CN108766369A - A kind of display equipment and display control method - Google Patents

Abstract

A kind of display equipment of the application offer and display methods, the display equipment include：Luminescence component set, including multiple luminescence component subsets, each luminescence component subset include at least one luminescence component, and multiple luminescence component subsets, which correspond to, shows that the different of equipment show subregion；Display module set is located in the range of exposures of luminescence component set, includes the display module subset of multiple corresponding luminescence component subsets, each display module subset includes at least one display module；Wherein, when showing a frame image, multiple luminescence component subsets shine according to first mode, and multiple display module subsets show that first mode is matched with second mode according to second mode, so that corresponding luminescence component subset and display module subset can match.It is shone and is shown by the pattern being mutually matched between luminescence component subset and display module subset in the display equipment of the application, the picture for thoroughly solving each position of current display device is shown and the unmatched phenomenon of backlight luminescence.

Description

A kind of display equipment and display control method

Technical field

This application involves display field, more particularly to a kind of display equipment and display control method.

Background technology

Due to current display device, such as the display screen etc. of display and TV, display pattern be progressive scan or Interlacing scan, this kind of scan mode makes the display pattern of display device and the light-emitting mode of backlight mismatch, that is, can make Obtaining display screen, there are some difference on the display time for each position picture from top to bottom so that and picture display effect is affected, Reduce user experience.

Invention content

Embodiments herein provides a kind of display equipment, including：

Luminescence component set, including multiple luminescence component subsets, each luminescence component subset includes at least one hair Optical assembly, multiple luminescence component subsets, which correspond to, shows that the different of equipment show subregion；

Display module set, for showing that image, the display module set are located at the range of exposures of luminescence component set It is interior, include the display module subset of multiple correspondences luminescence component subset, each display module subset includes at least one A display module；

Wherein, when showing a frame image, the multiple luminescence component subset shines according to first mode, the multiple display Subset of components shows that the first mode is matched with second mode according to second mode, so that corresponding luminescence component Collection and display module subset can match.

Preferably, the corresponding luminescence component subset and display module subset can match including：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state； And/or

When each display module subset is in dispaly state, corresponding luminescence component subset is in luminance.

Preferably, the display module subset includes multiple displays being continuously arranged in the display module set Component；Wherein, the display module be integrated into display image include multiple display module subsets show in an orderly manner it is corresponding Topography；

Wherein, multiple luminescence component subsets match the display module subset setting.

Preferably, multiple display module subsets are set gradually along longitudinal direction；Multiple luminescence component subset difference Corresponding multiple display module subsets are set gradually along longitudinal direction；The first mode matched with second mode including：Multiple institutes It states luminescence component subset and sequentially enters luminance along longitudinal direction, multiple display module subsets sequentially enter display shape along longitudinal direction State；Or

Multiple display module subsets are transversely set gradually；Multiple luminescence component subsets correspond to multiple institutes respectively Display module subset is stated transversely to set gradually；The first mode matched with second mode including：Multiple luminescence components Subset transversely sequentially enters luminance, and multiple display module subsets transversely sequentially enter dispaly state.

Preferably, the corresponding luminescence component subset and display module subset can match including：

The glow frequency and the display frequency of the display module subset of the corresponding luminescence component subset match.

Preferably, the display frequency of the glow frequency and the display module subset of the corresponding luminescence component subset Match and further includes：

At the time of entering dispaly state with display module subset at the time of corresponding luminescence component subset enters luminance Matching；

The luminous duration of the single of the luminescence component subset and the single of the corresponding display module subset show duration Matching.

Preferably, the display equipment further includes:

Detection device, the setting form for detecting the luminescence component subset；

Processing unit, for determining that the display module corresponding with each luminescence component subset is sub according to testing result The composition form of collection；Or

Detection device, the display strategy for detecting the display module subset；

Processing unit, the group forming for determining the luminescence component subset corresponding with each display module subset Formula.

