KR100935551B1 - Apparatus and method for controlling backlight - Google Patents

Abstract

The present invention relates to a backlight control apparatus and method, specifically, a backlight on / off key for outputting a backlight on or off signal; A storage unit for storing a predetermined time unit and a backlight on / off time value; A backlight timer for increasing a time value in the preset time unit; And controlling the backlight on or off luminance by adjusting the backlight on or off luminance control value corresponding to the time value of the backlight timer until the preset backlight on or off time value is received when the backlight on or off signal is received. And a luminance controller, wherein the luminance controller multiplies a time value of the increased backlight timer by a preset value after inputting the backlight lighting signal, and divides the backlight lighting time adjustment value by the preset backlight lighting time value. It provides an apparatus and method for determining the.

Backlight, Backlight On / Off Key, Liquid Crystal Display, Backlight Timer

Description

Backlight Control Device and Method {APPARATUS AND METHOD FOR CONTROLLING BACKLIGHT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight control apparatus and method, and more particularly, to a backlight control apparatus and method for controlling backlight brightness according to an increasing time value of a backlight timer when a backlight is turned on or off.

In general, the liquid crystal display device has a trend that the application range is gradually widened due to the characteristics such as light weight, thin, low power consumption. In accordance with this trend, liquid crystal displays are used in office automation equipment, audio / video equipment, and the like. In such a liquid crystal display, a transmission amount of a light beam is adjusted according to a signal applied to a plurality of control switches arranged in a matrix to display a desired image on a screen.

Since the liquid crystal display is not a self-luminous display, a separate light source such as a back light is required.

The backlight includes a direct type and an edge type according to the position of the light source. An edge type backlight is provided with a light source at one edge of the liquid crystal display, and irradiates the liquid crystal display panel with light incident from the light source through a light guide plate and a plurality of optical sheets. In the direct type backlight, a plurality of light sources are disposed directly below the liquid crystal display, and light incident from the light sources is irradiated onto the liquid crystal display panel through the diffusion plate and the plurality of optical sheets.

Recently, the direct type backlight having higher luminance, light uniformity and color purity than the edge type has been used more mainly in LCD TVs.

In such a direct type backlight unit, a fluorescent lamp is used as a light source.

1 is a configuration diagram showing a conventional cold cathode fluorescent lamp (CCFL).

As shown in FIG. 1, a cold cathode fluorescent lamp (CCFL) includes a glass tube 6 made of glass, an inner electrode 2 inside both ends of the glass tube 6, and an inner electrode. A lead electrode (4) in contact with (2) and extending outwardly at both ends, and a fluorescent material (10) for emitting visible light on the inner wall of the glass tube (6), the inside of the glass tube (6) The space 9 is filled with argon (Ar), discharge gas (gas) consisting of neon (Ne), and mercury (Hg). The cold cathode fluorescent lamp (CCFL) is a lamp using internal electrodes, and requires a separate wire assembly to implement electrical energy.

Accordingly, recently, an external electrode fluorescent lamp (EEFL) having electrodes on both end surfaces has been developed.

2 is a configuration diagram showing a conventional external electrode fluorescent lamp (EEFL).

As shown in FIG. 2, the external electrode fluorescent lamp EEFL includes a glass tube 16 made of glass, an external electrode 12 formed on both end surfaces of the glass tube 16, and an external electrode 12. And a fluorescent material 20 for emitting visible light on the inner wall of the glass tube 16, and the discharge gas (gas) and mercury consisting of argon (Ar), neon (Ne) in the glass tube inner space 19. (Hg) is filled.

The external electrode fluorescent lamp (EEFL) is sealed by inserting mercury (Hg) and a discharge gas into the glass tube 16, attaching the external electrodes 12 to both ends, and applying a voltage between the external electrodes 12 to discharge. UV light generated by the discharge hits the fluorescent material 20 and the visible light is emitted to the outside of the lamp.

Here, as the material of the external electrode 12 of the external electrode fluorescent lamp (EEFL), aluminum tape (Al tape), tape (Al paste), and the like are used, and due to argon (Ar) and neon (Ne), which are internal filling gases, The pressure inside the tube is 50 torr or more, and the ratio of argon (Ar) to the total discharge gas is about 10%.

On the other hand, in the audio system and the AV system of a vehicle equipped with a liquid crystal display, the backlight is turned on or off for a short time which is not recognized by the naked eye when the backlight is turned off or turned on.

If the backlight is turned on or off within a short time, a large amount of power difference occurs at a time, causing the LCD screen to become unstable or affect other systems.

In addition, there is a problem that gives a visual fatigue due to a large amount of light changes in a short time.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide a backlight control apparatus and method for setting a target time and gradually increasing or decreasing the brightness of the backlight in a predetermined amount during the target time. .

