CN101930711A - Double-picture display device and display method thereof - Google Patents

Abstract

The invention relates to a double-picture display device and a display method thereof. The double-picture display device comprises a backlight module, an optical thin film, a liquid crystal display (LCD) panel and a main control unit, wherein, the backlight module comprises a light guide plate, a left-side light source arranged on the left side of the light guide plate and a right-side light source arranged on the right side of the light guide plate; the optical thin film is arranged in the front of the backlight module; the LCD panel is arranged in the front of the optical thin film; the main control unit is electrically coupled with the left-side light source, the right-side light source and the LCD panel; and the main control unit transmits view data to the LCD panel and controls the left-side light source and the right-side light source according to the view data, so the LCD panel can adaptively display one same view and one of a unilateral view and two unilateral views.

Description

Double-image display device and display packing thereof

Technical field

The present invention system is about a kind of display device, particularly about a kind of double-image display device.

Background technology

In the ordinary course of things, liquid crystal indicator only need provide a picture to satisfy the demands, yet science and technology is showing improvement or progress day by day now, liquid crystal indicator is necessary to provide multi-screen to satisfy the demands in some cases, for example be widely used in the liquid crystal indicator of mobile unit at present, can show GPS (global positioning system on the one hand, GPS) information frame is watched for the driver, and other multimedia interface design that passenger's amusement is used can be provided on the other hand, and can allow driver and other passenger watch the principal element of different pictures to be the angle of these both relative liquid crystal indicators.

Seeing also Fig. 1, is the synoptic diagram that shows known double-image display device, its by the beholder with respect to the different visual angle of double-image display device 1 to reach the purpose of watching different pictures.Double-image display device 1 mainly comprises a backlight module 10, a display panels 12 and a barrier (barrier) substrate 14.Backlight module 10 is in order to provide display panels 12 required light.Have clear zone 140 and dark space 142 on the barrier substrate 14.Behind light process display panels 12, part light can see through special angle 140 ejaculations from the clear zone, and partly light can be allowed the beholder of different angles watch different images by dark space 142 barriers whereby.

In addition, the image data that inputs to display panels 12 also must be through handling, need anticipate for left side beholder 70 image of watching and the image of watching for right side beholder 80 is a fusion image, and display panels 12 shows image of watching for left side beholder 70 and the image of watching for right side beholder 80 alternately then.Then arrange in pairs or groups clear zone 140 and dark space 142 on the barrier substrate 14 make left side beholder 70 can only see the left side image, and right side beholder 80 can only see the right side image.

Yet known double-image display device 1 shown in Figure 1 exists following point: first, owing to must barrier substrate 14 be set in display panels 12 the place aheads, can cause the decline of transmittance and then influence the quality of image, and barrier substrate 14 is set also can increases power consumption.The second, because only accounting for, left side image and right side image merge half picture element of image, therefore the image seen of left side beholder 70 and right side beholder 80 has only a half-resolution.The 3rd, be a fusion image because left side image and right side image need be anticipated, so system end also needs comparatively complicated design.

Therefore need the problem of above-mentioned double-image display device 1 be proposed a solution.

Summary of the invention

A purpose of the present invention is to provide a kind of double-image display device and display packing thereof, and it can improve known use and cover the problem that substrate causes transmittance decline, resolution reduces by half and increase power consumption.

According to double-image display device of the present invention, comprise a backlight module, an optical thin film, a display panels and a main control unit.This backlight module comprises that a light guide plate, a left side light source are arranged at the left side of this light guide plate and the right side that a right side light source is arranged at this light guide plate.This optical thin film is arranged at the place ahead of this backlight module, uses so that the light after this light guide plate of process reflects toward a left side beholder, and the past right side beholder of light after this light guide plate of process is reflected.This display panels is arranged at the place ahead of this optical thin film.This main control unit is electrically coupled to this left side light source, this right side light source and this display panels.This main control unit transmits an image data to this display panels, and control this left side light source and this right side light source according to this image data, make this display panels show following wherein one: one same image (one view) for this left side beholders and this right side beholder watches, an one-sided image (one side view) is watched for corresponding beholder and two one-sided images (dual view) supply this left side beholder and this right side beholder to watch respectively.

