KR20100056957A - System for light emitting diode backlight - Google Patents

Abstract

PURPOSE: A light emitting diode backlight system is provided to equally guarantee color purity of LED(Light Emitting Diode) devices. CONSTITUTION: An LED device light amount control unit(105) comprises an LED driver(105a) and an LED(Light Emitting Diode) device for a color sensor. The LED driver is connected to an LED backlight to drive the LED devices. The target adjusting device for the color sensor determines a light receiving amount of LED devices detected through a color sensor. The target adjusting device for the color sensor supplies a duty value corresponding to a light amount of LED devices which will be compensated in the LED driver.

Description

LED Backlight System {System for Light Emitting Diode Backlight}

Embodiments relate to an LED backlight system.

In general, an LED backlight is used as a light source of a liquid crystal panel by arranging a plurality of LED elements of red, green, and blue, respectively.

Here, in the conventional LED backlight system, a color sensor is mounted on the LED backlight to detect the received amount of LED elements corresponding to red, green, and blue, and red and green The blue LED color controller determines the detected amount of received light and adjusts the brightness of the red, green, and blue LED elements according to the brightness of the screen to be displayed on the display panel.

In this case, in the conventional LED backlight system, characteristics of LED elements of red, green, and blue appear differently according to temperature or time, and thus, red, green, and blue colors are different. The brightness of each LED element of (Blue) is different and the brightness of LED LED Dimming cycle is different.

Therefore, the conventional LED backlight system is appropriate when adjusting the brightness of the LED elements of the red, green, and blue through the red, green, and blue LED color control. Red, Green, and Blue color coordinates must be set after removing the brightness components of red, green, and blue LED elements. There was a limit in outputting light quantity of green and blue LED elements quickly.

The LED backlight system according to the embodiment can shorten the target arrival time of the color sensor, thereby quickly outputting the light quantity of the LED elements, and can equally compensate for the color purity of the LED elements.

In addition, the LED backlight system according to the embodiment can provide the correct brightness or color purity of the screen to the display panel.

According to an embodiment, an LED backlight system includes an LED backlight including LED elements, a color sensor mounted on the LED backlight to detect the amount of light received from the LED elements, an LED driver connected to the LED backlight to drive the LED elements, and a color sensor. LED device light quantity control unit including a target adjusting means for determining the light receiving amount of the LED elements detected through the LED sensor to reduce the target arrival time of the color sensor by supplying a duty value corresponding to the light amount of the LED elements to be compensated to the LED driver It includes.

In addition, the LED backlight system according to the embodiment, the LED backlight including the LED elements, and the LED element light output means for outputting representatively the amount of light of the LED elements mounted on the LED backlight spaced apart from the LED backlight, LED element light output means The color sensor detects the received amount of LED elements from the LED, the LED driver connected to the LED backlight to drive the LED elements, and the received amount of LED elements detected through the color sensor to determine the light quantity of the LED elements to be compensated to the LED driver. And an LED element light quantity control unit including a target adjusting means for the color sensor for supplying a duty value to shorten the target arrival time of the color sensor.

The LED backlight system according to the embodiment can shorten the target arrival time of the color sensor, thereby quickly outputting the light quantity of the LED elements, and can equally compensate for the color purity of the LED elements.

In addition, the LED backlight system according to the embodiment has another effect of providing an accurate screen brightness or color purity to the display panel.

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

<First Embodiment>

1 is a block diagram showing an LED backlight system according to a first embodiment of the present invention, Figure 2 is a graph for showing that the target arrival time of the color sensor is shortened.

3A and 3B are diagrams illustrating a scanning area in which red, green, blue, and white LED elements of the LED backlight of FIG. 1 are scanned per frame.

1 and 2, the LED backlight system 100 according to the first embodiment of the present invention includes an LED backlight 102, a color sensor 103, an LED element light amount controller 105, and the like.

The LED backlight 102 includes LED elements 102a arranged at regular intervals, and the color sensor 103 is mounted to the LED backlight 102 to detect the amount of light received from the LED elements 102a.

