KR20070041065A - Liquid crystal display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device capable of efficiently preventing damage to electronic components constituting each part when an opening or a short occurs, and a fire or smoke phenomenon caused by the liquid crystal panel and a liquid crystal. A gate driver for sequentially supplying scan signals to the gate lines of the panel, a source driver for converting video data into an analog pixel signal using gamma voltages, and supplying the data signal to the data lines of the liquid crystal panel, a timing controller for controlling driving timing, The DC / DC voltage converter converts the input voltage into a plurality of levels of driving voltages required for driving the liquid crystal panel, and outputs the DC / DC voltage converter according to whether the output load coupled to the DC / DC voltage converter is short-circuited. A liquid crystal display device including a protection circuit unit for controlling an off state is provided.

LCD, voltage converter, protection circuit

Description

Liquid crystal display

1 is a configuration diagram of a liquid crystal display according to an exemplary embodiment of the present invention.

FIG. 2 is a detailed configuration diagram illustrating a DC / DC voltage converter and a protection circuit of FIG. 1.

FIG. 3 is a diagram for describing an on state of a DC / DC voltage converter in FIG. 2.

FIG. 4 is a diagram for describing an off state of a DC / DC converter in FIG. 2.

(Explanation of symbols for the main parts of the drawing)

100: liquid crystal panel 200: driver

210: gate driver 220: source driver

230: timing controller 240: power supply

250: DC / DC voltage converter 260: protection circuit

270: gamma voltage supply

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device having a thin film transistor.

In the liquid crystal display device, a liquid crystal material having an anisotropic dielectric constant is injected between the upper transparent insulating substrate and the lower transparent insulating substrate, and the molecular arrangement of the liquid crystal material is changed by adjusting the intensity of the electric field formed in the liquid crystal material. A display device expresses a desired image by adjusting the amount of light transmitted through a transparent insulating substrate. As a liquid crystal display device, a thin film transistor liquid crystal display device (TFT LCD) using a thin film transistor (TFT) as a switching element is mainly used. Such a liquid crystal display device drives a liquid crystal panel and a liquid crystal panel on which an image is displayed. It will include a drive unit.

In the liquid crystal panel, the gate lines forming a row and the data lines forming a column and intersecting the gate lines are arranged in a matrix type, and regions are divided by gate lines and data lines crossing each other. The plurality of pixels constitute one frame (screen). When the scan signal is sequentially applied to the gate lines, an analog pixel signal is applied to the data lines in response to the scan signal, and one frame is displayed on the liquid crystal panel.

Each pixel includes a thin film transistor, a pixel electrode, and the like, and the thin film transistor applies an analog pixel signal supplied from a data line to the pixel electrode in response to a scan signal supplied from a gate line.

The driver may include a gate driver and a data driver for driving the gate line and the data line of the liquid crystal panel, a timing controller for controlling the driving timing of the liquid crystal panel, a power supply unit for applying a voltage to each unit by receiving power from an external source; A gamma voltage supply unit for generating a gamma voltage (reference voltage) required for digital / analog conversion of a source driver by receiving a branched voltage from a power supply unit. DC / DC voltage conversion unit for generating them.

In general, the DC / DC converter converts a pulse width modulation or pulse frequency modulation to output a driving voltage required for driving the liquid crystal panel. The driving voltage is transmitted to an electronic component (for example, a gate driver, a source driver, a gamma voltage supply, etc.) configured as an output load of the DC / DC voltage converter. In addition, it is common for the input / output terminal of the DC / DC converter to include a capacitor disposed between the input / output line and the ground voltage source GND as a peripheral circuit portion, for the purpose of removing noise.

However, when the DC / DC converter and the peripheral circuit part are constituted in this manner, when a short occurs on the capacitor of the output terminal due to breakage or dust of the electronic component composed of the output load, the base voltage source A current path with the GND is formed, and an overcurrent of several hundreds of mA exceeding the rating of the integrated circuit flows, which may cause a breakdown of the DC / DC voltage converter. In this case, a fire or smoke phenomenon is often accompanied, which may cause serious problems in terms of safety as well as damage to electronic components.

Accordingly, the technical problem to be achieved by the present invention is to effectively prevent the damage of electronic components or the fire or smoke caused by the open or short on the driver driving the liquid crystal display. It is to provide a liquid crystal display device.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

According to an exemplary embodiment of the present invention, a liquid crystal display device includes a plurality of pixels in which regions are divided into gate lines and data lines that cross each other, and the gate lines and the data line. A thin film transistor disposed at an intersection portion of the gate lines, the liquid crystal panel displaying an image according to a scan signal supplied through the gate lines, and an analog pixel signal supplied to the data lines in response to the scan signal; A gate driver for sequentially supplying the scan signal to a second field; a source driver for converting video data into the analog pixel signal using gamma voltages and supplying the analog pixel signal; and a gate driver for controlling driving timing; Gate control signal to the source driver A timing controller for supplying a data control signal and supplying the video data to the source driver, a DC / DC converter for converting an input voltage into a plurality of levels of driving voltages required for driving the liquid crystal panel and outputting the converted voltage; And a protection circuit for controlling the on / off states of the DC / DC converter according to whether the output load coupled to the DC / DC converter is short-circuited.