The application provides a kind of display methods simultaneously, including：

Obtain a frame image to be shown；

Multiple luminescence component subsets shine according to first mode, wherein the luminescence component subset is luminescence component set A part, and each luminescence component subset includes at least one luminescence component, and the corresponding different displays for showing equipment Subregion；

Multiple display module subsets are shown according to second mode, wherein the display module subset is display module set A part and include at least one display module, and the display module set shows described image for corresponding, described aobvious Show that assembly set is located in the range of exposures of luminescence component set；

Wherein, the first mode is matched with second mode, so that the corresponding luminescence component subset and display module Subset can match.

Preferably, the corresponding luminescence component subset and display module subset can match including：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state； And/or

When each display module subset is in dispaly state, corresponding luminescence component subset is in luminance.

Preferably, further including：

The setting form of the luminescence component subset is detected, and is determined corresponding described aobvious with each luminescence component subset Show the composition form of subset of components；Or

It detects the display strategy of the display module subset, and determines the hair corresponding with each display module subset The composition form of optical assembly subset.

For the embodiment of the present application by the way that luminescence component set and display module set to be grouped, it is multiple mutually right to make to be formed The luminescence component subset and display module subset answered pass through mutual between season luminescence component subset and display module subset The pattern matched is shone and is shown that the picture for thoroughly solving each position of current display device is shown and backlight luminescence mismatch The phenomenon that.

Description of the drawings

Fig. 1 is the structure diagram of the display equipment in embodiments herein.

Fig. 2 is the setting structure figure of longitudinally disposed display module set in the display equipment in embodiments herein.

Fig. 3 is the setting structure of longitudinally disposed luminescence component set in the display equipment in the embodiment of the application Figure.

Fig. 4 is the setting structure of longitudinally disposed luminescence component set in the display equipment in another embodiment of the application Figure.

Fig. 5 is the setting structure for the luminescence component set being laterally arranged in the display equipment in another embodiment of the application Figure.

Fig. 6 is the setting structure for the display module set being laterally arranged in the display equipment in another embodiment of the application Figure.

Fig. 7 be the application another embodiment in display equipment carry out interlacing display when display module subset with luminous group The state diagram of part subset.

Fig. 8 is a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application.

Fig. 9 is a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application.

Figure 10 is a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application.

Figure 11 is a kind of oscillogram of dispaly state of display equipment in the prior art.

Figure 12 is the flow chart of the display methods in embodiments herein.

Specific implementation mode

Embodiment is described in detail in the application below in conjunction with attached drawing.

It should be understood that various modifications can be made to disclosed embodiments.Therefore, following description should not regard To limit, and only as the example of embodiment.Those skilled in the art will expect within the scope and spirit of this Other modifications.

The attached drawing being included in the description and forms part of the description shows embodiment of the disclosure, and with it is upper What face provided is used to explain the disclosure together to the substantially description of the disclosure and the detailed description given below to embodiment Principle.

By the description of the preferred form of the embodiment with reference to the accompanying drawings to being given as non-limiting examples, the application's These and other characteristic will become apparent.

It is also understood that although the application is described with reference to some specific examples, people in the art Member realizes many other equivalents of the application in which can determine, they have feature as claimed in claim and therefore all In the protection domain defined by whereby.

When read in conjunction with the accompanying drawings, in view of following detailed description, above and other aspect, the feature and advantage of the disclosure will become It is more readily apparent.

The specific embodiment of the disclosure is described hereinafter with reference to attached drawing；It will be appreciated, however, that the disclosed embodiments are only Various ways implementation can be used in the example of the disclosure.It is known and/or repeat function and structure be not described in detail to avoid Unnecessary or extra details so that the disclosure is smudgy.Therefore, specific structural and functionality disclosed herein is thin Section is not intended to restrictions, but as just the basis of claim and representative basis be used to instruct those skilled in the art with Substantially any appropriate detailed construction diversely uses the disclosure.

This specification can be used phrase " in one embodiment ", " in another embodiment ", " in another embodiment In " or " in other embodiments ", it can be referred to one or more of the identical or different embodiment according to the disclosure.