In order to achieve the above object, according to an aspect of the present invention, a backlight on / off key for outputting a backlight on or off signal; A storage unit for storing a predetermined time unit and a backlight on / off time value; A backlight timer for increasing a time value in the preset time unit; And controlling the backlight on or off luminance by adjusting the backlight on or off luminance control value corresponding to the time value of the backlight timer until the preset backlight on or off time value is received when the backlight on or off signal is received. And a luminance controller, wherein the luminance controller multiplies a time value of the increased backlight timer by a preset value after inputting the backlight lighting signal, and divides the backlight lighting time adjustment value by the preset backlight lighting time value. It provides a backlight control device for determining.

According to another aspect of the present invention, a backlight control method for controlling a brightness of a backlight having a backlight timer, comprising: a signal determining step of determining whether an input signal is a backlight on or off signal; A time determination step of determining whether a time value of a backlight timer matches a preset backlight on or off time value according to the determination result of the signal determination step; And a brightness control step of sequentially controlling the brightness of the backlight by controlling the backlight on or off brightness according to the determination result of the time determining step, wherein the brightness control step includes the increased backlight timer when the backlight lighting signal is generated. A first step of multiplying a time value of the multiplied by a preset value and dividing the preset backlight lighting time value; And a second step of adjusting the backlight lighting luminance with the first step result value.

According to the present invention, it is possible to sequentially increase or decrease the brightness of the backlight according to the time value of the backlight timer increases when the backlight is turned on or off, thereby preventing a large amount of power difference in a short time to prevent the liquid crystal display device from becoming unstable. This can be done and prevented from affecting other systems.

In addition, there is an effect that can prevent a large amount of light changes occur in a short time to give visual fatigue.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail, focusing on the parts necessary to understand the operation and action according to the present invention.

3 is a block diagram schematically showing the configuration of the backlight control apparatus of the present invention.

As shown in FIG. 3, the backlight control apparatus of the present invention includes a backlight on / off key 100, a backlight timer 200, a backlight 300, a storage 400, and a brightness controller 500. Include.

First, when the key is input, the backlight on / off key 100 outputs a backlight on or off signal for turning on or off the backlight 300.

The backlight timer 200 increases the time value in a preset time unit, for example, 1 second.

In addition, the backlight 300 emits light at the rear of the liquid crystal display (not shown) so that the contents of the liquid crystal display (not shown) can be easily read at night or in a dark place.

The storage unit 400 stores a preset time unit and a preset backlight on / off time value, for example, 4 seconds.

First, when the backlight controller 500 receives the backlight on or off signal, the luminance controller 500 initializes the time value of the backlight timer 200 and increases the time value of the backlight timer 200 by a predetermined time unit.

Then, if the input signal is the backlight lighting signal, the brightness controller 500 multiplies the increased backlight timer time value by a preset value, for example, 100, and divides the backlight backlight time value, for example, 4 seconds, to adjust the backlight lighting brightness. Determine the value.

Thereafter, the brightness controller 500 controls the brightness of the backlight 300 by adjusting the backlight lighting brightness with the determined lighting brightness adjustment value.

Then, the brightness controller 500 compares the time value of the increased backlight timer with a preset backlight on time value, for example, 4 seconds, and if the comparison value does not match, until the comparison value matches, For example, the process of sequentially controlling the brightness of the backlight 300 is repeatedly performed by adjusting the backlight lighting brightness according to the determined backlight lighting brightness adjustment value.

However, if there is a match, the brightness controller 500 controls the brightness of the backlight 300 to the backlight lighting brightness control value 100, that is, the maximum brightness (100%) of the backlight 300.

If the input signal is a backlight off signal, the luminance controller 500 subtracts a preset off time value, for example, a time value of the backlight timer increased from 4 seconds, and divides it into a preset off time value. Multiply the value to determine the backlight off luminance control value.

Then, the brightness controller 500 controls the brightness of the backlight 300 by adjusting the backlight unlit luminance to the determined unlit luminance control value.

After that, the luminance controller 500 compares the time value of the increased backlight timer with a preset backlight extinction time value. If the comparison value does not match, the brightness control unit 500 performs the above-described operation until the comparison values match. The process of sequentially controlling the brightness of the backlight 300 is repeatedly performed by adjusting the backlight extinction brightness according to the backlight extinction brightness control value.

However, if there is a match, the brightness controller 500 controls the brightness of the backlight 300 to be zero backlight brightness control value 0, that is, the minimum brightness (0%) of the backlight 300.

