KR20050079687A - Liquid cristal display device for changing luminance automatically and method thereof - Google Patents

Abstract

A liquid crystal display device for automatically adjusting the luminance value is provided. The liquid crystal display device includes a display panel for displaying an image using a plurality of liquid crystals provided therein, a backlight unit for projecting a backlight onto the display panel, and a driving current corresponding to a preset first luminance value to the backlight unit. When the inverter unit and the backlight unit are equalized, if it is determined that the first luminance value is less than or equal to a predetermined threshold value, the driving current corresponding to the second luminance value is adjusted after adjusting to the second luminance value exceeding the threshold value. It includes a control unit for controlling the inverter unit to supply. Accordingly, after equalizing the backlight unit normally, the luminance is set as desired by the user and the image is displayed.

Description

Liquid crystal display device having a luminance automatic adjustment function and method thereof {Liquid cristal display device for changing luminance automatically and method approximately}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device having a brightness automatic adjustment function and a method thereof, and more particularly, when the power is turned on, a luminance value preset by a user can equalize a backlight of the liquid crystal display device normally. The present invention relates to a liquid crystal display device and a method of changing the luminance value to equalize the backlight and then re-adjusting the luminance value to a predetermined luminance value.

BACKGROUND With the development of electronic technology, an image display device using a cathode ray tube (CRT) has been rapidly replaced by a liquid crystal display device using a liquid crystal display (LCD). LCDs used in liquid crystal display devices are thinner and lighter than cathode ray tubes, consume only about one third of the power consumption of a typical CRT, and emit relatively few electromagnetic waves. In addition, it is widely used in TVs, notebook PCs, and the like.

1 is a schematic diagram showing the structure of an LCD used in such a liquid crystal display device. According to FIG. 1, the LCD includes a display panel 10 made of liquid crystal and a backlight unit 20. The liquid crystal display device, unlike the plasma display panel (PDP) and the field emission display (FED), cannot be used where there is no light because a non-light emitting device is used. (backlight) is required. The backlight unit 20 serves to supply such a backlight.

The backlight unit 20 includes a lamp unit 21 and a light guide plate 23. The lamp 21 serves as a light source for emitting light to supply a backlight, and the light guide panel 23 serves to uniformly transmit the light emitted from the lamp 21 to the front of the display panel. Different manufacturers use various lamps, but generally use CCFL (Cold Cathode Fluorescence Lamp) which has the advantage of low power consumption and very bright white light.

On the other hand, the display panel 10 is a device for injecting a liquid crystal (Liquid Crystal) between the two thin glass plates to supply power, change the arrangement of the liquid crystal to adjust the contrast and to pass the light through this portion to display an image. In this case, the light projected by the backlight unit 20 is controlled by turning on / off each liquid crystal according to a control signal input from the outside.

On the other hand, the liquid crystal display device having an LCD as shown in Figure 1 includes an inverter for supplying a current for driving the lamp 21 of the backlight unit 20.

When the AC power is supplied from an external terminal, the inverter (not shown) equalizes the lamp 21 by rectifying it and supplying the lamp 21 with an alternating current of a required frequency. In this case, the brightness of the lamp 21 can be adjusted by adjusting the magnitude of the current supplied from the inverter to the lamp 21, and as a result, the brightness of the liquid crystal display device can be adjusted.

2 is a schematic diagram showing a liquid crystal display device 50 in which such LCD is used. According to FIG. 2, an OSD (On Screen Display) menu 51 is displayed on a screen of a liquid crystal display device to allow a user to adjust luminance.

The user may operate the button 53 provided in the liquid crystal display device 50 to adjust the brightness. That is, the user may increase the brightness by moving the cursor in the "+" direction on the brightness adjustment bar displayed by the OSD or decrease the brightness by moving in the "-" direction.

On the other hand, when the user powers off the display device 50 in a state where the luminance level is lowered below a predetermined value, since a small current is set to be applied to the lamp 21, the power button 55 is pressed again. In this case, since a sufficient current is not supplied to equalize the lamp 21, the backlight unit 20 may not transmit light to the liquid crystal panel 10. Accordingly, the display device 50 may be in a state in which no image can be displayed even though it is not a malfunction.

In order to solve this problem, PWM (Pulse Width Modulation) control that adjusts the luminance by adjusting the dimming ratio as well as the current control (adjusting the brightness) by adjusting the size of the lamp driving current conventionally The method has also been developed and used in combination with the current control method.