Fig. 1 is the structure diagram of the display equipment in embodiments herein.As shown in Figure 1, the application puies forward embodiment For a kind of display equipment comprising：Luminescence component set, including multiple luminescence component subsets, each luminescence component subset include At least one luminescence component, multiple luminescence component subsets, which correspond to, shows that the different of equipment show subregion；

Display module set, is used for corresponding display image, and display module set is located at the irradiation model of luminescence component set In enclosing, include the display module subset of multiple corresponding luminescence component subsets, each display module subset includes at least a display Component；

Wherein, when showing a frame image, multiple luminescence component subsets shine according to first mode, multiple display module subsets It is shown according to second mode, first mode is matched with second mode, so that corresponding luminescence component subset and display module subset It can matching.

It is, luminescence component set includes multiple luminescence components, multiple luminescence components are divided into multigroup, form multiple hairs Optical assembly subset (can only include a luminescence component in each luminescence component subset, may also comprise multiple luminescence components), often One (or per multiple) luminescence component subset is corresponding with a display subregion of display equipment, also can and meanwhile with the display The adjacent part of subregion shows that subregion is corresponding, it is, each or the range of exposures per multiple luminescence component subsets It can two adjacent display subregions of endless all standing.It is located in the range of exposures of luminescence component set display module set, It is, display module set is arranged with luminescence component set correspondence.Display module set includes at least one or two Display module, at least one or two display modules are divided into one or more groups of, at least two display module subsets of formation.

Above-mentioned display module set is to show whole display areas of screen, and display subregion is the entire of display screen A part for display area, specific dividing mode and specific location and area are not fixed, the display subregion not by What user or manufacturer's real definition came out, nor by program etc. fictionalize come, be only a kind of consciousness.In the application For showing that the proposition of the concept of subregion is intended merely to embody the application be not as in the prior art when showing image It shines simultaneously for the luminescence component in luminescence component set, and the mode that the display module in display module set is shown simultaneously, But luminescence component set can be shone and shown so that subregion is matched successively with display module set.Such as it is considered that Each display module subset is corresponding with a display subregion, or is every multiple display module subsets and display Region is corresponding.But each (or per multiple) luminescence component subset is both needed to that there are one unique display module subsets (or only The subset group that one group of one is formed by multiple display module subsets) corresponding thereto, this kind of set-up mode is each in order to ensure The corresponding luminescence component of display subregion is fixed, therefore the light-emitting mode of the corresponding luminescence component and display subregion Display pattern i.e. fixed.When display equipment is when showing a frame image, enable each luminescence component subset according to the One pattern shines, and each display module subset is shown according to the second mode that first mode matches, and can make Corresponding luminescence component subset matches with display module subset, and then ensures the whole display effect of picture.

Wherein, above-mentioned shine according to first mode includes to entering the control of luminance, keeping the shape that shines to entering The control of state and/or the control for terminating luminance to entering.

In addition, above-mentioned display area can be not only the entirety of display screen, can also be the part of display screen, Ye Jiyi Part shows that region corresponding to screen is the display area in the present embodiment.Such as display screen is divided into upper, middle and lower three parts, Wherein certain part or certain two parts are formed as the display area in embodiment.It is to be noted, however, that when display area is aobvious When display screen curtain entirety, the luminous of the first mode does not include multiple luminescence component subsets while the mould into luminance Formula.But when display area is only that part shows screen corresponding region, the luminous of the first mode just includes multiple luminous groups Part subset is simultaneously into the pattern of luminance.

For example, Fig. 2 is the setting knot of longitudinally disposed display module set in the display equipment in embodiments herein Composition, illustrates only display module in the figure, and what number 1 referred in figure is display module, specially pixel.As shown in Fig. 2, aobvious Show that equipment has light source and by multiple pixels, plurality of pixel constitutes display module set, and multiple pixel is located at light source In range of exposures, the display of corresponding picture is completed with the light sent out by light source.All pixels are divided into multiple pixel groups, often One (or multiple) pixel groups forms a display module subset.Light source is multiple LED light, and all LED light constitute luminescence component Set, each LED light is a luminescence component, by all LED light be divided into it is multigroup (can mean allocation also uneven distribution, Depending on the concrete structure shape for having stereo display equipment, such as display screen is not regular shape, or shows that screen is although whole Body is rectangular, but vertex is arc-shaped etc., therefore LED light distribution can be made uneven), every group of LED light constitutes one luminous group Part subset.

