KR20050074363A - Method for controlling brightness and implementing low power mode of back light unit in an liquid crystal display - Google Patents

Abstract

The present invention relates to a method of sequentially adjusting the luminance level of a backlight for a liquid crystal display device based on a maximum luminance value calculated from luminance image data of a frame stored in a frame memory, and to a method of implementing a low power mode of the backlight. will be. A method of adjusting the brightness of a backlight for a liquid crystal display according to the present invention includes calculating a maximum brightness value from brightness image data for a predetermined number of frames, and based on the calculated maximum brightness value, the brightness of the backlight. Calculating a level, comparing the calculated brightness level of the backlight with a previous brightness level of the backlight, and if the calculated brightness level is not equal to a previous brightness level, the brightness of the backlight Adjusting a predetermined level. According to the present invention, the phenomenon that the screen of the screen flickers due to the sudden brightness change can be reduced, and the contrast ratio of the screen can be made natural as a whole.

Description

METHOD FOR CONTROLLING BRIGHTNESS AND IMPLEMENTING LOW POWER MODE OF BACK LIGHT UNIT IN AN LIQUID CRYSTAL DISPLAY}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for adjusting the brightness of a backlight for a liquid crystal display (LCD), and more particularly, based on a maximum luminance value calculated from luminance image data for a predetermined number of frames stored in a frame memory. A method of sequentially adjusting the brightness level and a method of implementing a low power mode of a backlight are disclosed.

Recently, with the development of the information industry, the demand for a liquid crystal display device capable of displaying a large screen image is increasing. However, as the size of the screen increases, the number of lamps used as a light source of the liquid crystal display device increases, thereby increasing the power consumption of the product.

In general, a cold cathode fluorescent lamp (hereinafter referred to as CCFL) is used as a lamp for an LCD backlight, and the brightness and lifespan of the CCFL are inversely related. Therefore, since the life of the lamp is shortened when high current is used to increase the brightness, the brightness of the lamp should be lowered in order to prevent shortening of the life of the lamp. However, in LCD products in recent years, brightness has been accepted as a competitive edge of the product. In addition, the number of lamps used in the LCD panel is increasing in accordance with the trend of large-sized LCD products, the power consumption continues to increase accordingly.

Looking at the prior art to solve the above-mentioned problem, there is a method of adjusting the brightness of the first video and the still image to lower the luminance in the case of the video and the brightness in the case of the still image, but in this case the video and still When images are mixed, there is a problem that a change in luminance occurs frequently and makes a user's eyes tired.

Second, there is a method of dividing the gradation of the screen into three levels to extract the screen components corresponding to each gradation, and then controlling the brightness of the backlight unit according to the gradation. However, in this case, when the gray level of the screen is divided into three stages, there is a problem in that the brightness of the screen is unnaturally changed due to the large difference between the stages.

Third, there is a method of increasing the brightness of the backlight by temporarily applying a high current to the lamp when the backlight is operated with a luminance within a range that does not affect the life of the lamp and then driving a screen requiring high brightness. . However, in this case, if a high brightness screen is continuously required, such as an advertisement, there is a problem in that the lifetime is shortened.

The present invention has been proposed to solve the above problems, and provides a method of increasing the life of the lamp and improving the overall contrast ratio of the screen by sequentially adjusting the brightness of the backlight according to the image data input to the liquid crystal display. It is for that purpose.

In addition, an object of the present invention is to provide a method for implementing a low power mode by maintaining the brightness of the backlight at the minimum level and operating only the minimum number of lamps when no image data is input.

Other objects and advantages in addition to the above objects and advantages of the present invention will become apparent from the following detailed description and the accompanying drawings.

According to a first aspect of the present invention, there is provided a method of controlling brightness of a backlight for a liquid crystal display device, the method including calculating a maximum luminance value from luminance image data for a predetermined number of frames stored in a frame memory, and based on the calculated maximum luminance value. Calculating a brightness level of the backlight; comparing the calculated brightness level with the previous brightness level of the backlight; and if the calculated brightness level is not equal to the previous brightness level. And adjusting the brightness of the backlight by a predetermined level.

Further, in a preferred embodiment according to the above feature, the luminance level of the backlight is set stepwise.