The PWM control method supplies light by repeating the flashing of the lamp.If the brightness is set to high, the lamp blinking speed (ie, dimming ratio) is increased, and if the brightness is set to low, the dimming ratio is adjusted. .

However, when the PWM control method is used, a problem may occur in that a screen may flicker or a wave pattern may be displayed at a specific frequency. That is, according to the PWM control method, the frequency signal of various magnitudes is output so that the screen may flicker when it matches the frequency of the AC current supplied by the current control method.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to equalize the luminance value at the moment when the lamp for supplying the backlight of the liquid crystal panel is equalized in a state where the luminance value set by the user is low. The present invention provides a liquid crystal display device and a method for equalizing a lamp normally by automatically setting the value to a sufficiently high value.

A liquid crystal display device according to the present invention for achieving the above object, a display panel for displaying an image using a plurality of liquid crystal provided, a backlight unit for projecting a backlight to the display panel, and a predetermined agent If it is determined that one luminance value is insufficient to equalize the backlight unit, the controller may include a control unit that adjusts the predetermined luminance value to a predetermined second luminance value, equalizes the backlight unit, and then readjusts the first luminance value to the first luminance value.

Preferably, the electronic device may further include an inverter unit driving the backlight unit by supplying a driving current corresponding to the first luminance value to the backlight unit.

In this case, when equalizing the backlight unit, if the first luminance value is determined to be equal to or less than a predetermined threshold value, the controller adjusts the second luminance value exceeding the threshold value to the second luminance value. The inverter unit may be controlled to supply a corresponding driving current.

On the other hand, preferably, the liquid crystal display device may further include a memory in which information on the first luminance value, the second luminance value, and the threshold value is stored.

More preferably, it may further include an OSD module for displaying the OSD menu (On Screen Display) through the display panel to adjust the first luminance value.

On the other hand, the liquid crystal display device according to the present invention may further include a signal processor for receiving an external image signal and converts it into a digital signal that can be recognized by the display panel. Accordingly, the display panel can display an image by receiving the digital signal and controlling each liquid crystal accordingly.

On the other hand, if it is determined that the first luminance value is less than or equal to the threshold value, the controller may adjust the contrast of the digital signal converted by the signal processor to adjust the second luminance value.

On the other hand, if it is determined that the backlight unit is normally equalized, the controller may readjust the luminance value from the second luminance value to the first luminance value to display the image according to the luminance desired by the user.

In this case, the controller may check the elapsed time after adjusting to the second luminance value, and when the predetermined time elapses, the controller may consider that the backlight unit is equalized normally and readjust the luminance value to the first luminance value. .

The threshold value may be recorded in the memory by experimentally measuring a minimum luminance level value capable of equalizing the backlight unit.

In the turn-on method of the liquid crystal display according to the present invention, (a) checking whether the preset first luminance value is less than or equal to a predetermined threshold value, and (b) if it is determined to be less than or equal to the threshold value, exceeding the threshold value. Adjusting the second luminance value to the second luminance value, (c) supplying a driving current corresponding to the second luminance value to the backlight unit, and (d) determining that the backlight unit is equalized. Readjusting to one luminance value.

In this case, the step (b) includes adjusting the contrast of the digital signal supplied to the display panel to adjust the luminance value to the second luminance value.

Preferably, the step (d) may include determining that the backlight unit is equalized when a predetermined time elapses after supplying a driving current by adjusting to the second luminance value.

The threshold may be used by experimentally measuring a minimum luminance level value at which the backlight unit may be equalized.

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

3 is a block diagram showing the configuration of a liquid crystal display device according to the present invention. According to FIG. 3, the liquid crystal display device includes a signal processor 110, a controller 120, a display panel 130, an inverter unit 140, a backlight unit 150, an OSD module 160, and a memory 170. ).

The signal processor 110 converts an image signal input from the outside into a digital signal of R, G, and B standards, and then compresses or extends the image signal to have a resolution conforming to a display standard and executes signal processing. In order to perform such a function, the signal processor 110 may include an analog / digital conversion circuit, a scaler, and the like. When the analog / digital conversion circuit converts an analog signal into a digital form and supplies it to the scaler, the scaler converts the resolution of the digital signal appropriately to the resolution of the liquid crystal panel.

The controller 120 inputs the digital signal converted by the signal processor 110 to the display panel 130 to display the image on the screen. Meanwhile, the display panel 130 includes a plurality of liquid crystals, and displays an image by controlling each liquid crystal according to the received digital signal. At this time, since the liquid crystal used in the display panel 130 cannot emit light by itself, it requires a backlight.