Correspondence is arranged between display module subset and luminescence component subset, so that each (or per multiple) display module Collection at least one luminescence component subset (or the one group of luminescence component subset cooperatively formed by multiple luminescence component subsets) with It is corresponded to, and light source is provided for it.When showing that equipment show a frame image, each pixel groups and LED light group are according to being mutually matched Pattern is shown and is shone respectively, so that corresponding pixel groups can be matched with LED light group, improves display equipment Display precision and display effect, while also improving the viewing experience of user.

Further, above-mentioned corresponding luminescence component subset and display module subset can be matched and be specifically included：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state, such as shows same The part of image；And/or

When each display module subset is in dispaly state, the local time of image, corresponding luminescence component subset are such as shown It is in luminance.

It is, from the perspective of with luminescence component subset, as long as luminous group of luminance is in display equipment Part subset, corresponding display module subset are currently in dispaly state, and the figure that each display module subset is currently shown As content belongs to same frame image.Such as each frame image in video flowing is corresponded into different display subregions and is divided into more Block, when luminescence component subset corresponding with certain several display subregion in multiple display subregions is in luminance, this Certain several display subregion is then corresponding in turn to the part for showing each frame image according to the playing sequence of each frame image of video flowing.And Within same time or the display cycle of same frame image, each picture material for showing that subregion is shown belongs to same frame figure The content of picture (introduce in the above content, no longer superfluous herein by the relationship wherein respectively between display subregion and display module subset State), that is, it is each to show that subregion coordinates the display same frame image jointly within the display cycle of same frame image, it is each to show Subregion only shows the partial content of the same frame image.It need to propose, in the display of same frame image week in the present embodiment It in phase, is not necessarily to all display subregions and is shown, only can partly show that subregion participates in the display of image, Exactly show and be not necessarily intended to show the whole of the frame image when equipment is shown per frame image, but can only display portion, still It needs to ensure, as long as each display subregion of display is participated within the display cycle of the frame image, the figure of display As content centainly belongs to the frame image.

And similarly, if from the perspective of with display module subset, as, within the display cycle of same frame image It is in luminance in the corresponding luminescence component subset of display module subset for executing display action, and then ensures that display is set It is standby that the same frame image (including the entirety of the frame image or part) is only shown within the display cycle of same frame image, and under Entirety or the part of the next frame image are only shown in the display cycle of one frame image, and so on, and then effectively prevent out Show display equipment in the prior art often within the display cycle in first frame image, due to shining and pixel for light source The phenomenon that display mismatches and leads to the former frame for showing the frame image within the display cycle of the frame image or a later frame image, That is, picture trailing phenomenon, causes picture entanglement, the consequence of user's viewing is seriously affected.