In this case, the LED elements 102a may include at least one of red, green, blue, and white LED elements, and the color sensor 103 may include red, At least one of a red, green, blue, and white sensor may be included to detect the amount of light received by the green, blue, and white LED elements.

The LED element light amount control section 105 includes an LED driver 105a, a target adjusting means 105b for a color sensor, and the like.

Here, the LED driver 105a is provided to be connected to the LED backlight 102 to drive the LED elements 102a.

In this case, the LED driver 105a may be a red LED driver 105a ₁ , a green LED driver 105a ₂ , a blue LED driver 105a ₃ , a white LED driver 105a. ₄ ) may include at least one.

In addition, the target adjusting means 105b for the color sensor determines the light reception amount of the LED elements 102a detected through the color sensor 103 and corresponds to the amount of light of the LED elements 102a to be compensated to the LED driver 105a. It can be provided to supply a duty value to shorten the target arrival time of the color sensor 103.

In more detail, the target adjusting means 105b for the color sensor may include a red sensor target adjusting means 105b ₁ , a green sensor target adjusting means 105b ₂ , and a blue sensor target adjusting means 105b. ₃ ), white sensor target adjusting means 105b ₄ may include at least one.

In this case, the target adjusting means 105b for the color sensor may adjust the amount of light of the LED elements 102a by using the following first regression equation matrix operation.

Here, the target adjusting means 105b for the color sensor is, for convenience of description, a red sensor target adjusting means 105b ₁ , a green sensor target adjusting means 105b ₂ , and a blue sensor target adjusting means. It will be described as consisting of (105b ₃ ).

However, the present invention is not limited thereto, but the target adjusting means 105b for the color sensor may include a red sensor target adjusting means 105b ₁ , a green sensor target adjusting means 105b ₂ , and a blue color. (Blue) Sensor target adjusting means (105b ₃ ), white (White) sensor target adjusting means (105b ₄ ) may be configured.

<First regression equation matrix>

Where X _target , Y _target and Z _target are the target coordinate values,

R _X, R _Y , and R _Z are the received light levels of the red LED sensor,

G _X , G _Y , G _Z are the received light levels of the green LED sensor,

B _X , B _Y , and B _Z are the received light levels of the blue LED sensor,

R _duty , G _duty , and B _duty are the respective duty values for the red, green, and blue LEDs.

That is, the target adjusting means 105b for the color sensor includes a light receiving amount of a red LED sensor corresponding to R _{X ,} R _Y , and R _Z of the LED elements 102a detected through the color sensor 103 and G. _X , G _Y , G _Z Determine and store the received light amount of the green LED sensor corresponding to the green LED sensor and the received light amount of the blue LED sensor corresponding to B _X , B _Y , and B _Z , and turn off the LED elements 102a. R, G, and B duty values (R _duty , G _duty , B _duty ) by XYZ target coordinate values (X _target , Y _target , Z _target ) can be shortened after reaching the color coordinate (XYZ) target. By estimating and supplying to the LED driver 105a, the amount of light of the LED elements 102a can be adjusted.

In addition, the target adjusting means 105b for the color sensor determines the light receiving amount of the LED elements 102a detected through the color sensor 103 and determines the color purity values of the LED elements 102a continuously changing according to the light receiving amount. The same color purity value can be compensated for.

That is, the target adjusting means 105b for the color sensor can equally compensate for the color purity of the LED elements 102a by using the second regression equation matrix operation described below.

<Second regression equation matrix>

Where X _target , Y _target and Z _target are the target coordinate values,

R _X , R _Y , R _Z is the amount of light received by the red LED sensor,

G _X , G _Y , G _Z are the received light levels of the green LED sensor,

B _X , B _Y , and B _Z are the received light levels of the blue LED sensor,

R _SensorTarget , G _SensorTarget , and B _SensorTarget are the color purity values for Red, Green, and Blue LEDs, respectively.

