CN1932616A - Backlight source control device and method based on white light-emitting diode in liquid crystal display screen - Google Patents

Abstract

This invention relates to white LBD back illuminant's control device and the method of one kind of liquid crystal display device. The back illuminant module and the liquid crystal panel can be divided into the block array. On the back illuminant module's array block there sets the white LBD. The liquid crystal driving signal accordingly passes through the image comparing switch module, the back illuminant module storage allocation and the back illuminant driver element and is sent to the back illuminant module. The liquid crystal driving signal accordingly passes through the image comparing switch module, the non-module storage allocation and the liquid crystal driver element and is sent to the liquid crystal panel module. The method include the storage of display signal, separately taking out the max of white color brightness and store it for the storage array module, having a switch and storing the all colors liquid crystal drive value for the every dot in the module, having the back illuminant display according to white color brightness and having the liquid crystal display. Adopting this device and method improves the frame's contrast and saturation; it saves energy and protects the environment. The capability is stable and credible, it has wide use range.

Description

In the LCDs based on white light-emitting diode backlight source control device and method

Technical field

The present invention relates to technical field of liquid crystal display, particularly dynamic control technology field, backlight of LCD zone specifically is meant in a kind of LCDs based on white light-emitting diode backlight source control device and method.

Background technology

In the modern society, people are more and more higher to the pursuit of quality of life, are exactly the life of inspirit culture and wherein people pay close attention to the most, particularly various TV recreational activities.Along with progress of science and technology, the television display equipment of various giant-screens has entered huge numbers of families, and various advanced persons' display technique emerges in an endless stream, and at present, in the prior art, what the most worth people paid close attention to is exactly the development of lcd technology.

As everyone knows, the prior liquid crystal display curtain, its contrast is not high, and backlight also is difficult to realize the dynamic control in the zone that changes with brightness of image, so just can't reach the ideal effect that perfectly represents image quality, even also can make whole image quality reduce, can't reach desirable contrast, brightness and saturation degree, influence people and viewed and admired normally, brought very big inconvenience with regard to the life of giving people like this.

Summary of the invention

The objective of the invention is in order to overcome above-mentioned shortcoming of the prior art, a kind of display quality that can better improve LCD Panel is provided, reduce image quality distortion, energy-conserving and environment-protective, stable and reliable working performance, the scope of application comparatively widely in the LCDs based on white light-emitting diode backlight source control device and method.

In order to realize above-mentioned purpose, as follows in the LCDs of the present invention based on white light-emitting diode backlight source control device and method:

In this LCDs based on the backlight source control device of white light-emitting diode, comprise liquid crystal panel module, corresponding backlight module and liquid crystal drive unit, its principal feature is, described backlight module and liquid crystal panel module basis corresponding relation up and down are divided into block array by linescan method, and be provided with white light-emitting diode in each array block of backlight module, also include relatively conversion module of image block in the described device, backlight storage unit, non-storage unit, backlight driving unit, liquid crystal driving signal is determined by image successively and is compared conversion module, backlight storage unit and backlight driving unit are delivered to the white light-emitting diode in each array block of backlight module, and described liquid crystal driving signal is also successively by image block conversion module relatively, each array of liquid crystal panel module is delivered in non-storage unit and liquid crystal drive unit.

Image block comparison conversion module based on the backlight source control device of white light-emitting diode in this LCDs comprises the image block storage unit, compare value unit and liquid crystal drive value transform unit, described liquid crystal driving signal is connected in the input end of described image block storage unit, and the output terminal of this image block storage unit is connected to the input end of described relatively value unit and liquid crystal drive value transform unit, the described relatively output terminal of value unit is connected to the input end of liquid crystal drive value transform unit and backlight storage unit, and the output terminal of described liquid crystal drive value transform unit is connected in the input end of non-storage unit.

Backlight based on the white light-emitting diode of the backlight source control device of white light-emitting diode in this LCDs is a direct-light-type backlight.

This uses above-mentioned device to realize in the LCDs that based on the backlight region kinetic controlling equation method of white light-emitting diode, its principal feature is that described method may further comprise the steps:

(1) system is divided into array block with a frame liquid crystal driving signal or image brightness signal by linescan method and is stored in image block relatively in the conversion module;

(2) in each array block of storage, compare value successively, take out the brightness maximal value of white light in the every zone respectively;

(3) the brightness maximal value with this white light deposits in the backlight storage unit;

(4) according to the brightness maximal value of this white light the liquid crystal drive value of all kinds on every in this piece is carried out conversion, and transformation results is deposited in the non-storage unit;

(5) system shows this frame signal on LCDs, carries out demonstration backlight according to the brightness maximal value of the pairing white light of storing in the backlight storage unit of each array block;

(6) system carries out liquid crystal display according to the above-mentioned liquid crystal drive value of storing in the non-storage unit.