Display packing according to double-image display device of the present invention, this double-image display device comprises a backlight module, one optical thin film, one display panels and a main control unit, wherein this backlight module comprises a light guide plate, one left side light source is arranged at the left side of this light guide plate and the right side that a right side light source is arranged at this light guide plate, this optical thin film is arranged at the place ahead of this backlight module, this display panels is arranged at the place ahead of this optical thin film, this main control unit is electrically coupled to this left side light source, this right side light source and this display panels, this display packing comprises:

One image data inputs to this main control unit;

This main control unit transmits this image data to this display panels, and control this left side light source and this right side light source according to this image data, make this display panels show that following wherein one: one same image are for left side beholders and a right side beholder watches, an one-sided image is watched for corresponding beholder and two one-sided images are watched for this left side beholder and this right side beholder respectively.

Because need not to be provided with in display panels the place ahead, double-image display device of the present invention and display packing thereof cover substrate, so can not produce transmittance decline, resolution reduces by half and increase the problem of power consumption.Moreover main control unit can show wherein one of a same image, an one-sided image and two one-sided images adaptively according to input.

Description of drawings

Fig. 1 is the synoptic diagram that shows known double-image display device.

Fig. 2 is the double-image display device that shows one embodiment of the invention.

Fig. 3 is the control block schematic diagram of displayed map 2.

Fig. 4 shows that left side image data and right side image data all input to a Graphics Processing Unit, is inputed to the synoptic diagram of pair picture controllers again by Graphics Processing Unit sequence ground.

Fig. 5 is the signal waveform figure that the display graphics processing unit inputs to two picture controllers.

Fig. 6 shows that left side image data and right side image data input to Graphics Processing Unit after hybrid coding is a package, by Graphics Processing Unit this package is inputed to the synoptic diagram of two picture controllers again.

Fig. 7 shows when realizing two display frame with 120 hertz, the sequential control figure of picture scanning and light source.

Fig. 8 shows when only showing the right side picture, the sequential control figure of picture scanning and light source.

Fig. 9 shows that picture scans the sequential control figure with light source when only showing the left side picture.

Figure 10 is when showing with 120 hertz of demonstrations that realize same frame, the sequential control figure of picture scanning and light source.

Figure 11 is when showing with 60 hertz of demonstrations that realize same frame, the sequential control figure of picture scanning and light source.

Figure 12 is the display packing process flow diagram that shows double-image display device of the present invention.

Embodiment

Be elaborated with regard to specific embodiments of the invention hereinafter with reference to accompanying drawing.

Please consulting Fig. 2 and Fig. 3 simultaneously, is the synoptic diagram that shows double-image display device 2 according to an embodiment of the invention and control square thereof.The display device 2 of two pictures comprises a backlight module 20, an optical thin film 22, a display panels 24 and a main control unit 26.Backlight module 20 comprises that a light guide plate 200, a left side light source 202 are arranged at the left side of light guide plate 200 and the right side that a right side light source 204 is arranged at light guide plate 200.Optical thin film 22 is arranged at the place ahead of backlight module 20, uses so that the light after the process light guide plate 200 reflects toward a left side beholder 70, and the past right side beholder 80 of light after the process light guide plate 200 is reflected.Display panels 24 is arranged at the place ahead of optical thin film 22.Main control unit 26 is electrically coupled to left side light source 202, right side light source 204 and display panels 24.Main control unit 26 transmits an image data to display panels 24, and control left side light source 202 and right side light source 204 according to this image data, make display panels 24 show that following wherein one: one same frame are for left side beholder 70 and right side beholder 80 watches, an one-sided picture watches (as the left side image for left side beholder 70, or the right side image is watched for right side beholder 80) and two display frame to watch for left side beholder 70 and right side beholder 80 respectively for corresponding beholder.