The backlight unit 150 supplies the backlight to the display panel 130. As described above, the backlight unit 150 includes a lamp and a light guide panel to uniformly project the light emitted from the lamp onto the front of the display panel using the light guide plate. Meanwhile, the backlight unit 150 may further include a reflector sheet, a diffuser sheet, a prism sheet, and the like. Reflective sheet is located at the back of the light guide plate and reflects the light from the lamp to the front. Diffusion sheet serves to equalize the light through the light guide plate, and prism sheet spreads horizontally and vertically through the diffusion sheet. This occurs by refraction and condensing the light is sharply lowered brightness serves to increase the brightness.

In order to equalize the backlight unit 150 and operate normally, a predetermined driving current is required, and the inverter unit 140 serves to supply the driving current.

Meanwhile, the OSD module 160 generates and displays an OSD menu on which a user can adjust screen size, brightness, contrast, sharpness, and the like on a display screen. The user executes the OSD menu using a menu key button, a +/- key button and an end key button attached to the liquid crystal display device, and then sets these display values as necessary.

The set display value is stored in the memory 170. The controller 120 checks information on the screen size, brightness, contrast, sharpness, etc. stored in the memory 170, and displays the image accordingly.

Meanwhile, when the user sets the predetermined first luminance value, the controller 120 controls the inverter unit 140 to adjust the magnitude of the driving current supplied to the backlight unit 150 in order to match the set luminance level. Done. That is, when the set first luminance value is large, a large driving current is supplied. When the first luminance value is small, a small driving current is supplied.

The controller 120 determines whether the first luminance value set by the user is equal to or less than a predetermined threshold value. The threshold value refers to a luminance value corresponding to a minimum current value required to equalize a lamp inside the backlight unit 150. Since the lamp may not be equalized normally when the luminance value equal to or less than the threshold value is set, the controller 120 determines that the first luminance value is less than or equal to the threshold value. After adjusting temporarily, the lamp is equalized, and when it is determined that the lamp is normally equalized, it is readjusted to the first luminance value set by the user again. Thus, the user's requirements are satisfied. The threshold value and the second luminance value may be experimentally measured in advance and recorded in the memory 170.

On the other hand, according to one embodiment of the present invention, by adjusting the contrast of the digital signal converted and output from the signal processing unit 110, it is possible to adjust the first luminance value to the second luminance value exceeding the threshold value. In this case, in a scaler (not shown) constituting the signal processor 110, the contrast may be adjusted by adjusting a gain value of an amplifier (not shown) that amplifies the magnitude of the video signal.

4 is a schematic diagram showing an OSD menu displayed in the liquid crystal display device according to the present invention. According to FIG. 4, an OSD in the form of a bar capable of adjusting the luminance level is shown. In FIG. 4, the A value means the minimum value of the luminance level, that is, the threshold value, which is measured experimentally and is determined to equalize the backlight unit 150 normally.

Therefore, if the first luminance value is set in an area equal to or less than the A value, the controller 120 equalizes the backlight unit 150 by adjusting to a predetermined second luminance value exceeding the A value as described above, and then again. Re-adjust to the first luminance value. On the other hand, if the first luminance value is set in an area exceeding the A value, the backlight unit 150 may be equalized normally, so that the first luminance value is maintained as it is. Therefore, an area below the A value becomes an adjustment area for automatically adjusting the luminance level, and an area exceeding the A value becomes an unadjusted area for maintaining the luminance level set by the user.

5 is a flowchart illustrating a method of turning on a liquid crystal display device according to the present invention. Referring to FIG. 5, once the power button of the liquid crystal display is operated and powered on (S410), the controller 120 checks and compares the first luminance value and the threshold value stored in the memory 170 (S420). . As described above, the first luminance value refers to a luminance value set by a user, and the threshold value refers to a luminance value corresponding to a minimum driving current required to equalize the backlight unit 150 normally.

As a result of the comparison, when it is determined that the first luminance value is less than or equal to the threshold value, the controller 120 temporarily adjusts the luminance value to the preset second luminance value to equalize the backlight unit 150 normally (S430). As described above, the second luminance value means a predetermined luminance value exceeding a threshold value. The threshold value and the second luminance value may be experimentally measured by the manufacturer of the liquid crystal display device and recorded in the memory 170.