In the backlight region kinetic controlling equation method based on white light-emitting diode in this LCDs, the liquid crystal drive value of all kinds on every in the array block is transformed to demonstration liquid crystal drive value of all kinds on calculating at every according to following relation according to the brightness maximal value of white light:

Brightness maximal value * brightness value rank the mxm. that shows liquid crystal drive value=original brightness value/place piece white light.

In the backlight region kinetic controlling equation method based on white light-emitting diode in this LCDs, carry out demonstration backlight and may further comprise the steps:

(1) system is converted into the brightness maximal value of the pairing white light of each array block the electric current of respective intensities through backlight driving unit;

(2) system lights the white light-emitting diode of each array block of backlight module respectively according to this electric current.

In this LCDs based on the backlight region kinetic controlling equation method of white light-emitting diode, in carry out liquid crystal display and be:

The demonstration liquid crystal drive value of system after with conversion demonstrates the color of respective point through the liquid crystal drive unit on liquid crystal panel module.

Adopted in the LCDs of this invention based on white light-emitting diode backlight source control device and method, because backlight adopts the straight-down negative white light-emitting diode by array control in liquid crystal panel module, backlight module becomes piece according to corresponding relation about it by array partition with liquid crystal panel module simultaneously, thereby make that backlight module can be basic flat light emission with piece, and it is luminous with the instant maximum luminousing brightness of white light in the piece, and every pairing final liquid crystal drive value in the piece, be that to put original liquid crystal drive value with this be foundation, with the bright lamp current value of the white light-emitting diode of this place piece is transformation factor, the two is divided by and is the new liquid crystal drive value of this point, so just can better improve the display quality of LCD Panel, effectively improve picture contrast and saturation degree, make this LCD screen can under any circumstance all keep best vision to represent effect; Simultaneously, device of the present invention can effectively be saved the energy, environmental protection, and stable and reliable working performance, the scope of application is comparatively extensive, can be applicable in the various LCDs, comprise televisor, computer screen, mobile device display screen etc., for further developing of high-quality lcd technology established solid foundation.

Description of drawings

Fig. 1 is based on the liquid crystal panel piecemeal synoptic diagram of white light-emitting diode backlight source control device in the LCDs of the present invention.

Fig. 2 is based on the backlight piecemeal synoptic diagram of white light-emitting diode backlight source control device in the LCDs of the present invention.

Fig. 3 is based on the functional module principle schematic of white light-emitting diode backlight source control device in the LCDs of the present invention.

Embodiment

In order more to be expressly understood technology contents of the present invention, describe in detail especially exemplified by following examples.

See also Fig. 1 to shown in Figure 3, in this LCDs based on the backlight source control device of white light-emitting diode, the backlight module 2, the liquid crystal drive unit 4 that comprise liquid crystal panel module 1, correspondence, wherein, described backlight module 2 and liquid crystal panel module 1 basis corresponding relation up and down are divided into block array by linescan method, and be provided with white light-emitting diode 21 in each array block of backlight module 2, wherein the backlight of this white light-emitting diode is a direct-light-type backlight; Also include relatively conversion module of image block in the described device, backlight storage unit 5, non-storage unit 6, backlight driving unit 7, wherein, this image block comparison conversion module comprises image block storage unit 8, compare value unit 9 and liquid crystal drive value transform unit 10, described liquid crystal driving signal 3 is connected in the input end of described image block storage unit 8, and the output terminal of this image block storage unit 8 is connected to the input end of described relatively value unit 9 and liquid crystal drive value transform unit 10, the described relatively output terminal of value unit 9 is connected to the input end of liquid crystal drive value transform unit 10 and backlight storage unit 5, and the output terminal of described liquid crystal drive value transform unit 10 is connected in the input end of non-storage unit 6.

Described liquid crystal driving signal 3 is successively by image block storage unit 8, relatively value unit 9, backlight storage unit 5, backlight driving unit 7 are delivered to the white light-emitting diode 21 in each array block of backlight module 2, and described liquid crystal driving signal 3 is also delivered to each array block of liquid crystal panel module 1 successively by image block storage unit 8, liquid crystal drive value transform unit 10, non-storage unit 6, liquid crystal drive unit 4.