Because display panels 24 to left side beholder 70, right side beholder's 80 distance is generally at least 50 centimeters, at least at interval 100 centimeters each other of left side beholder 70 and right side beholders 80, therefore as can be known by experiment, the ray refraction angle that refracts to left side beholder 70 through optical thin film 22 needs at least greater than 40 degree, the angle that is light and direction Y needs at least greater than 40 degree, and the ray refraction angle that refracts to right side beholder 80 through optical thin film 22 needs at least greater than 40 degree, and promptly the angle of light and direction Y needs at least greater than 40 degree.

Main control unit 26 comprises that a pair of picture controller 260, an internal memory 262 are electrically coupled to two picture controllers 260 and a light source drive 264 is electrically coupled to two picture controllers 260.The image data that main control unit 26 receives comprises a left side image data 40 and a right side image data 50.The present invention proposes the method for three kinds of input left side image datas 40 and right side image data 50.First kind as shown in Figure 3, left side image data 40 and right side image data 50 are taked the mode of parallel input, respectively via two Graphics Processing Unit (graphics processing unit, GPU) 90,92 input to two picture controllers 260, two picture controllers 260 deposit it to internal memory 262, a synchronous DRAM (Dynamic Random Access Memory) (synchronous dynamic random access memory for example, SDRAM), then two picture controllers 260 can read left side image data 40 and right side image data 50 in turn and export display panels 24 in order to.The Push And Release of light source 202 and right side light source 204 reached the purpose that presents two display frames on the left of light source drive 264 was controlled according to the output of two picture controllers 260.Furthermore, when two picture controllers 260 read left side image data 40 and when exporting display panels 24 to, can control light source drive 264 and left side light source 202 be opened and right side light source 204 is closed.When two picture controllers 260 read right side image data 50 and export display panels 24 to, can control light source drive 264 make right side light source 204 open and make the left side light source 202 close.

The method of second kind of input image data is please consulted Fig. 2 and Fig. 4 simultaneously, and left side image data 40 and right side image data 50 all input to a Graphics Processing Unit 94, inputs to pair picture controllers 260 by Graphics Processing Unit 94 sequences ground again.Please consulting Fig. 5 again, is the signal waveform figure that display graphics processing unit 94 inputs to two picture controllers 260.When data enable signal DE_1 was high levle, data signals DATA_1 comprised that left side image data 40 and right side image data 50 just are regarded as effectively.Because the left side image data 40 of this method and right side image data 50 all input to two picture controllers 260 by Graphics Processing Unit 94, therefore Graphics Processing Unit 94 need provide an indicating signal L/R_1 in addition, so that two picture controllers 260 decide data signals DATA_1 according to indicating signal L/R_1 is left side image data 40 or right side image data 50, as shown in Figure 5, for example when indicating signal L/R_1 was low level, representative data signal DATA_1 was a left side image data 40.When indicating signal L/R_1 was high levle, representative data signal DATA_1 was a right side image data 50.After two picture controllers 260 receive the left side image data 40 and right side image data 50 of sequence input, its subsequent processes is identical with above-mentioned first method, both deposit to internal memory 262 with this for promptly two picture controller 260, then two picture controllers 260 read left side image data 40 and right side image data 50 in turn and export display panels 24 in order to, the Push And Release of light source 202 and right side light source 204 reached the purpose that presents two display frames on the left of light source drive 264 was controlled according to the output of two picture controllers 260.When two picture controllers 260 read left side image data 40 and when exporting display panels 24 to, can control light source drive 264 and left side light source 202 be opened and right side light source 204 is closed.When two picture controllers 260 read right side image data 50 and export display panels 24 to, can control light source drive 264 make right side light source 204 open and make the left side light source 202 close.

