KR101399130B1 - Back Light Unit Driving Apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving apparatus for a backlight unit (BLU), in which two or more RGB groups having red (R), green (G) and blue (B) LED elements having different spectrums are formed as one backlight unit A backlight unit unit having a plurality of the backlight unit units and providing a light source to the liquid crystal display device; a BLU driving unit for supplying a driving signal to the LED elements in the backlight unit unit; And a BLU control unit for outputting different control signals to the BLU driving unit for each LED element in the backlight unit unit according to the color coordinates.

LCD, LCD, LED, Backlight Unit, BLU, Spectrum, Color Coordinates, Color

Description

BACKLIGHT UNIT DRIVING APPARATUS Technical Field [1]

FIG. 1 is a view showing a range of possible color coordinates of a conventional backlight unit.

2 is a diagram illustrating a backlight unit unit according to an embodiment of the present invention.

3 is a diagram illustrating that the backlight unit unit has two color coordinate ranges according to an embodiment of the present invention.

4 is a diagram illustrating a range of color coordinates that can be implemented in a backlight unit unit according to an embodiment of the present invention.

5 is a block diagram illustrating a backlight unit driving apparatus according to an embodiment of the present invention.

6 is a diagram illustrating a result of driving combination of a backlight unit unit according to an embodiment of the present invention.

FIG. 7 is a view illustrating driving of a backlight unit unit at a predetermined ratio according to an embodiment of the present invention.

FIG. 8 is a diagram illustrating a method of controlling an LED according to an image frame according to an exemplary embodiment of the present invention. Referring to FIG.

FIG. 9 is a diagram illustrating a method of controlling LEDs line by line according to an embodiment of the present invention.

Description of the Related Art [0002]

20: backlight unit unit 21: first RGB group

22: second RGB group 50: backlight unit

51: LED frame 52: memory

53: BLU driver 54: BLU controller

The present invention relates to a driving apparatus for a backlight unit (BLU).

LCDs such as LCDs do not have a self-emitting power and use a backlight unit (BLU) as an external light source. CCFL, EEFL, and white LED are used as light sources of the backlight unit. And the light is irradiated to the liquid crystal display device.

However, when a CCFL or a white LED is used as a light source of the backlight unit, the color reproducibility of a liquid crystal display device is lower than that of a CRT (cathode-ray tube).

This is because the displayable spectral range of the backlight for coloring is small. To solve this problem, the RGB primary color LED is also used. However, when the RGB primary color LED is used as described above, the expression range of the RGB three colors is widened as shown in FIG. 1, but the expression power in the mixed color is not greatly improved.

The present invention provides an apparatus for increasing the color expressive power in order to express a color close to a natural color in driving a backlight unit unit.

The present invention relates to a backlight unit unit in which two or more RGB groups having red (R), green (G) and blue (B) LED elements having different spectrums are formed as one backlight unit, A backlight unit for supplying a driving signal to the LED elements in the backlight unit unit, a BLU driving unit for supplying driving signals to the LED elements in the backlight unit, And a BLU control unit for outputting another control signal to the BLU driving unit.

In addition, the backlight unit further includes a memory in which input image data is temporarily buffered and stored.

The backlight unit unit may include a first RGB group having LED elements of primary color R / G / B spectrum and a second RGB group having LED elements of R "/ G" / B spectrum having a predetermined difference from the primary color .

If the color coordinates of R, G, and B of the image data are within the first range, the BLU controller may control the red (R) LED element, the green (G) LED element, and the blue (B) LED element in the first RGB group (G) LED element and a blue (B) LED element in the second RGB group, respectively, if the R, G, and B color coordinates of the image data are within the second range , The red (R) LED element in the first RGB group and the red (R) LED element in the second RGB group are selected to drive only one LED element, and the green (G) LED element in the first RGB group and the red (B) LED element in the first RGB group and the blue (B) LED element in the second RGB group are selected so that only one LED element is selected .

In addition, the BLU control unit drives each LED element in the RGB group as a predetermined brightness ratio according to the R, G, and B color coordinates of the image data.

Hereinafter, a detailed description of embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that the same reference numerals are used to denote the same or similar components in the drawings.

2 is a diagram illustrating a backlight unit unit according to an embodiment of the present invention.

Hereinafter, one backlight unit unit 20 formed by combining two RGB groups 21 and 22 will be described. However, a plurality of RGB groups having two different spectrums may be grouped into a backlight unit unit It will be apparent that the invention may be practiced.