The protection circuit unit includes a resistor coupled to an enable terminal of the input terminal of the DC / DC converter, and a diode coupled between the resistor and an output terminal of the DC / DC converter.

The output load coupled to the DC / DC voltage converter is the gate driver, the source driver, the gamma voltage supply, and the like.

The diode operates with a reverse bias in the on state to activate the enable terminal of the DC / DC converter, and deactivates the enable terminal of the DC / DC converter with the OFF bias in the OFF state.

The DC / DC converter converts a constant voltage (V _DD ), a gate high voltage (V _GH ), a gate low voltage (V _GL ), a reference voltage (Vref), and a common voltage (Vcom) used in the liquid crystal panel as a driving voltage. do.

Specific details of other embodiments are included in the detailed description and the drawings. Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. Like reference numerals refer to like elements throughout.

Hereinafter, a liquid crystal display according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a liquid crystal display according to an exemplary embodiment of the present invention.

Referring to FIG. 1, a liquid crystal display according to an exemplary embodiment of the present invention includes a liquid crystal panel 100, a driver 200 driving the liquid crystal panel 100, and each pixel of the liquid crystal panel 100. By applying a voltage to the liquid crystal to transmit or block the light emitted from the backlight unit, the red (R), green (G), blue (B) through each color filter to display an image .

In the liquid crystal panel 100, a plurality of gate lines G and data lines D that separate pixels are disposed to cross each other, and thus the scan signals applied through the gate lines G and the data lines D are applied to the liquid crystal panel 100. An image is displayed on each of the pixels according to the analog pixel signal. At this time, the equivalent circuit of each pixel is a thin film transistor TFT, a liquid crystal capacitor C _LC , and a storage capacitor C _ST arranged at the intersection of the gate line G and the data line D as shown in FIG. 1. ).

The driving circuit unit 200 includes a gate driver 210, a source driver 220, a timing controller 230, a power supply unit 240, a DC / DC voltage converter 250, a protection circuit unit 260, and a gamma voltage supply unit ( 270).

The gate driver 210 sequentially supplies a scan signal to the gate line G in response to the gate control signal output from the timing controller 230.

The source driver 220 receives gamma voltages for each gray level from the gamma voltage supply unit 270, and when the data control signal and the video data are received from the timing controller 230, the source driver 220 corresponds to the gamma voltage in response to the data control signal. The analog pixel signal is converted into an analog pixel signal and then applied to the data line D. Here, the video data is a digital signal having a value between 0 and 255.

The timing controller 230 controls the driving timing by supplying a gate control signal and a data control signal to the gate driver 210 and the source driver 220, respectively, and supplies video data to the source driver 220. The gate control signal includes a gate start pulse (GSP), a gate shift clock (GSC), a gate output enable (GOE), and the data control signal as a source start. A source start pulse (SSP), a source shift clock (SSC), a source output enable (SOC), a polarity signal (POL), and the like are included.

The power supply unit 240 supplies voltages required for the liquid crystal panel 100 and the respective components.

The DC / DC voltage converter 250 uses the voltage output from the power supply 240 to display the constant voltage V _DD , the gate high voltage V _GH , the gate low voltage V _GL , Driving voltages such as a reference voltage Vref and a common voltage Vcom are output.

The constant voltage V _DD is a bias voltage of the source driver 220, and the gate high voltage V _GH is a voltage for turning on the thin film transistor TFT driving the liquid crystal panel 100. The low voltage V _GL is a voltage that turns off the thin film transistor TFT. When the thin film transistor TFT is turned on by the gate high voltage V _GH supplied to the gate line G, the analog pixel signal (voltage) supplied to the data line D is charged in the liquid crystal capacitor C _LC . . Thereafter, when the thin film transistor TFT is turned off by the gate low voltage V _GL supplied to the gate line G, the analog pixel signal charged to the liquid crystal capacitor C _LC is supplied with the next analog pixel signal. Maintained until.

The protection circuit unit 260 controls the on / off state of the DC / DC voltage converter 250 according to whether the output load coupled to the DC / DC voltage converter 250 is short-circuited to control the DC / DC voltage converter 250. ) To prevent damage to electronic components.