The method of the third input image data is please consulted Fig. 2 and Fig. 6 simultaneously, Fig. 6 and Fig. 4 have identical hardware structure, both difference be among Fig. 4 left side image data 40 and right side image data 50 be sequence input to Graphics Processing Unit 94, and left side image data 40 and right side image data 50 are to input to earlier Graphics Processing Unit 94 after hybrid coding is a package 60 among Fig. 6, by Graphics Processing Unit 94 this package 60 are inputed to two picture controllers 260 again.Two picture controllers 260 receive and its decoding can be restored left side image data 40 and right side image data 50 behind these packages 60 and be stored in particular address district in the internal memory 262, be that a particular address district in the internal memory 262 is set and stores left side image data 40, another particular address district is set and stores right side image data 50.Then two picture controllers 260 read left side image data 40 and right side image data 50 in turn and export display panels 24 in order to, the Push And Release of light source 202 and right side light source 204 reached the purpose that presents two display frames on the left of light source drive 264 was controlled according to the output of two picture controllers 260.In addition, two picture controllers 260 can be compared to left side image data 40 and right side image data 50 in the process of decoding reduction and controlled the mode of demonstration.When comparison left side image data 40 and right side image data 50 were identical, display panels 24 can show that a same image watches for left side beholder 70 and right side beholder 80.When comparison had only left side image data 40 or right side image data 50, the mode that display panels 24 can adopt a side to show was watched for left side beholder 70 or right side beholder 80.

In summary, the present invention proposes the mode of three kinds of input left side image datas 40 and right side image data 50: parallel input (as shown in Figure 3), sequence input (as shown in Figure 4) and hybrid coding input (as shown in Figure 6).Show following wherein one by above-mentioned three kinds of mode adaptability ground: two display frames watch different display frame, one-sided display frame to watch (as the left side image for left side beholder 70, or the right side image is watched for right side beholder 80) and same frame to watch for left side beholder 70 and right side beholder 80 for corresponding beholder respectively for left side beholder 70 and right side beholder 80.

First kind for showing that two display frames watch different display frame respectively for left side beholder 70 and right side beholder 80, sees also Fig. 7, be show with 120 hertz (hertz, when Hz) realizing two display frame, the sequential control figure of picture scanning and light source.Picture been scanned of arrow system expression among the figure, L represents the left side picture, and R represents the right side picture, and LEDs-L and LEDs-R represent left side light source drive waveforms and right side light source drive waveforms respectively.If adopt the framework of Fig. 3, with 60 hertz of parallel input left side image datas 40 and right side image data 50, two picture controllers 260 export liquid crystal display drawing board 24 to 120 hertz to sequence to Graphics Processing Unit 90,92 more respectively.If adopt the framework of Fig. 4, Graphics Processing Unit 94 is with 120 hertz of sequence ground input left side image datas 40 and right side image data 50, and two picture controllers 260 export liquid crystal display drawing board 24 to 120 hertz to sequence again.As shown in Figure 7, open left side light source 202 again after scanning and finish the demonstration of left side picture L earlier, open right side light source 204 again after then scanning and finish the demonstration of right side picture R again.

Second kind for showing that one-sided display frame watches for left side beholder 70 or right side beholder, sees also Fig. 8 and Fig. 9, is when showing right side picture R respectively and only showing left side picture L, the sequential control figure of picture scanning and light source.As shown in Figure 8, when only showing that right side picture R watches for right side beholder 80, scanning and finish the demonstration of right side picture R after (all data that are right side picture R input to display panels 24 backs) open right side light source 204 again, after the demonstration that should scan and finish left side picture L between two right side picture R originally, also open left side light source 202, but owing to there is not left side picture L, so there is no picture between two right side picture R shows, promptly enter the so-called black time (black time) this moment, and left side light source drive waveforms LEDs-L is in low LJ position (promptly not opening left side light source 202) always.On the contrary, as shown in Figure 9, when only showing that left side picture L watches for left side beholder 70, light source 202 on the left of (promptly all data of left side picture L input to display panels 24 backs) opens again after the demonstration of picture L on the left of scanning and finishing, after the demonstration that should scan and finish right side picture R between two left side picture L originally and open right side light source 204, but owing to there is not right side picture R, show so between two left side picture L, there is no picture, and right side light source drive waveforms LEDs-R is in low LJ position (promptly not opening right side light source 204) always.