Further, what the display module subset in the embodiment of the present application included is multiple continuous in display module set The display module of setting, multiple luminescence component subset matching display module subset settings, when display module is integrated into display image When by multiple display module subsets show that corresponding topography obtains in an orderly manner.It is, in display module subset Display module is ordered into setting, is e.g. disposed adjacent successively, and formed multiple display module subsets and with display Therefore the luminescence component subset of subset of components setting the form matches is also ordered into setting, such as be equally to be disposed adjacent successively 's.When showing that equipment shows image, each section of the image can be according to the progress that puts in order of multiple display module subsets Orderly display, and then form a complete image and (as described above it could also be possible that imperfect image, but at least orderly show aobvious Show that content belongs to same frame image).This kind of set-up mode is used in the present embodiment, that is, by multiple displays being continuously arranged The reason of component one display module subset of formation is readily corresponding setting luminescence component, is ensured all in the display module subset Display module can be corresponding with same luminescence component subset, and then subsequently to ensure corresponding luminescence component subset and display Match between subset of components and lay the foundation, auxiliary realizes the technique effect for showing that equipment can carry out image smooth display.Example It such as shows that equipment has four row pixels (each pixel is a display module), a display module is respectively formed per one-row pixels Subset, that is, display equipment altogether there are four display module subset, four display module subsets correspond to respectively four it is adjacent aobvious successively Show subregion, each display subregion can be corresponded to when luminescence component subset is arranged and is respectively provided with a luminescence component subset.Luminescence component Any device form, such as the combination of independent light source or light source and optical device (such as light guide plate) can be selected in subset；Also may be used To select for a post a kind of device of principle of luminosity, such as electrooptic panel (ELP), light emitting diode (LED), cold-cathode tube (CCFL) etc.. In addition, can also be in the number of luminescence component in such a way that the display module that above-mentioned selection is continuously arranged forms display module subset In the case that amount is less than display module quantity, convenient for being shown successively according to the continuous display subregion of correspondence selection, Ensure the fluency of display.For example, continuing above-described embodiment, luminescence component can be set between two neighboring display subregion Collection, that is, two neighboring display module subset is corresponding with same luminescence component subset.

But if multiple display modules of dispersion are constituted a display module subset, still to show that equipment has four rows For pixel, such as it will often be located at that row is first, in row and several combination of pixels of end of line are formed in the four rows pixel in row pixel One display module subset, since each pixel position excessively disperses, the setting that may result in luminescence component is in the form of a single, Zhi Nengtong It crosses to correspond to and is respectively provided with a point light source at each pixel to realize.Moreover, because pixel position disperses in each pixel components subset, also It can make each display subregion to be formed that can slightly show in disorder due to without apparent order when showing image, not as good as above-mentioned reality of effect Apply the effect that multiple display module subsets in example continuously display image successively.

Further, in order to ensure that corresponding display module subset and luminescence component subset match, multiple luminescence components The sequence of light of subset need to match with the display order of multiple display module subsets.It is, each luminescence component subset is set The setting sequence for setting sequence and display module subset matches.The application is described in detail in conjunction with following two specific embodiments Setting relationship between display module subset and luminescence component subset：

Embodiment one：

Multiple display module subsets are set gradually along longitudinal direction；

Multiple luminescence component subsets correspond to multiple display module subsets and set gradually along longitudinal direction respectively；

First mode matched with second mode including：Luminescence component subset shines successively along longitudinal direction, display module subset edge It is longitudinal to show successively.

For example, continuing with shown in Fig. 2, by taking one group of pixel is a display module subset as an example, display equipment includes more Group pixel, which vertically sets gradually from top to bottom, the pixel in each pixel groups in the horizontal direction from It is left-to-right to set gradually.By taking luminescence component subset is one group of LED light as an example, luminescence component set includes multigroup LED light, this is multigroup LED light group is vertically set gradually from top to bottom, each group of (or multigroup) LED light with (or multiple) pixel groups phase It is corresponding.LED light in each LED light group is equally set gradually by left-to-right in the horizontal direction.Wherein, in every group of LED light Distance between the setting quantity and two adjacent LEDs lamp of LED light is not fixed, can be with the picture in corresponding display module subset Element corresponds or a LED light is corresponding with multiple pixels.When showing a frame image, multigroup LED light from top to bottom by Row be lit (positioned at same row LED light and meanwhile be lit, i.e., simultaneously into luminance), multiple pixel groups are similarly by upper Sequentially enter dispaly state under, with show corresponding image frame (with a line pixel and meanwhile enter dispaly state).