This uses above-mentioned device to realize in the LCDs may further comprise the steps based on the backlight region kinetic controlling equation method of white light-emitting diode:

(1) system is divided into array block with a frame liquid crystal driving signal or image brightness signal by linescan method and is stored in image block relatively in the conversion module;

(2) in each array block of storage, compare value successively, take out the brightness maximal value of white light in the every zone respectively;

(3) the brightness maximal value with this white light deposits in the backlight storage unit 5;

(4) according to the brightness maximal value of this white light the liquid crystal drive value of all kinds on every in this piece is carried out conversion, and transformation results is deposited in the non-storage unit 6, the demonstration liquid crystal drive value of all kinds on this is transformed to and calculates at every according to following relation:

Brightness maximal value * brightness value rank the mxm. that shows liquid crystal drive value=original brightness value/place piece white light;

(5) system shows this frame signal on LCDs, carries out demonstration backlight according to the brightness maximal value of the pairing white light of each array block of storage in the backlight storage unit 5, and this demonstration backlight may further comprise the steps:

(a) system is converted into the brightness maximal value of the pairing white light of each array block the electric current of respective intensities through backlight driving unit 7;

(b) system lights the white light-emitting diode 21 of each array block of backlight module 2 respectively according to this electric current;

(6) system carries out liquid crystal display according to the above-mentioned liquid crystal drive value of storing in the non-storage unit, and this liquid crystal display is: the demonstration liquid crystal drive value of system after with conversion demonstrates the color of respective point through liquid crystal drive unit 4 on liquid crystal panel module 1.

In the middle of reality was used, in Fig. 1, row was divided into 1～9 totally 9 row, and row are divided into A～P totally 16 row, and certainly, the present invention has more than and is confined to 16: 9 liquid crystal display, also was not confined to be divided into the array partition of the piece of 9 row, 16 row.See also shown in Figure 2ly again, at first liquid crystal panel module 1 and backlight module 2 are become piece by array partition, in the present embodiment, totally 9 row and A～P totally 16 are listed as totally 144 to have divided 1～9.

Its principle of work is as follows:

● at first that a frame is traditional liquid crystal driving signal or image brightness signal become piece and storage by array partition;

● compare value again in piece successively, the brightness maximal value of taking out white light in the every zone respectively deposits backlight storage unit 5 in;

● with the transformation factor of this value, go to remove the liquid crystal drive value that R, G, B show on every in this piece respectively and deposit in the non-storage unit 6 as liquid crystal drive value of all kinds in this piece;

● when showing this frame, the brightness maximal value of every middle white light of backlight storage unit 5 outputs is converted into the white light-emitting diode 21 that in proportion electric current removes to light respectively each piece through backlight driving unit 7;

● the non-liquid crystal drive value that storage unit 6 is exported through conversion, the 4 final colors that on liquid crystal panel module 1, demonstrate respective point through the liquid crystal drive unit.

For instance, suppose that the A1 piece among Fig. 1 only has 4 demonstrations, and the brightness value of these R, G, B all is respectively at 4 again:

100/255 bottom right 150/255, upper left 0/255 upper right 50/255 lower-left

The current value of then lighting this piece white light-emitting diodes just should be 150/255 standard pipe electric current; And the liquid crystal drive value of R, G, B after the conversion should respectively be:

170/255 bottom right 255/255, upper left 0/255 upper right 85/255 lower-left

Certainly, the explanation precision of the luminosity of light emitting diode and liquid crystal drive is not confined to 256 grades herein, can adopt other progression as required yet.

R, G, B with point can be with value; Also can different value.With regard to this piece, obviously adopt method of the present invention, can economize on electricity 40%, and better display effect is arranged.

Simultaneously, the liquid crystal drive in the said apparatus is by digital control, and the explanation precision can reach 2 ⁿAnd for relatively value unit and liquid crystal drive value transform unit, in the process of specific implementation, adopting hardware mode can be respectively to be realized by IC chip independently; Also it can be embedded in the display master chip with correlation function and realize; Adopt software mode then can realize with traditional software program method; Also can realize with the method for FPGA programming; Can also realize in the mode of ASIC such as OTP or MASK.