The gamma voltage supply unit 270 generates gamma voltages by the gray level within the gray scale range that can be expressed in the liquid crystal panel 100 by generating a gamma voltage by a resistor group in which a plurality of resistors are arranged in series. Supply to 220.

FIG. 2 is a detailed configuration diagram illustrating a DC / DC voltage converter and a protection circuit of FIG. 1.

Referring to FIG. 2, a first capacitor C1 disposed between the input line Vin_L to which the input voltage Vin is applied and the base voltage source GND is configured at an input terminal of the DC / DC voltage converter 250. The output terminal includes a second capacitor C2 disposed between the output line Vout_L for supplying the output voltage Vout and the base voltage source GND to remove noise.

The protection circuit unit 260 is disposed between the input and output terminals of the DC / DC voltage converter 250, and connects the resistor R1 to the enable terminal EN of the DC / DC voltage converter 250, and connects DC / DC. The diode D1 is coupled between the enable terminal EN of the input terminal of the DC voltage converter 250 and the output line Vout of the output terminal in the same direction as illustrated in FIG. 2. That is, the anode terminal of the diode D1 is disposed toward the enable terminal EN side, and the cathode terminal is disposed toward the output line Vout_L side.

Here, one end of the resistor R1 is connected to one end of the DC / DC voltage converter 250, and the other end is connected to the ON / OFF pin of the DC / DC converter 250 used during the ON / OFF switching operation. Connect.

3 is a view for explaining an on state of the DC / DC voltage converter in Figure 2, Figure 4 is a view for explaining the OFF state of the DC / DC voltage converter in Figure 2, DC / DC voltage converter 250 ) Is on when the 3.3V voltage is applied, and outputs the (analog) driving voltage of the 15V level in the on state.

Referring to FIG. 3, 3.3 V is applied to the enable terminal EN of the DC / DC voltage converter 250 while the diode D1 operates in reverse bias to perform normal operation. Able to know.

Referring to FIG. 4, when the output load is shorted, 0.7 V is applied to the enable terminal EN of the DC / DC voltage converter 250 while the diode D1 operates as a forward bias. The DC / DC voltage converter 250 is turned off to prevent damage to peripheral circuits including the DC / DC voltage converter 250.

As described above, the liquid crystal display according to the exemplary embodiment of the present invention forms a first capacitor C1 and a second capacitor C2 at the input / output terminal of the DC / DC voltage converter 250 to prevent a short circuit. By including a protection circuit section 260 composed of a resistor R1 and a diode D1 between the input / output terminal and the ground voltage source GND, a direct current / protection circuit is provided through the protection circuit section 260 even if the second capacitor C2 of the output terminal is short-circuited. The overcurrent flowing to the DC voltage converter 250 may be blocked and protected.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

The liquid crystal display device according to the preferred embodiment of the present invention made as described above is a fire or smoke phenomenon caused by damage to an electronic component or an opening when a short or an open occurs on a driving unit for driving the liquid crystal display device. Can be prevented efficiently.

Claims (5)

A plurality of pixels are divided into gate lines and data lines crossing each other, and a thin film transistor is disposed at an intersection of the gate lines and the data lines, and a scan signal supplied through the gate lines. And a liquid crystal panel which displays an image according to an analog pixel signal supplied to the data lines in response to the scan signal. A gate driver which sequentially supplies the scan signals to the gate lines; A source driver converting video data into the analog pixel signal using gamma voltages and supplying the analog pixel signal to the data lines; A timing controller configured to supply a gate control signal and a data control signal to the gate driver and the source driver to control driving timing, and to supply the video data to the source driver; A DC / DC voltage converter converting an input voltage into a plurality of levels of driving voltages required for driving the liquid crystal panel and outputting the converted voltage; And And a protection circuit to control the on / off states of the DC / DC converter according to whether the output load coupled to the DC / DC converter is short-circuited. The method of claim 1, The protection circuit unit, And a diode coupled between an enable terminal of the input terminal of the DC / DC converter and a diode coupled between the resistor and an output terminal of the DC / DC converter. The method of claim 1, An output load coupled to the DC / DC voltage converter; And at least one of the gate driver, the source driver, and the gamma voltage supply unit. The method of claim 1, The diode, And operating the reverse terminal in the on state to activate the enable terminal of the DC / DC voltage converter, and operating the forward bias in the OFF state to deactivate the enable terminal of the DC / DC voltage converter. . The method of claim 1, The DC / DC voltage converter, And a constant voltage V _DD , a gate high voltage V _GH , a gate low voltage V _GL , a reference voltage Vref, and a common voltage Vcom used in the liquid crystal panel as a driving voltage. .

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