According to a second aspect of the present invention, there is provided a method of implementing a low power mode of a backlight for a liquid crystal display device, the method comprising: checking whether horizontal and vertical synchronization signals are input; Sequentially lowering the brightness of the light to a minimum level; outputting an OSD indicating no horizontal and vertical synchronization signals; and turning on only a predetermined number of backlight lamps capable of outputting the OSD; All other lamps include the step of turning OFF.

In a preferred embodiment according to the above features, the method for implementing a low power mode of a backlight for a liquid crystal display device may include determining whether a predetermined time has elapsed after turning on only a predetermined number of backlight lamps, and when the predetermined time has elapsed. And turning off the backlight lamp in the ON state and turning on only a predetermined number of backlight lamps in the following order, and moving the OSD to a position corresponding to the lamp turned on in step (f).

According to the present invention, the phenomenon that the screen of the screen flickers due to the sudden brightness change can be reduced, and the contrast ratio of the entire screen can be made natural.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to FIGS. 1 to 3.

1 is a block diagram schematically illustrating a configuration of a liquid crystal display device to which a first preferred embodiment according to the present invention is applied.

Referring to FIG. 1, the liquid crystal display 100 according to the present exemplary embodiment includes a scaler 10 and a scaler 10 for converting a format and resolution of an input video signal into a format and resolution suitable for the LCD module 50. A frame memory 20 for storing the image data converted from the image, a microcomputer 30 for controlling the operation of each component of the liquid crystal display, and an inverter 40 for supplying LCD driving power to the lamp in the LCD module 50. ).

The scaler 10 includes a format converter 12 for converting an input image signal into a format suitable for the LCD module 50, an OSD generator 14 for outputting an OSD on a screen (not shown), and the respective angles. It includes a memory control unit 16 for controlling the component.

In addition, the LCD module 50 includes a liquid crystal panel (not shown) composed of a liquid crystal, a polarizing plate, and the like, and a backlight (not shown) composed of a lamp, a prism, and the like.

According to a preferred embodiment of the present invention, the memory control unit 16 of the scaler 10 is configured to determine a luminance value for a local predetermined number of frames (eg, five frames) of a screen stored in the frame memory 20. The maximum luminance value from the image data is calculated and transmitted to the microcomputer 30. The microcomputer 30 adjusts the brightness level of the backlight based on the received maximum brightness value.

On the other hand, the luminance level of the white light emitted from the backlight is divided into several to several tens of steps in advance and is set in a stepwise manner. Accordingly, the microcomputer 30 determines which luminance level the maximum luminance value of the frame received from the memory controller 16 of the scaler 10 belongs to, and then adjusts the luminance of the backlight to correspond to the luminance level. .

Now, the method of adjusting the brightness of the backlight in the liquid crystal display device 100 having the above-described configuration will be described.

2 is a flowchart schematically showing a procedure of adjusting the brightness of a backlight according to the first preferred embodiment of the present invention.

First, an initial value of data to be used for luminance adjustment is set (step 10). Here, the data to be used for brightness adjustment includes data on how many frames of the frame stored in the frame memory 20 to calculate the maximum value of brightness, data on how many levels the brightness level of the backlight is divided, and the like. Included. Next, the memory controller 16 of the scaler 10 calculates a maximum luminance value from luminance image data for a predetermined number of frames stored in the frame memory 20 and transmits the maximum luminance value to the microcomputer 30 (step 12). . Next, the microcomputer 30 sets the brightness level of the backlight based on the calculated maximum brightness value (step 14). Next, the memory controller 16 of the scaler 10 calculates the maximum luminance value from the luminance image data for the predetermined number of frames in the next order and transmits the maximum luminance value to the microcomputer 30 (step 16). Next, the micom calculates the brightness level of the backlight based on the maximum transmitted brightness value (step 18). Next, the microcomputer 30 compares the calculated luminance level with a previous luminance level (step 20). Next, it is judged whether the adjustment of the luminance level is necessary as a result of the comparison (step 22). Here, the case where the adjustment of the brightness level is necessary means a case where the brightness level calculated by the microcomputer is different from the previous brightness level.

If the result of the comparison requires the adjustment of the brightness level (YES in step 22), the microcomputer 30 adjusts the brightness of the backlight by one level (step 24). Here, even when the luminance level calculated by the microcomputer is two or more levels higher or lower than the previous luminance level, only one level is adjusted to be higher or lower, instead of directly moving to the corresponding luminance level. Next, go to step 16 and repeat the above process.

On the other hand, if it is determined in step 20 that adjustment of the luminance level is not necessary (NO in step 20), the flow moves directly to step 16.