Adopted in the above-mentioned LCDs based on white light-emitting diode backlight source control device and method, because the straight-down negative white light-emitting diode 21 that backlight module 2 adopts by array control in liquid crystal panel module 1, backlight module 2 becomes piece according to corresponding relation about it by array partition with liquid crystal panel module 1 simultaneously, thereby make that backlight module 2 can be basic flat light emission with piece, and it is luminous with the instant maximum luminousing brightness of white light in the piece, and every pairing final liquid crystal drive value in the piece, be that to put original liquid crystal drive value with this be foundation, white light-emitting diode 21 bright lamp current value with this place piece are transformation factor, the two is divided by and is the new liquid crystal drive value of this point, so just can better improve the display quality of LCD Panel, effectively improve picture contrast and saturation degree, make this LCD screen can under any circumstance all keep best vision to represent effect; Simultaneously, device of the present invention can effectively be saved the energy, environmental protection, and stable and reliable working performance, the scope of application is comparatively extensive, can be applicable in the various LCDs, comprise televisor, computer screen, mobile device display screen etc., for further developing of high-quality lcd technology established solid foundation.

In this instructions, the present invention is described with reference to its certain embodiments.But, still can make various modifications and conversion obviously and not deviate from the spirit and scope of the present invention.Therefore, instructions and accompanying drawing are regarded in an illustrative, rather than a restrictive.

Claims (7)

1, in a kind of LCDs based on the backlight source control device of white light-emitting diode, comprise liquid crystal panel module, corresponding backlight module and liquid crystal drive unit, it is characterized in that, described backlight module and liquid crystal panel module basis corresponding relation up and down are divided into block array by linescan method, and be provided with white light-emitting diode in each array block of backlight module, also include relatively conversion module of image block in the described device, backlight storage unit, non-storage unit, backlight driving unit, liquid crystal driving signal compares conversion module by image block successively, backlight storage unit and backlight driving unit are delivered to the white light-emitting diode in each array block of backlight module, and described liquid crystal driving signal is also successively by image block conversion module relatively, each array block of liquid crystal panel module is delivered in non-storage unit and liquid crystal drive unit.

2, in the LCDs according to claim 1 based on the backlight source control device of white light-emitting diode, it is characterized in that, described image block comparison conversion module comprises the image block storage unit, compare value unit and liquid crystal drive value transform unit, described liquid crystal driving signal is connected in the input end of described image block storage unit, and the output terminal of this image block storage unit is connected to the input end of described relatively value unit and liquid crystal drive value transform unit, the described relatively output terminal of value unit is connected to the input end of liquid crystal drive value transform unit and backlight storage unit, and the output terminal of described liquid crystal drive value transform unit is connected in the input end of non-storage unit.

3, in the LCDs according to claim 1 and 2 based on the backlight source control device of white light-emitting diode, it is characterized in that the backlight of described white light-emitting diode is a direct-light-type backlight.

4, a kind of described device of claim 1 that uses is realized in the LCDs it is characterized in that based on the backlight region kinetic controlling equation method of white light-emitting diode described method may further comprise the steps:

(1) system is divided into array block with a frame liquid crystal driving signal or image brightness signal by linescan method and is stored in image block relatively in the conversion module;

(2) in each array block of storage, compare value successively, take out the brightness maximal value of white light in the every zone respectively;

(3) the brightness maximal value with this white light deposits in the backlight storage unit;

(4) according to the brightness maximal value of this white light the liquid crystal drive value of all kinds on every in this piece is carried out conversion, and transformation results is deposited in the non-storage unit;

(5) system shows this frame signal on LCDs, carries out demonstration backlight according to the brightness maximal value of the pairing white light of storing in the backlight storage unit of each array block;

(6) system carries out liquid crystal display according to the above-mentioned liquid crystal drive value of storing in the non-storage unit.

5, in the LCDs according to claim 4 based on the backlight region kinetic controlling equation method of white light-emitting diode, it is characterized in that described brightness maximal value according to white light is transformed to demonstration liquid crystal drive value of all kinds on calculating at every according to following relation to the liquid crystal drive value of all kinds on every in the array block:

Brightness maximal value * brightness value rank the mxm. that shows liquid crystal drive value=original brightness value/place piece white light.

6, according in claim 4 or the 5 described LCDs based on the backlight region kinetic controlling equation method of white light-emitting diode, it is characterized in that, describedly carry out demonstration backlight and may further comprise the steps:

(1) system is converted into the brightness maximal value of the pairing white light of each array block the electric current of respective intensities through backlight driving unit;

(2) system lights the white light-emitting diode of each array block of backlight module respectively according to this electric current.

7, according in claim 4 or the 5 described LCDs based on the backlight region kinetic controlling equation method of white light-emitting diode, it is characterized in that, describedly carry out liquid crystal display and be:

The demonstration liquid crystal drive value of system after with conversion demonstrates the color of respective point through the liquid crystal drive unit on liquid crystal panel module.

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