4 is a graph illustrating a change in the backlight lighting luminance adjustment value according to the backlight lighting time value and the backlight timer time value of the present invention, and FIG. 5 is a backlight lighting luminance adjustment value according to the backlight lighting time value and the backlight timer time value. Figure 6 is a graph showing the change, Figure 6 is a flow chart showing a backlight control method of the present invention.

As shown in FIG. 6, first, the luminance controller 500 determines whether an input signal is a lighting signal (S601).

As a result of the determination, in the case of the lighting signal, the brightness controller 500 initializes the time value of the backlight timer 200 (S603) and then increases the time value of the backlight timer 200 (S605).

Then, the brightness controller 500 determines whether the time value of the increased backlight timer and the preset backlight lighting time value match (S607).

As a result of determination, the luminance controller 500 calculates a backlight lighting luminance adjustment value according to the increased time value of the backlight timer 200, and adjusts the backlight lighting luminance to the calculated result and then backlights 300. Control the brightness of (S609).

Referring to FIG. 4, the backlight lighting luminance adjustment will be described in detail. The vertical axis of the graph represents the lighting luminance adjustment value of the backlight, and the horizontal axis represents the time value of the backlight timer.

That is, the horizontal axis of the graph represents an increase with respect to the time value of the backlight timer 200.

The backlight lighting time value t2 is 4, and the time value of the backlight timer 200 increases from 0 to 4 in a preset time unit, for example, 1 second, and the backlight brightness adjustment value is calculated using an expression having a slope of 25 ( (100 * t1) / t2).

The brightness controller 500 may vary the backlight brightness control speed according to the inclination of the formula (100 * t1) / t2 in controlling the backlight 300 to the maximum brightness (100%) by the backlight lighting brightness control value. Can be.

The backlight brightness control speed is referred to as a reference speed when the slope of the equation ((100 * t1) / t2) is 25. When the slope of the equation (100 * t1) / t2 is less than 25, the backlight brightness control speed is low, and when the slope of the equation (100 * t1) / t2 is greater than 25, it is high speed.

That is, when the backlight brightness control speed is low, the brightness controller 500 controls the brightness of the backlight 300 to be lower than the reference speed. When the backlight brightness control speed is high, the brightness of the backlight 300 is higher than the reference speed. Control fast.

As an exemplary embodiment of the present invention, an increasing time unit of the backlight timer 200, that is, the preset time unit is 1 second and the inclination is 25 has been described as an example. However, the present disclosure is not limited thereto and may be set to various values. .

Calculating the backlight lighting luminance adjustment value is shown in [Table 1].

Backlight timer time value (t1)   Illumination adjustment value       One             0           0       2             One           25       3             2           50       4             3           75       5             4           100

As shown in Table 1, as the time value t1 of the backlight timer 200 increases, it can be seen that the backlight lighting luminance adjustment value also gradually increases.

Therefore, the brightness controller 500 sequentially controls the brightness of the backlight 300 according to the backlight lighting brightness control value.

When the preset backlight lighting time value t2 and the increased time timer t1 of the backlight timer 200 coincide with each other, the backlight brightness adjustment value is 100.

As a result of the determination in step 607 (S607), the brightness controller 500 controls the backlight 300 to be in the lit state of the maximum brightness (100%) by the lighting brightness control value 100.

As a result of the determination in step 601 (S601), if it is not a lighting signal, the luminance controller 500 initializes the time value of the backlight timer 200 (S611) and then increases the time value of the backlight timer 200 (S613). .

Then, the brightness controller 500 determines whether the time value of the increased backlight timer 200 and the preset backlight off time value match (S615).

As a result of the determination, if it does not match, the brightness control unit 500 calculates the backlight unlit brightness control value according to the increased time value of the backlight timer 200, and adjusts the backlight unlit brightness to the calculated result to backlight 300 Control the brightness of (S617).

Referring to FIG. 5, the backlight unlit brightness control will be described in detail. The vertical axis of the graph shows the unlit brightness control value of the backlight, and the horizontal axis shows the time value of the backlight timer.

That is, the horizontal axis of the graph represents an increase with respect to the time value of the backlight timer 200.

The backlight off time value t3 is 4, and the time value of the backlight timer 200 increases from 0 to 4 in a predetermined time unit, for example, 1 second, and the backlight off luminance control value has a slope of -25. Determined by the equation (100 * (1-t1 / t3)).

The brightness controller 500 may vary the backlight brightness control speed according to the inclination of the equation (100 * (1-t1 / t3)) in controlling the backlight 300 at the maximum brightness by the backlight lighting brightness control value. .