That is, the target adjusting means 105b for the color sensor includes a light receiving amount of a red LED sensor corresponding to R _{X ,} R _Y , and R _Z of the LED elements 102a detected through the color sensor 103 and G. _X , G _Y , G _Z The received light amount of the green LED sensor corresponding to the green LED sensor and the received light amount of the blue LED sensor corresponding to B _X , B _Y , and B _Z are determined and stored.

In this case, as illustrated in FIG. 3A, the target adjusting means 105b for the color sensor may include a first scanning area corresponding to the red LED elements R1, R2, R3, R4... Which are provided in the LED backlight 102. Can be scanned frame by frame, and the second scanning area corresponding to the green LED elements G1, G2, G3, G4 ... can be scanned frame by frame, and the blue LED elements B1, B2, The third scanning area corresponding to B3, B4 ...) can be scanned for each frame.

Meanwhile, the fourth scanning area corresponding to the white LED elements W1, W2, W3, W4... May be scanned for each frame.

In addition, as illustrated in FIG. 3B, the target adjusting means 105b for the color sensor may include red, green, and blue LED elements R1, G1, and B1 provided in the LED backlight 102. The first scanning area corresponding to each frame may be scanned for each frame, and the second scanning area corresponding to the red, green, and blue LED elements R2, G2, and B2 may be scanned for each frame. The third scanning area corresponding to the red, green, and blue LED elements R3, G3, and B3 can be scanned for each frame, and the red and green colors can be scanned. In addition, the fourth scanning area corresponding to the blue LED elements R4, G4, and B4 may be scanned for each frame.

Meanwhile, the target adjusting means 105b for the color sensor corresponds to red, green, blue, and white LED elements R1, G1, B1, and W1 provided in the LED backlight 102. The first scanning area can be scanned for each frame, and the second scanning area corresponding to the red, green, blue, and white LED elements R2, G2, B2, and W2 is scanned for each frame. The third scanning area corresponding to the red, green, blue, and white LED elements R3, G3, B3, and W3 can be scanned for each frame, and the red color can be scanned. The fourth scanning area corresponding to the green, blue, and white LED elements R4, G4, B4, and W4 may be scanned for each frame.

Thereafter, after the LED elements 102a are turned off, the R by the XYZ target coordinate values (X _target , Y _target , Z _target ) that can equally compensate for the color purity of the LED elements 102a, By estimating G and B color purity values R _SensorTarget , G _SensorTarget , and B _SensorTarget and supplying them to the LED driver 105a, the color purity of the LED elements 102a can be equally compensated.

As such, the LED backlight system 100 according to the first embodiment of the present invention includes the LED element light amount control unit 105.

Therefore, the LED backlight system 100 according to the first embodiment of the present invention can shorten the target arrival time of the color sensor 103 as shown in FIG. 2, thereby quickly outputting the light amounts of the LED elements 102a. The color purity of the LED elements 102a can be equally compensated.

&Lt; Embodiment 2 >

4 is a block diagram showing an LED backlight system according to a second embodiment of the present invention.

Referring to FIG. 4, the LED backlight system 200 according to the second embodiment of the present invention includes the LED backlight 102 and the like as the LED backlight system 100 according to the first embodiment.

Such a function of each component corresponding to the LED backlight system 200 according to the second embodiment of the present invention and an organic relationship therebetween correspond to the LED backlight system 100 according to the first embodiment. Since the functions of the respective elements and the organic relationship therebetween are the same, respective descriptions thereof will be omitted below.

However, the LED backlight system 200 according to the second embodiment of the present invention includes an LED element light amount control unit 205 provided to be spaced apart from the LED backlight 102.

More specifically, the LED element light amount control unit 205 includes a color sensor 205c, an LED driver 105a, a target adjusting means 105b for the color sensor, an LED element light amount output means 205d, and the like.

The LED element light quantity output means 205d is provided so as to represent the amount of light of the LED elements 102a mounted on the LED backlight 102 spaced apart from the LED backlight 102.