In the conventional backlight unit unit, a single RGB group constitutes one backlight unit unit and can emit light with only one spectrum. However, according to the present invention, as shown in FIG. 2, two RGB groups 21 and 22 having different spectra are grouped into one backlight unit unit 20. FIG.

LED devices following light intensity control using constant current control and pulse width modulation can have different spectral ranges due to the energy bandgap characteristics of the semiconductor. Therefore, in the present invention, groups of LED elements of RGB having different spectral ranges are grouped into a backlight unit unit 20.

By forming the backlight unit unit 20 by grouping the two RGB groups 21 and 22 having different spectrums as described above, it is possible to obtain a wider color representation range. That is, the first RGB group 21 made up of red (R), blue (B) and green (G) LED elements having a first spectrum (R / G / B) (B) and green (G) LED elements having red (R), blue (B) and green 3, it can be seen that the two RGB groups 21 and 22 have different color coordinates because they have different spectra. Therefore, the first RGB group 21 and the second RGB group 22 The color coordinates that can be expressed by the backlight unit unit proposed by the present invention can be expressed by the RGB three colors of the prior art 1 as shown in FIG. A new type of backlight capable of expressing a color coordinate region of a polygon as shown in Fig. 4 .

5 is a block diagram of a driving apparatus for a backlight unit according to an embodiment of the present invention.

The present invention includes a backlight unit 50 having a backlight unit unit array composed of a plurality of LED frames 51, a BLU driving unit 53, a BLU control unit 54, and a memory 55. The LED frame 51 includes a plurality of backlight unit units 20 including red (R) LEDs, green (G) LEDs, and blue (B) LEDs. The backlight unit unit 20 includes RGB groups 21 and 22 having RGB LED elements having different spectral ranges as shown in FIG. By combining the two RGB groups (21, 22, first RGB group, and second RGB group) having different spectrums as described above to form the backlight unit unit 20, the color expression range can be widened. The memory 52 is a recording medium in which image data is buffered and stored when temporarily buffering and analyzing corresponding image data at the time of color coordinate analysis of the image data in the BLU controller 54. [

The BLU control unit 54 controls the LED driving unit 53 as a PWM (Pulse Width Modulation) control method based on the characteristic of high speed operation for controlling the light amount of the backlight unit unit 20 in the LED frame 51 . The pulse width modulation scheme provides stable constant current through pulse generation, pulse width comparison, and modulation.

The BLU controller 54 of the present invention analyzes the color coordinates of input image data to determine the ratio of the RGB LED elements to which the RGB LED elements are to be driven and controls the BLU driver 53. The color coordinate analysis of the image data determines which RGB LED is driven according to the color coordinates of the input image data.

[Table 1]

Image data color coordinates Output of backlight unit unit R0 to R127 R R128 to R255 R " G0 to G127 G G128 to G255 G " B0 to B127 B B128 to B255 B "

For example, the first RGB group 21 having the LED elements of the R / G / B spectrum can represent the color coordinates of the primary color and the second RGB group 22 having the LED elements of the R "/ G" / B " ) Are assumed to have color coordinates slightly different from the primary colors and 256 color coordinates are respectively assigned. When the input image data is R0 to R127 as shown in Table 1 and R is R128 to R255, R " G "for G0 to G127, G" for G128 to G255, B for B0 to B127, and B "for B128 to B255.

By determining the RGB LEDs to be output in the backlight unit unit 20 through the above-described color coordinate analysis, the color output range according to image data of various colors can be widened. For example, if the color coordinate of the image data displaying the airplane floating in the sky is B157, the BLU control unit 54 outputs a control signal for turning on the B "LED element slightly out of the blue (B) primary color to the BLU driving unit. For example, if the color coordinate of the image data for displaying the ship navigating the sea is B89, the BLU control unit 54 sends a control signal for turning on the B LED element close to the blue (B) primary color to the BLU driving unit 53 The driving mode of the backlight unit unit can finally have eight combinations of LEDs as shown in FIG.

By selectively controlling the first RGB group 21 and the second RGB group 22 of the backlight unit unit 20 in the BLU according to the frame as described above, the color coordinates of the wide area can be expressed and can be expressed close to the primary color It is.