Meanwhile, the control unit 120 equalizes the lamp built in the backlight unit 150 using the adjusted second luminance value (S440). The backlight unit 150 uniformly projects the light emitted from the lamp onto the front of the display panel 130, and the display panel 130 controls the respective liquid crystals according to a digital signal applied from the controller 120 to display an image. Will be displayed.

In contrast, when it is determined that the backlight unit 150 is equalized normally, the controller 120 readjusts the first luminance value again (S450). Accordingly, the image is displayed at the luminance value desired by the user.

On the other hand, if it is determined that the first luminance value set by the user exceeds the threshold value, the controller 120 equalizes the backlight unit 150 while maintaining the first luminance value as it is (S460).

Accordingly, when the user sets an excessively low luminance value, the backlight unit 150 may not be equalized even though it is not a malfunction, and thus no image may be displayed.

As described above, according to the present invention, when the user turns on the liquid crystal display device after setting the luminance value low for convenience, the luminance value of an appropriate size is equalized when the lamp supplying the backlight required for the display panel is equalized. After adjusting to equalize and re-adjusting to the set luminance value again, it is possible to turn on the liquid crystal display device normally. Accordingly, the variable width of the luminance can be effectively controlled. On the other hand, since the PWM method is not used, it is possible to prevent the screen blemishes, wave patterns, and the like.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is a schematic diagram showing an internal configuration of a general liquid crystal display device;

2 is a schematic diagram of a liquid crystal display device displaying an OSD menu for brightness adjustment;

3 is a block diagram showing a configuration of a liquid crystal display device according to the present invention;

4 is a schematic diagram showing a luminance adjustment menu represented by an OSD in the liquid crystal display device according to the present invention; and

5 is a flowchart illustrating a method for automatically adjusting luminance in the liquid crystal display device according to the present invention.

Explanation of symbols on the main parts of the drawing

110: signal processing unit 120: control unit

130: display panel 140: inverter unit

150: backlight unit 160: OSD module

170: memory

Claims (13)

A display panel displaying an image using the provided liquid crystal; A backlight unit for projecting a backlight having a brightness corresponding to a preset first luminance value onto the display panel; and And if it is determined that the first luminance value is insufficient to equalize the backlight unit, the controller adjusts the backlight unit to a predetermined second luminance value to equalize the backlight unit and then readjusts the first luminance value to the first luminance value. Liquid crystal display device. The method of claim 1, And an inverter unit supplying a driving current corresponding to the first luminance value to the backlight unit to drive the backlight unit. The method of claim 2, The control unit, When equalizing the backlight unit, if it is determined that the first luminance value is equal to or less than a predetermined threshold value, the driving unit corresponding to the second luminance value is supplied after adjusting to the second luminance value exceeding the threshold value. And a control unit for the inverter unit. The method of claim 3, And a memory in which information on the first luminance value, the second luminance value, and the threshold value is stored. The method of claim 4, wherein And an OSD module for adjusting the first luminance value by displaying an OSD menu through the display panel. The method of claim 5, And a signal processor which receives an external image signal and converts the image signal into a digital signal that can be recognized by the display panel. The method of claim 6, The control unit, And when the first luminance value is determined to be less than or equal to the threshold value, adjusts the contrast of the digital signal converted by the signal processor to the second luminance value. The method of claim 5, The control unit, And after a predetermined time elapses after adjusting to the second luminance value, adjusts the luminance value to the first luminance value. The method according to any one of claims 1 to 8, And the threshold is set to a minimum luminance level value capable of equalizing the backlight unit. In the turn-on method of the liquid crystal display device comprising a display panel, and a backlight unit for projecting a backlight having a brightness corresponding to a predetermined first luminance value to the display panel, (a) checking whether the first luminance value is equal to or less than a predetermined threshold value; (b) if it is determined to be less than or equal to the threshold, adjusting to a second luminance value exceeding the threshold; (c) supplying a driving current corresponding to the second luminance value to the backlight unit; and and (d) if it is determined that the backlight unit is equalized, readjusting a luminance value to the first luminance value. The method of claim 10, In step (b), And adjusting a contrast value of the digital signal supplied to the display panel to adjust the brightness value to the second brightness value. The method of claim 11, In step (d), And determining that the backlight unit is equalized when a predetermined time elapses after supplying a driving current by adjusting to the second luminance value. 2. The method according to any one of claims 10 to 12, And the threshold value is a minimum luminance level value at which the backlight unit can be equalized.