KR100768807B1 - Method for controlling LCD panel driving - Google Patents

Abstract

The present invention relates to an LCD panel driving control method for preventing a latch-up phenomenon of an LCD panel by minimizing a time interval between an LVDS data signal and a driving voltage. The present invention relates to a power supply unit supplying power and a power applied from a power supply unit. A voltage generator for supplying voltage to various devices through the voltage generator, an LVDS unit for outputting an LVDS data signal by driving through a voltage applied from the voltage generator, and an LCD panel unit for outputting an image according to the LVDS data signal input from the LVDS unit In the control method of the LCD panel driving device comprising a panel driver, the LVDS unit outputs the LVDS data signal to the panel driver and outputs a control signal to the power supply, and the power supply unit is driven when the control signal is input. By applying voltage, the LVDS data signal and driving voltage are input to the panel driver within a certain time interval. That the so characterized.

LCD Panels, Latch-Up, LVDC Data Signals, Power Supplies, Passive Components

Description

Method for controlling LCD panel driving

1 is a block diagram of a conventional LCD panel drive control device.

2 is a block diagram of an LCD panel drive control apparatus according to the present invention;

<Explanation of symbols for main parts of the drawings>

110: power supply unit 120: voltage generator

130: LVDS unit 140: panel driver

150: LCD panel unit

The present invention relates to a method of driving an LCD panel, wherein the LCD panel driving control to prevent the latch up phenomenon of the LCD panel by minimizing the time interval between the Low Voltage Differential Signaling (LVDS) data signal and the driving voltage. It is about a method.

As the information age evolves, the demand for display devices is increasing in various forms, and in recent years, liquid crystal display (LCD), plasma display panel (PDP), electro luminescent display (ELD), and vacuum fluorescent display (VFD) have been developed. Various flat panel display devices have been studied, and some are already used as display devices in various devices.

Among them, LCD is the most widely used as a substitute for the CRT (Cathod Ray Tube) for the mobile image display device because of the excellent image quality, light weight, thinness, and low power consumption, and the mobile type such as the monitor of the notebook computer. In addition, it is being developed in various ways, such as a television for receiving and displaying broadcast signals, and a monitor of a computer.

As described above, although various technical advances have been made in order for the liquid crystal display device to serve as a screen display device in various fields, the task of improving the quality of the image as the screen display device has many advantages and disadvantages.

Therefore, in order to use a liquid crystal display device in various parts as a general screen display device, development of high quality images such as high definition, high brightness, and large area is required while maintaining the characteristics of light weight, thinness, and low power consumption. It can be said.

Such a liquid crystal display device is largely divided into a liquid crystal display panel for displaying an image and a driving unit for applying a driving signal to the liquid crystal display panel, and the liquid crystal display panel has a space and a liquid crystal injected between two glass substrates bonded together. It is composed of layers.

1 is a block diagram of a conventional LCD panel drive control apparatus.

Conventional LCD panel drive control device is composed of a power supply unit 10, voltage generator 20, LVDS unit 30, panel driver 40, and LCD panel unit 50, first power supply unit 10 Supplies power to drive the LCD panel, which is applied to the voltage generator 20.

The voltage generator 20 outputs 3.3V, 2.5V, 1.8V, and 1.2V (DC B +) of the applied 12V voltage, which drives various ICs of the LCD module through the regulator IC at the DC / DC converter stage. It is supplied to an element for

The LVDS unit 30 outputs image data applied to the LCD panel unit 50 to output LVDS data signals such as a data enable signal, a vertical horizontal synchronizing signal, and a system clock. Finally, the LVDS unit 30 outputs an LVDS unit from the LVDS unit 30. When the data signal is input, the panel driver 40 drives the source and gate driver IC of the LCD panel 50 in accordance with the LVDS data signal.

The LCD panel 50 displays an image. In brief, liquid crystal is injected between two glass substrates, and the data line and the gate line of the panel driver 40 formed on the lower glass substrate are mutually intersected. Is orthogonal. The TFT formed at the intersection of the data line and the gate line turns on the TFT which is the switching element in each sub-pixel in response to the gate-on signal from the gate line. At this time, the image data (R, G, B) on the data line is supplied to the storage capacitor and the liquid crystal capacitor located in the TFT, for this purpose, the gate electrode of the TFT is connected to the corresponding gate line, the source line is the corresponding data Is connected to the line. The drain electrode of the TFT is connected to the pixel electrode of the sub pixel. On the other hand, a color filter layer is formed on the upper glass substrate. A polarizing plate on which the optical axis intersects is attached on the upper glass substrate and the lower glass substrate, and an alignment process is performed to set the pretilt angle of the liquid crystal on the inner surface in contact with the liquid crystal.

The storage capacitor is formed between the pixel electrode of the liquid crystal cell and the front gate line or between the pixel electrode of the liquid crystal cell and the common electrode line to maintain a constant voltage of the liquid crystal cell.