The third is watched for left side beholder 70 and right side beholder 80 for showing same frame, sees also Figure 10 and Figure 11, is when showing with 120 hertz and the 60 hertz demonstrations that realize same frame respectively, the sequential control figure of picture scanning and light source.Because the picture that supplies left side beholder 70 and right side beholder 80 to watch is identical, when coming display frame with 120 hertz, as shown in figure 10, be with same data scanning twice, and twice polarity is opposite, i.e. picture F1 (-) scanning picture F1 (+).When data was switched, promptly when picture F1 (+) became picture F2 (+), it was identical to keep polarity.The light source opening ways is opened left side light source 202 after for the demonstration that scans and finish picture F1 (-) earlier, open right side light source 204 again after then scanning and finish the demonstration of picture F1 (+) again, open left side light source 202 after scanning and finish the demonstration of picture F2 (+) then, open right side light source 204 again after scanning and finish the demonstration of picture F2 (-).Figure 11 shows that the sequential chart that comes display frame with 60 hertz, this method prolongs sweep time, makes its sweep frequency be reduced to 60 hertz, so the sufficient duration of charging is arranged.

Seeing also Figure 12, is the display packing process flow diagram that shows double-image display device of the present invention.This double-image display device comprises a backlight module, an optical thin film, a display panels and a main control unit, wherein backlight module comprises that a light guide plate, a left side light source are arranged at the left side of light guide plate and the right side that a right side light source is arranged at light guide plate, optical thin film is arranged at the place ahead of backlight module, this display panels is arranged at the place ahead of optical thin film, main control unit is electrically coupled to left side light source, right side light source and display panels, and this display packing comprises.

Among the step S1000, one image data inputs to main control unit, wherein image data comprises a left side image data and a right side image data, and left side image data and right side image data are to import abreast, import or import after hybrid coding is a package to sequence.

When the input of left side image data and right side image data sequence ground, be to be this left side image data or this right side image data according to what an indicating signal decided input.System imports after hybrid coding is a package when left side image data and right side image data, be stored in different address areas respectively after this package decoding is reduced to left side image data and right side image data, can tell left side image data and right side image data according to the address area that stores whereby.In addition, can further compare in the process with this package decoding reduction, and then judge that display frame is same image, one-sided image and two one-sided images left side image data and right side image data.

Among the step S1100, main control unit transmits image data to display panels, and control left side light source and right side light source according to image data, make display panels show that following wherein one: one same image are for a left side beholder and a right side beholder watches, an one-sided image watches (as the left side image for the left side beholder, or the right side image is watched for the right side beholder) and two one-sided images to watch for left side beholder and right side beholder respectively for the respective side beholder.

Double-image display device of the present invention and display packing thereof need not in display panels the place ahead the barrier substrate to be set, so can not produce that transmittance descends, resolution reduces by half and increase the problem of power consumption.Moreover main control unit is controlled the Push And Release of left side light source and right side light source according to image data, and then can show wherein one of a same image, an one-sided image and two one-sided images adaptively.

In sum; though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; the persond having ordinary knowledge in the technical field of the present invention; without departing from the spirit and scope of the present invention; when can being used for a variety of modifications and variations, so protection scope of the present invention is as the criterion when looking accompanying the claim person of defining.