Meanwhile, the eight combinations shown in FIG. 6 correspond to the case where one color coordinate is dominantly disposed in the entire display. However, most displays are rarely dependent on one color as described above. Therefore, each LED element can be turned on and off alternately as shown in FIG. 6, but in order to express more various colors, it is necessary to consider a case where colors are mixed.

To this end, in another exemplary embodiment of the present invention, a display screen in which various colors are to be displayed is driven differently in an output combination of the LED unit units, thereby enabling the best color representation through BLU control according to an optimal color in the corresponding frame.

For this purpose, each LED element of the backlight unit unit 20 may be driven at the same rate as that shown in FIG. That is, as shown in FIG. 7, the LED elements in the first RGB group 21 and the LED elements in the second RGB group 22 may be lit simultaneously according to the mutual ratio. For example, when a display with a red rose in a flower field filled with pink is executed, the majority of the image data of the frame input to the BLU control section will have R27 indicating pink, And the BLU control unit detects that image data having such color differences are input, and adjusts the output ratio of R and R "in the backlight unit unit 20 to 4: 6 as shown in FIG. 7, Quot; R " The output ratio control is possible by controlling the current supplied to the LED.

In the BLU control method described above, the colors of the LEDs are controlled according to the ratio of the colors of the LEDs for each image frame, as shown in FIG. 8, by analyzing the color coordinates of the input image data. By adjusting the color combination of the backlight, So that it can be expressed. As another embodiment of the present invention, the BLU output control may be performed by analyzing the color coordinates of each line as shown in FIG. 9 instead of performing color coordinate analysis for each image frame. If you control the BLU output line by line, the color representation is much improved and it can be expressed close to natural color.

As another embodiment of the present invention, in order to smoothly express color when frame driving or line driving is performed, a short ON / OFF conversion time at the time of driving the BLU is used to instantaneously turn off the backlight momentarily ). When the backlight is controlled by the driving method as described above, the backlight blanking effect can also be provided, thereby further reducing the motion blur phenomenon. If the backlight blanking is not performed, the ON ratio of the backlight can be fade on / off to gradually turn on and off to reduce the visibility of the eyes.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, the scope of the patent of the present invention is not limited by the above-described embodiments, and it will be obvious that the patent scope covers not only the claims but also the equivalents.

As described above, according to the present invention, by selectively driving LED elements having different spectrums in a backlight unit unit in accordance with an image color coordinate to be displayed, it is possible to broaden the range of colors that can be implemented in a liquid crystal display It is effective.

Claims (10)

A backlight unit unit in which two RGB groups having red (R), green (G) and blue (B) LED elements having different spectrums are formed as one backlight unit, A backlight unit having a plurality of the backlight unit units and providing light to the liquid crystal display device; A BLU driver for supplying a driving signal to the LED elements in the backlight unit; A BLU controller for outputting different control signals for each LED element in the backlight unit unit to the BLU driver according to a color coordinate of input image data; A memory in which input image data is temporarily buffered and stored Lt; / RTI > The backlight unit unit includes a first RGB group having LED elements of R / G / B spectrums of primary colors and a second RGB group having LED elements of R "/ G" / B "spectrums of a predetermined difference from the primary colors Including, Wherein the image data includes first data having a color coordinate in a first gradation range and second data having a color coordinate in a second gradation range not overlapping the first gradation range, Each of the LED elements of the R / G / B spectrum is output when the image data has a color coordinate in a first gradation range, Each of the LED elements of the R "/ G" / B "spectrum is output when the image data has a color coordinate in a second gradation range, And a backlight unit for varying the output ratio of each of the LED elements of the R / G / B spectrum and the LED elements of the R "/ G" / B "spectrum according to the ratio of the first data and the second data included in the image data. . delete delete delete delete delete The backlight unit according to claim 1, wherein the BLU controller comprises: a backlight unit for turning off all the LED elements in the R / G / B and R "/ G" / B " Driving device. The backlight unit according to claim 1, wherein the BLU controller comprises: a backlight unit for progressively fading-converting the LED elements in the R / G / B and R "/ G" / B " Drive unit. The method according to claim 1, Wherein the BLU control unit controls the output of each LED element in the LED elements of the R / G / B and R "/ G" / B "spectrum through color coordinate analysis of the image line. The method according to claim 1, Wherein the BLU control unit controls the output of each LED element in the LED elements of the R / G / B and R "/ G" / B "spectrum through color coordinate analysis for each frame of an image.

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