In this case, the LED element light quantity output means 205d may include at least one of red, green, blue, and white LED elements.

The color sensor 205c is provided to detect the light reception amount of the LED elements 102a from the LED element light quantity output means 205d, and the LED driver 105a is connected to the LED backlight 102 to drive the LED elements 102a. Is provided.

The target adjusting means 105b for the color sensor determines a light receiving amount of the LED elements 102a detected through the color sensor 205c and a duty corresponding to the amount of light of the LED elements 102a to be compensated to the LED driver 105a. A value is provided to shorten the target arrival time of the color sensor 205c.

As such, the LED backlight system 200 according to the second embodiment of the present invention includes the LED element light amount control unit 205.

Accordingly, in the LED backlight system 200 according to the second embodiment of the present invention, unlike the LED backlight system 100 according to the first embodiment, the color sensor 205c is not mounted on the LED backlight 102.

Accordingly, in the LED backlight system 200 according to the second embodiment of the present invention, the internal driving heat generated inside the LED backlight 102 does not affect the color sensor 205c so that the sensing of the color sensor 205c is possible. Since the ratio can be increased, the target arrival time of the color sensor 205c can be further shortened, so that the light quantity of the LED elements 102a can be output quickly, and the color purity of the LED elements 102a can be compensated equally. Will be.

<3rd and 4th Example>

5 is a block diagram showing an LED backlight system according to a third embodiment of the present invention, Figure 6 is a block diagram showing an LED backlight system according to a fourth embodiment of the present invention.

5 and 6, the LED backlight systems 300 and 400 according to the third and fourth embodiments of the present invention are the same as the LED backlight systems 100 and 200 according to the first and second embodiments. 102, color sensor 103, LED element light quantity control unit 105, 205, and the like.

As such, the functions of the respective components corresponding to the LED backlight systems 300 and 400 according to the third and fourth embodiments of the present invention and the organic relationship therebetween are described as the LED backlight systems according to the first and second embodiments. Since the functions of the respective elements corresponding to (100, 200) and the organic relationship therebetween are the same, detailed descriptions thereof will be omitted below.

However, in the LED backlight systems 300 and 400 according to the third and fourth exemplary embodiments of the present invention, when the ambient temperature is higher or lower than the reference temperature, the LED elements 102a already set in the LED driver 105a may be used. LED element light amount control unit 305, 405 including LED temperature compensation means (305d, 405d) to supply a duty value or color purity value corresponding to the amount of light.

At this time, the LED temperature compensation means (305d, 405d) may include an algorithm using a lookup table (lookup table).

Accordingly, in the LED backlight systems 300 and 400 according to the third and fourth exemplary embodiments, the amount of light of the LED elements 102a already set in the LED driver 105a even when the ambient temperature is higher or lower than the reference temperature. The duty value or the color purity value corresponding to the present invention can be provided to provide the display panel with the correct brightness or color purity.

Meanwhile, the LED backlight systems 100, 200, 300, and 400 according to the first, second, third, and fourth embodiments described above may be manufactured in at least one of a direct type or an edge type.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description above, and the meaning and scope of the claims are as follows. And all changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a block diagram showing an LED backlight system according to a first embodiment of the present invention.

2 is a graph showing that the target arrival time of the color sensor is shortened.

3A and 3B are diagrams illustrating a scanning area in which red, green, and blue LED elements of the LED backlight of FIG. 1 are scanned per frame.

4 is a block diagram showing an LED backlight system according to a second embodiment of the present invention.

5 is a configuration diagram showing an LED backlight system according to a third embodiment of the present invention.

6 is a block diagram illustrating an LED backlight system according to a fourth embodiment of the present invention.