(abbreviation luminescence component is sub below for the light source with luminescence component subset for a light guide plate and for lighting light guide plate again Collection is a light guide plate) for (light source therein is arranged at the position opposite with light guide plate end, can be one or two It is a), as shown in figure 3, settings of the Fig. 3 for longitudinally disposed luminescence component set in the display equipment in the embodiment of the application Structure chart, illustrates only luminescence component in the figure, and what number 2 referred in figure is luminescence component, specially light guide plate, the finger of number 3 Generation be light guide plate both ends be respectively set for lighting the light source of light guide plate, which can be arranged one and may also set up two. Specifically, multiple luminescence component subsets correspond to multiple pixel groups and vertically set gradually from top to bottom respectively.In display one When frame image, if above-mentioned luminescence component subset is one-to-one relationship with display module subset, then multiple luminescence components Subset namely multiple light guide plates sequentially enter luminance from top to bottom, and multiple pixel groups similarly sequentially enter from top to bottom Dispaly state.And if correspondence be per multiple adjacent luminescence component subsets it is corresponding with a display module subset, or often it is more A adjacent display module subset is corresponding with a luminescence component subset.So, multiple luminescence component subsets are according to multiple displays Subset of components putting in order from top to bottom sequentially enters luminance, and multiple display module subsets sequentially enter aobvious from top to bottom Show state, wherein the luminescence component subset for corresponding to the same display module subset enters luminance simultaneously；Or multiple luminous groups Part subset sequentially enters luminance in accordance with the order from top to bottom, and multiple display module subsets enter according to luminescence component subset The sequence of luminance sequentially enters dispaly state, wherein correspond to the same luminescence component subset display module subset simultaneously into Enter dispaly state.

Wherein, luminescence component subset is alternatively one or more fluorescent tube, such as Fig. 4, is another embodiment of the application In display equipment in longitudinally disposed luminescence component set setting structure figure, luminescence component is illustrated only in the figure, in figure What number 2 referred to is luminescence component.As shown in figure 4, more fluorescent tubes arrange and are formed multiple luminescence component subsets from top to bottom, When being shown, multiple luminescence component subsets sequentially enter luminance in an orderly manner.

Shown in Fig. 2, Fig. 3 and Fig. 4, luminescence component or display module in figure are divided through a plurality of dotted line, To be respectively formed each luminescence component subset or display module subset, however in practice, which is not present, the present embodiment In show that the dotted line is only used for auxiliary and understands the technical solution of the present embodiment.

Embodiment two：

Multiple display module subsets are transversely set gradually；

Multiple luminescence component subsets correspond to multiple display module subsets and transversely set gradually respectively；

First mode matched with second mode including：Multiple luminescence component subsets transversely sequentially enter luminance, more A display module subset transversely sequentially enters dispaly state.

For example, Fig. 5 be the application another embodiment in display equipment in the luminescence component set that is laterally arranged set Structure chart is set, illustrates only luminescence component in figure, what number 2 referred in figure is luminescence component, specially light guide plate, and 3 refer to It is the light source for lighting light guide plate.In conjunction with shown in Fig. 5, by taking one group of pixel is a display module subset as an example, equipment is shown Including multigroup pixel, which is set gradually from left to right in the horizontal direction, and the pixel in each pixel groups is along vertical Direction is set gradually from top to bottom.It is multiple by taking luminescence component subset is a light guide plate as an example (or one or more fluorescent tube) Luminescence component subset corresponds to multiple pixel groups respectively, and (correspondence can be to correspond, or per multiple adjacent luminous groups Part subset is corresponding with a pixel groups, or corresponding with a luminescence component subset per multiple adjacent pixel groups), multiple light guide plates It is set gradually from left to right in the horizontal direction.When showing a frame image, multiple luminescence component subsets namely multiple light guide plates from Left-to-right to sequentially enter luminance, multiple pixel groups similarly from left to right sequentially enter dispaly state.According to different pairs It should be related to, each light guide plate and the specific sequence of movement of each pixel groups can refer to an embodiment.