Claims (10)

1. a double-image display device is characterized in that, this double-image display device comprises:

One backlight module, a light guide plate, a left side light source are arranged at the left side of this light guide plate and the right side that a right side light source is arranged at this light guide plate;

One optical thin film is arranged at the place ahead of this backlight module, uses so that past through the light after this light guide plate

One left side beholder refraction, and make through the light after this light guide plate toward right side beholder refraction;

One display panels is arranged at the place ahead of this optical thin film; And

One main control unit is electrically coupled to this left side light source, this right side light source and this display panels, wherein this main control unit transmits an image data to this display panels, and control this left side light source and this right side light source according to this image data, make this display panels show that following wherein one: one same image are for this left side beholders and this right side beholder watches, an one-sided image is watched for corresponding beholder and two one-sided images supply this left side beholder and this right side beholder to watch respectively.

2. double-image display device according to claim 1 is characterized in that: this image data comprises a left side image data and a right side image data, and this main control unit comprises:

A pair of picture controller;

One internal memory is electrically coupled to this pair picture controller; And

One light source drive is electrically coupled to this pair picture controller,

Wherein this left side image data and this right side image data are to input to this pair picture controller and be stored to this internal memory, and this light source drive is controlled the Push And Release of this left side light source and this right side light source according to the output of this pair picture controller.

3. double-image display device according to claim 2 is characterized in that: wherein this left side image data and this right side image data are to input to this pair picture controller abreast.

4. double-image display device according to claim 2 is characterized in that: wherein this left side image data and this right side image data be sequence input to this pair picture controller.

5. double-image display device according to claim 4 is characterized in that: wherein this pair picture controller decides according to an indicating signal that to input to this pair picture controller be this left side image data or this right side image data.

6. double-image display device according to claim 2, it is characterized in that: wherein this left side image data and this right side image data are to input to this pair picture controller after hybrid coding is a package again, this pair picture controller is stored in this internal memory after this package decoding is reduced to this left side image data and this right side image data, wherein this left side image data is a particular address district that is stored in this internal memory, and this right side image data is another particular address district that is stored in this internal memory, wherein further this left side image data and this right side image data is compared in the process of this pair picture controller with this package decoding reduction.

7. double-image display device according to claim 2, it is characterized in that: when wherein this pair picture controller reads this left side image data and exports this display panels to, this light source drive is opened this left side light source and this right side light source is closed, when this pair picture controller read this right side image data and exports this display panels to, this light source drive was opened this right side light source and this left side light source is closed.

8. double-image display device according to claim 1, it is characterized in that: wherein the ray refraction angle that refracts to this left side beholder through this optical thin film is at least greater than 40 degree, and refracts to this right side beholder's ray refraction angle at least greater than 40 degree through this optical thin film.

9. the display packing of a double-image display device, it is characterized in that: the display device of this pair picture comprises a backlight module, one optical thin film, one display panels and a main control unit, wherein this backlight module comprises a light guide plate, one left side light source is arranged at the left side of this light guide plate and the right side that a right side light source is arranged at this light guide plate, this optical thin film is arranged at the place ahead of this backlight module, this display panels is arranged at the place ahead of this optical thin film, this main control unit is electrically coupled to this left side light source, this right side light source and this display panels, this display packing comprises:

One image data inputs to this main control unit; And

This main control unit transmits this image data to this display panels, and control this left side light source and this right side light source according to this image data, make this display panels show that following wherein one: one same image are for left side beholders and a right side beholder watches, an one-sided image is watched for corresponding beholder and two one-sided images are watched for this left side beholder and this right side beholder respectively.

10. the display packing of double-image display device according to claim 9, it is characterized in that: wherein this image data comprises a left side image data and a right side image data, this left side image data and this right side image data are to import abreast, or this left side image data and this right side image data are the inputs of sequence ground, and according to an indicating signal decide input for this left side image data or this right side image data, or this left side image data and this right side image data are to import after hybrid coding is a package.

?

Images