Description of the main parts of the drawing

100, 200, 300, 400: LED backlight system

102 LED backlight 102a LED elements

103, 205c: color sensor

105, 205, 305, 405: LED element light amount control unit

105a: LED driver 105a ₁ : Red LED driver

105a ₂ : Green LED Driver 105a ₃ : Green LED Driver

105a ₄ : White LED Driver

105b: target adjusting means for the color sensor

105b ₁ : Red sensor target adjusting means

105b ₂ : Green sensor target adjusting means

105b ₃ : Green sensor target adjusting means

105b ₄ : White sensor target adjusting means

205d: LED element light output means 305d, 405d: LED temperature compensation means

Claims (13)

An LED backlight including LED elements; A color sensor mounted on the LED backlight and detecting a light reception amount from the LED elements; And An LED driver connected to the LED backlight to drive the LED elements, a light receiving amount of the LED elements detected through the color sensor, and a duty value corresponding to the light amount of the LED elements to be compensated for the LED driver; An LED element light quantity control unit including a target adjusting means for the color sensor to shorten the target arrival time of the color sensor; LED backlight system comprising a. LED backlight including LED elements; And LED element light quantity output means for representing the light quantity of the LED elements mounted on the LED backlight spaced apart from the LED backlight, a color sensor for detecting the light receiving amount of the LED elements from the LED element light quantity output means, and the LED An LED driver connected to a backlight to drive the LED elements, a light receiving amount of the LED elements detected through the color sensor, and a duty value corresponding to the light amount of the LED elements to be compensated for the LED driver An LED element light quantity control unit including target adjustment means for a color sensor for shortening a target arrival time of the target; LED backlight system comprising a. The method according to claim 1 or 2, The LED element light amount control unit, And an LED temperature compensation means for supplying a duty value corresponding to the amount of light of the LED elements already set in the LED driver when the ambient temperature is higher or lower than the reference temperature. The method of claim 3, wherein And said LED temperature compensating means comprises an algorithm using a lookup table. The method according to claim 1 or 2, The duty value of the target adjusting means for the color sensor is LED backlight system that satisfies the following first regression equation.

In this case, Xtarget, Ytarget, and Ztarget are target coordinate values, RX, RY, RZ is the light reception amount of Red LED sensor, GX, GY, GZ is the light reception amount of Green LED sensor, BX, BY, and BZ are the received light levels of the blue LED sensor, Rduty, Gduty, and Bduty are the respective Duty values for the Red, Green, and Blue LEDs. The method of claim 5, The target adjusting means for the color sensor adjusts the amount of light of the LED elements by estimating the R, G, and B duty values based on the XYZ target values corresponding to the LED elements using the matrix operation of the first regression equation. LED backlight system. The method of claim 5, The target adjusting means for the color sensor determines the light receiving amount of the LED elements detected through the color sensor, and determines the color purity value of the LED elements continuously changing according to the light receiving amount, and compensates with the same color purity value. And the color purity value satisfies the following second regression equation.

Where X _target , Y _target and Z _target are the target coordinate values, R _X , R _Y , R _Z is the amount of light received by the red LED sensor, G _X , G _Y , G _Z are the received light levels of the green LED sensor, B _X , B _Y , and B _Z are the received light levels of the blue LED sensor, R _SensorTarget , G _SensorTarget , and B _SensorTarget are the color purity values for Red, Green, and Blue LEDs, respectively. The method of claim 7, wherein The target adjusting means for the color sensor uses the matrix operation of the second regression equation to estimate R, G, and B color purity values according to XYZ target values corresponding to the LED elements, thereby making the color purity of the LED elements the same. LED backlight system to compensate. The method according to claim 1 or 2, The target adjusting means for the color sensor includes an LED including at least one of a red sensor target adjusting means, a green sensor target adjusting means, a blue sensor target adjusting means, and a white sensor target adjusting means. Backlight system. The method according to claim 1 or 2, And the LED elements include at least one of red, green, blue, and white LED elements. The method according to claim 1 or 2, The LED driver may include at least one of a red LED driver, a green LED driver, a blue LED driver, and a white LED driver. 3. The method of claim 2, The LED device light quantity output means comprises at least one of Red, Green, Blue, White LED elements LED backlight system. The method according to claim 1 or 2, The LED backlight system includes at least one of a direct type or an edge type.

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