According to the present invention, even when the brightness of the backlight is two or more levels higher or lower, the brightness level can be sequentially adjusted only by one level. As a result, even when there is a sudden change in luminance, the brightness of the backlight is sequentially changed, thereby preventing flicker of flickering of the screen and improving the overall contrast ratio.

In the above, the method of controlling the brightness of the backlight according to the first embodiment of the present invention has been described.

Referring to FIG. 3, a method of operating the backlight in the low power mode when no image signal is input to the liquid crystal display will be described.

3 is a flowchart illustrating a method of implementing a low power mode when no video signal is input according to a second exemplary embodiment of the present invention. For reference, the second embodiment is implemented in the liquid crystal display 100 shown in FIG. 1 of the above-described first embodiment, and description thereof will not be repeated.

Referring to FIG. 3, first, the microcomputer 30 determines whether vertical and horizontal synchronization signals are input (step 101). Here, the absence of the horizontal and vertical synchronization signals means that the image signals are not input. Therefore, when the vertical and horizontal synchronization signals are not input (NO in step 101), the brightness levels of the backlight are sequentially lowered to adjust to the minimum brightness level (step 103). Next, an OSD is displayed on the screen informing the user that the video signal is not input (step 105). Next, the microcomputer controls inverter 40 to turn on only the minimum number of backlight lamps (eg, one) that can display the OSD, and turn off all other lamps (step 107). Then, when a predetermined time has elapsed (YES in step 109), the backlight lamp in the ON state is turned off, and only a predetermined number of backlight lamps in the next sequence are turned on (step 111). Here, the number of backlight lamps that are turned on during the OSD display and the order of the backlight lamps that are turned on after a predetermined time may be preset by the user. Next, the display position of the OSD is moved to a position corresponding to the predetermined number of lamps which are turned on (step 113). Next, go to step 109 and repeat the above procedure.

In this case, the predetermined number of backlight lamps are alternately turned on to prevent the life of the lamp from being shortened when only a certain backlight lamp is turned on to display the OSD. Also, the OSD is moved in response to the position of the lamp which is turned on so that the OSD can be displayed more effectively by the lamp which is turned on.

According to the present invention, by adjusting the brightness of the backlight for the liquid crystal display device according to the data value of the input video signal, it is possible to solve the conventional problem that the flicker phenomenon occurs due to a sudden brightness change, and the natural contrast ratio Can improve the effect.

In addition, when no video signal is input, the low power mode may be realized by turning on only a minimum number of lamps of the backlight. Thus, there is an advantageous effect that can solve the problem of high power consumption associated with the enlargement of the liquid crystal display device.

While the present invention has been described with reference to the preferred embodiments, those skilled in the art will understand that the present invention may be modified without departing from the spirit and scope of the invention. In other words, the present invention may be modified within the scope of the appended claims and should not be considered as being limited to the above-described exemplary embodiments.

1 is a block diagram schematically illustrating a configuration of a liquid crystal display device to which a first preferred embodiment according to the present invention is applied.

2 is a flow chart schematically showing a procedure for adjusting the brightness of a backlight according to the first preferred embodiment of the present invention.

3 is a flowchart illustrating a method of implementing a low power mode when no video signal is input according to a second exemplary embodiment of the present invention.

Description of the main parts of the drawing

10: scaler

12: format conversion unit

14: OSC generation unit

16: memory memory control unit

20: frame memory

30: Micom

40: inverter

50: LCD module

100: liquid crystal display

Claims (2)

A method for implementing a low power mode of a backlight for a liquid crystal display device, (a) checking whether horizontal and vertical synchronization signals are input; (b) sequentially decreasing brightness of the backlight to a minimum level when the horizontal and vertical synchronization signals are not input; (c) outputting an OSD screen indicating that horizontal and vertical synchronization signals are not input; And (d) turning on only a predetermined number of backlight lamps capable of outputting the OSD screen and turning off all other lamps; Low power mode implementation method of the backlight for the liquid crystal display device comprising a. The method of claim 1, (e) determining whether a predetermined time has elapsed after turning on only a predetermined number of lamps; (f) when the predetermined time elapses, turning off the lamps in the ON state and turning on only a predetermined number of lamps in the next order; (g) moving the OSD screen to a position corresponding to the lamp turned on in step (f); Low power mode implementation method of the backlight for the liquid crystal display device comprising a.