In the conventional LCD panel driving control apparatus, when the power supply unit 10 supplies power to the voltage generation unit 20, the voltage generation unit 20 transmits an applied voltage of 12V to 3.3V and 2.5 at a DC / DC converter stage. Outputs V, 1.8V, 1.2V (DC B +) to supply B + (DC power supply) such as image processing IC for image processing of LCD TV and central control unit of image processing board so that these image processing ICs can operate. do.

Accordingly, the LVDS unit 30 receives image data applied to the LCD panel unit 50 and outputs LVDS data signals such as a data enable signal, a vertical horizontal synchronization signal, and a system clock. Finally, the LVDS unit 30 The panel driver 40 drives the LCD panel 50 in accordance with the LVDS data signal output from

However, in the conventional LCD panel drive control apparatus, after driving power is applied from the voltage generator 20 to the panel driver 40, a maximum of 10 to 11 sec has elapsed from the LVDS unit 30 to the panel driver 40. Since the LVDS data signal is input, many time intervals have occurred.

That is, although the time interval between the voltage supplied from the voltage generator 20 and the LVDS data signal input from the LVDS unit 30 should be within 50 ms, a maximum time interval of 10 to 11 sec is generated, and thus, the LCD panel. There was a problem that the latch up phenomenon occurs in the unit 50, the screen is poor.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an LCD panel driving control method capable of preventing a latch-up phenomenon of an LCD panel by minimizing a time interval between an LVDS data signal and a driving voltage. have.

The configuration of the present invention devised to achieve the above object is as follows. The present invention provides a power supply unit for supplying power, a voltage generator for supplying voltage to various devices through a power source applied from the power supply unit, an LVDS unit for driving the voltage through the voltage applied from the voltage generator and outputting an LVDS data signal; 1. A control method of an LCD panel driving apparatus comprising a panel driver for driving an LCD panel to output an LCD according to an LVDS data signal input from an LVDS unit, wherein the LVDS unit outputs an LVDS data signal to a panel driver and a control signal to a power supply unit. When the control signal is input, the power supply unit applies a driving voltage to the panel driving unit so that the LVDS data signal and the driving voltage are input to the panel driving unit within a predetermined time interval.

The LVDS unit outputs a control signal in preference to the LVDS data signal, and the LVDS data signal and the driving voltage are input at a time interval of 50 ms or less.

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

2 is a block diagram of an LCD panel drive control apparatus according to the present invention.

The LCD panel driving control method according to the present invention comprises a power supply unit 110, voltage generator 120, LVDS unit 130, panel driver 140, and LCD panel 150, first, the power supply unit ( 110 applies power to the voltage generator 120 to drive the LCD panel.

The voltage generator 120 outputs 3.3V, 2.5V, 1.8V, and 1.2V (DC B +) of the applied 12V voltage, which is generated through the regulator IC at the DC / DC converter stage, thereby providing an LVDS unit 130. It is applied to various elements including ().

The LVDS unit 30 receives image data applied to the LCD panel unit 50 and outputs LVDS data signals such as a data enable signal, a vertical horizontal sync signal, and a system clock, and finally outputs from the LVDS unit 30. The received LVDS data signal drives the LCD panel 50 through the LVDS data signal input to the panel driver 40.

Here, the LVDS unit 30 outputs the above-described LVDS data signal to the panel driver 40 and the time with the supply voltage supplied to the panel driver 40 to which the LVDS data signal is input is within 50 ms. The control signal is output to the power supply 110 so that the power supply 110 is supplied with a driving voltage before the LVDS data signal is input as described above.

As such, the latch-up phenomenon is prevented by keeping the time interval between the input time of the LVDS data signal supplied from the LVDS unit 30 to the panel driver 140 and the supply power within 50 ms.

Accordingly, when the driving voltage is supplied from the power supply unit 110, the panel driver 140 drives the LCD panel 150 according to the LVDS data signal using the driving voltage, and the LVDS data signal and the supply voltage. Is maintained within 50 ms, so that the LCD panel 50 can display a clear image.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

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According to the present invention configured as described above, it is possible to minimize the time interval between the LVDS data signal and the driving voltage to prevent the latch-up phenomenon of the LCD panel.

Claims (4)

A power supply unit for supplying power, a voltage generator for supplying voltages to various elements through power applied from the power supply unit, an LVDS unit for driving LVDS data signals through a voltage applied from the voltage generator, and an image; In the control method of the LCD panel driving device comprising a panel driving unit for driving the output LCD panel in accordance with the LVDS data signal input from the LVDS unit, The LVDS unit outputs the LVDS data signal to the panel driver, and outputs a control signal to the power supply unit. When the control signal is input, the LVDS unit applies a driving voltage to the panel driver unit to apply the driving voltage. And the LVDS data signal and the driving voltage are input within a predetermined time interval. The method of claim 1, wherein the LVDS unit outputs the control signal in preference to the LVDS data signal. The LCD panel driving control method of claim 1, wherein the LVDS data signal and the driving voltage are input at a time interval of 50 ms or less. delete

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