The backlight brightness control speed is referred to as the reference speed when the slope of the equation (100 * (1-t1 / t3)) is -25. If the slope of the equation (100 * (1-t1 / t3)) is greater than -25, the backlight brightness control speed is slow, and if the slope of the equation (100 * (1-t1 / t3)) is less than -25 Becomes high speed.

That is, when the backlight brightness control speed is low, the brightness controller 500 controls the brightness of the backlight 300 to be lower than the reference speed. When the backlight brightness control speed is high, the brightness of the backlight 300 is higher than the reference speed. Control fast.

As an exemplary embodiment of the present invention, the incrementing unit of the backlight timer 200, that is, the preset time unit is 1 second and the inclination is −25 is described as an example, but the present disclosure is not limited thereto and may be set to various values.

Calculating the backlight off luminance control value is shown in [Table 2].

 Backlight timer time value (t1)   Light off luminance adjustment value      One             0          100      2             One           75      3             2           50      4             3           25      5             4            0

As shown in Table 2, as the time value of the backlight timer 200 increases, it may be seen that the backlight unlit luminance control value gradually decreases.

Therefore, the brightness controller 500 sequentially controls the brightness of the backlight according to the backlight unlit brightness control value.

When the preset backlight off time value t3 and the increased time value t1 of the increased backlight timer 200 coincide with each other, the backlight off luminance adjustment value becomes zero.

As a result of the determination in step 615 (S615), if it matches, the brightness controller 500 controls the backlight 300 to be turned off at the minimum brightness (0%) by turning off the brightness adjustment value 0.

As mentioned above, the configuration of the present invention has been described in detail with reference to the preferred embodiments and the accompanying drawings, which are merely exemplary and should be understood by those skilled in the art to which the present invention pertains. Various changes and modifications will be possible. For example, the embodiments of the present invention have been described with limited backlight control when the backlight is turned on or off in an audio system or an AV system having a liquid crystal display for a vehicle. It can be applied to sound control technology in sound output or cancellation in audio system and AV system with vehicle sound output device.

Therefore, the protection scope of the present invention should be defined by the following claims.

1 is a block diagram showing a conventional cold cathode fluorescent lamp (CCFL).

2 is a configuration diagram showing a conventional external electrode fluorescent lamp (EEFL).

3 is a block diagram of a backlight control device of the present invention.

4 is a graph illustrating a backlight lighting luminance adjustment value according to a time value of a backlight timer.

5 is a graph illustrating a backlight unlit luminance control value according to a time value of a backlight timer.

6 is a flow chart showing a backlight control method of the present invention.

*** Explanation of symbols for main parts of drawing ***

100: backlight on / off key 200: backlight timer

300: backlight 400: storage

500: luminance control unit

Claims (7)

A backlight on / off key for outputting a backlight on or off signal; A storage unit for storing a predetermined time unit and a backlight on / off time value; A backlight timer for increasing a time value in the preset time unit; And Luminance to control the backlight on or off brightness according to the backlight on or off brightness adjustment value corresponding to the time value of the backlight timer until the preset backlight on or off time value is received when the backlight on or off signal is received. Including a control unit, The brightness control unit, The backlight control apparatus when the backlight lighting signal is input, multiplies the increased time value of the backlight timer by a predetermined value, and then divides the predetermined backlight lighting time value to determine the backlight lighting brightness adjustment value. delete The method of claim 1, wherein the brightness control unit, When the backlight off signal is input, the backlight off time adjustment value is subtracted from the preset backlight off time value, divided by the preset off time value, and then multiplied by a preset value to adjust the backlight off brightness adjustment value. Backlight control device, characterized in that for determining. In the backlight control method for controlling the brightness of the backlight having a backlight timer, A signal determining step of determining whether the input signal is a backlight on or off signal; A time determination step of determining whether a time value of a backlight timer matches a preset backlight on or off time value according to the determination result of the signal determination step; And And a brightness adjusting step of sequentially controlling the brightness of the backlight by adjusting the backlight on or off brightness according to the determination result of the time determining step. The brightness control step, A first step of multiplying an increased time value of the backlight timer by a preset value and dividing the preset backlight on time value by the backlight backlight signal; And And a second step of adjusting the backlight lighting luminance by the first step result value. The method of claim 4, wherein the time determination step, Initializing the time value of the backlight timer and increasing the time value of the backlight timer by a predetermined time unit; Backlight control method comprising a. delete The method of claim 4, wherein the brightness control step, A third step of subtracting the time value of the backlight timer increased from the preset extinguishing time value in the case of the backlight extinguishing signal; Dividing the result value of the third step by a preset backlight off time value and then multiplying the preset value by a preset value; And A fifth step of adjusting the backlight extinction luminance according to the fourth step result; Backlight control method comprising a further.

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