preferably, the first or second switching means may be integrated into a device such as a TFT on the glass substrate of the panel.

In addition, the source driver or the gate driver may be provided with at least two drivers, and the first or second switching means may be divided into corresponding parts.

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Hereinafter, various embodiments of the digital display driver according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram showing a first embodiment of a digital display driver according to the present invention.

Comparing the first embodiment of FIG. 2 with the conventional embodiment of FIG. 1, the gate lines and the source lines of the display panels 1 and 11 are driven by the source drivers 4 and 14 and the gate drivers 5 and 15. And the basic driving method of controlling each driver by the timing controllers 3 and 3 'is the same. However, the difference in the two configurations is that the source driver 14 and the gate driver 15 are integrated into each one, and switch blocks 16 and 17 are added between the driver stage and the panel.

Accordingly, one source driver and a gate driver are provided regardless of the size of the display panel. On the other hand, the switch blocks (16, 17) is composed of a switch unit of the minimum unit corresponding to the minimum pixel (dot: dot) of the display panel, each switch element forms a small unit block as the number of channels of the source driver, The entire switch block is composed of several subunit blocks so as to correspond to the number of dots of the display panel.

The control of the switch block 16 may be directly controlled by the control signal transmitted from the timing controller 13 or may be controlled by the control signal transmitted via the source driver 14 in the timing controller 13.

More specifically, data from the timing controller 13 is passed to the source driver 14 and the source driver 14 emits a graphic signal by the number of internal channels. This signal is transmitted to the switch block 16, and the switch block 16 transmits these signals to a subunit switch block composed of the same number of switch elements as the number of channels of the source driver.

At this time, each sub-unit switch block should be selected to represent a specific part of the display panel, which is controlled by a control signal provided from the timing controller 13 or the source driver 14. The switch block 17 at the stage of the gate driver 15 is also driven in the same manner. However, since the number of input / output signals is smaller, the number of switch elements is smaller.

The switch blocks 16 and 17 may be composed of one chip. However, since the structure is very simple and the input / output is large, but the number of switch elements (transistors, etc.) is small, it is more efficient to manufacture a TFT (Thin Film Transistor) directly on the glass of the LCD display panel. If the transistor is directly formed on the glass, there may be a slight difference in the process characteristics such as a difference in the operating voltage (Vt) of the transistor, but the configuration is very simple, so it is not a concern. 4 is a diagram illustrating an example of such a configuration, and a detailed description thereof will be described later.

FIG. 3 shows a second embodiment of the digital display driver configuration according to the present invention, in which a panel is divided into two areas to be driven simultaneously by two source drivers 24 and 24 '.

This configuration divides the display panel into regions and increases the number of pixels that the source driver must transmit per frame as the number of pixels to be driven by the display panel increases, thereby increasing the driving clock of the display panel. 24, 24 ') can handle the signal control on the divided portion at the same time to enable a more stable driver drive control.

In FIG. 3, the source drivers 24 and 24 ′ are divided into two parts, but in some cases, the source drivers 24 and 24 ′ may be divided into two or more parts, and the gate driver 25 may be divided into two or more parts.

4 illustrates a configuration in which the source driver and the gate driver are combined into one driver chip 34, the receiver 32 and the timing controller 33 are combined with the driver chip 34 as one chip, and connected to the switch block. Figure is shown. In this module configuration method, since the number of channels of the driver chip does not need to be designed, efficiency can be improved in terms of the area of the driver chip, and the switch blocks 35 and 36 are directly implemented on the LCD panel 37 with the remaining area. Small and medium sized displays can be designed.                     

Although the configuration of the present invention has been described in detail with reference to the embodiment, the present invention is not limited to the above-described embodiment, and may be variously modified and implemented within the technical scope of the present invention.

For example, in the above-described embodiment, the TFT-LCD has been described mainly, but the present invention can also be applied to an OLED having a driving device for controlling pixel voltage of a pixel unit.

According to the display device configuration of the present invention, by adding a switch block of a simple configuration it is possible to significantly reduce the number of the driver chip of a complex configuration it is possible to save design space and cost.

In particular, according to the prior art, it is difficult to overcome the problem that the number of driver chips increases and the packaging cost increases according to the enlargement of the display, but by providing the present invention, a simple configuration to replace the driver function of a complicated configuration By simply adding a switch block, a display device such as a TFT-LCD can be manufactured.

Furthermore, according to the present invention, space can be saved as compared with the prior art, which took up a lot of space to secure a large number of channels. Therefore, the surplus space is utilized to provide a receiver, a timing controller, a source driver, and a gate driver. It also enables one-chip solutions to be placed on chips. As a result, it is possible to produce products that are competitive with existing multichip modules in terms of price competition and product usability.

Claims (6)

A panel in which pixels are arrayed, a source driver for driving a source line of the panel, a gate driver for driving a gate line of the panel, and supplying data, control signals, and clock signals to the source driver and supplying the gate driver In the display device having a control unit for supplying a control signal, First switching means for receiving and switching the output of the source driver to transmit to each source line of the panel, and second switching means for receiving and switching the output of the gate driver to each gate line of the panel. and, And the control unit, the source driver and the gate driver are configured on a single chip. delete The method of claim 1, And the first or second switching means is integrated on the glass substrate of the panel. The method of claim 3, And the first and second switching means comprise a TFT element formed over a glass substrate. delete delete

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