Fig. 6 is the setting structure for the display module set being laterally arranged in the display equipment in another embodiment of the application Figure, illustrates only display module in figure, and the reference of number 1 is display module in figure, specially pixel.As shown in fig. 6, display group Part set includes multiple pixels, user is divided multiple pixel using dotted line with subjective consciousness, with from left to right Side is upwardly formed multiple pixel groups, and each pixel groups form a display module subset.Luminescence component set includes multigroup LED Lamp, multigroup LED light are set gradually from left to right in the horizontal direction, each group of (or multigroup) LED light with one (or multiple) Pixel groups are corresponding.LED light in each LED light group is equally vertically set gradually from top to bottom.Wherein, every group Distance between the setting quantity and two adjacent LEDs lamp of LED light in LED light is not fixed, can be with corresponding display module Pixel in subset corresponds or a LED light is corresponding with multiple pixels.When showing a frame image, multigroup LED light By it is left-to-right be lit line by line (positioned at same row LED light and meanwhile be lit, i.e., simultaneously enter luminance), multiple pixel groups Similarly show that corresponding image frame (is located at the pixel of same row while entering dispaly state, with display successively by left-to-right Corresponding image frame).

Embodiment three, the present embodiment are the changes carried out on the basis of first two embodiment, and specifically, above two is real Apply that example is all made of is to show image frame line by line successively, and used in the present embodiment and be " interlacing " or shown for " septal area domain " The mode of image frame.For example, the present embodiment continuation is described by taking embodiment one as an example.Fig. 7 is another implementation of the application Display equipment in example carries out the state diagram of display module subset and luminescence component subset when interlacing display, and portion is illustrated only in figure Point display module and luminescence component, what number 1 referred in figure is luminescence component, specially light guide plate, and 2 refer to is to show in figure Component, specially pixel.As shown in fig. 7, the luminescence component subset for being in odd bits in the vertical direction is pressed from top to bottom first Sequence light successively.Display module subset corresponding with the luminescence component subset of the odd bits then equally presses from top to bottom suitable Sequence is shown successively, that is, A, C, E corresponding part are to show in advance on macroscopic perspective in figure；Later, it is in even bit Luminescence component subset is lighted by sequence from top to bottom successively again, and corresponding display module subset is then similarly pressed from top to bottom Sequence is shown successively, achievees the effect that septal area domain is shown with this, that is, B, D corresponding part are on macroscopic perspective in figure It shows afterwards again.And when being shown if " interlacing ", should be in five-element's pixel in figure in A, odd-line pixels are shown successively from top to bottom Show, wherein be on macroscopic perspective positioned at the pixel with a line while showing, light guide plate corresponding with A can corresponding three odd-numbered lines Pixel display and continuously light three times, illuminating state can be also always maintained at, until the pixels of three odd-numbered lines has been shown in A Finish and just extinguishes.Three odd-line pixels in A show after the completion of followed by five-element's pixel in B, even rows are arrived from above Under show successively.The light guide plate of corresponding B either the display of the pixel of corresponding two even number lines and continuously light twice or always It is remain on state, is just extinguished up to the pixel of two even number lines in B shows to finish.It is later in five-element's pixel in figure in C, Odd-line pixels show successively from top to bottom, and the corresponding light guide plates of C are transported according to the light on and off mode of above-mentioned light guide plate corresponding with A Row.After waiting for that the odd-line pixels in C are shown, even rows in D are corresponding with D according to showing successively from top to bottom Light guide plate is run according to the light on and off mode of above-mentioned light guide plate corresponding with B.Odd-line pixels are from top to bottom shown successively in last E Show, and the corresponding light guide plates of E are run according to the light on and off mode of above-mentioned light guide plate corresponding with A, until odd-line pixels are whole in E Display finishes, and when corresponding with E light guide plate extinguishes, light guide plate corresponding with A is lit again, at this time in A even rows by Top to bottm shows that accordingly light guide plate can continuously be lighted twice with the display of even rows successively, can also remain a little Bright state, until the even rows of A show and finish extinguishing.Then by strange in even rows, D in odd-line pixels, C in B Even rows are from top to bottom shown successively in several rows of pixels and E, and correspond to the light guide plate of B, C, D, E respectively also according to upper It states mode or continuously lights repeatedly, or remain illuminating state, until corresponding pixel column shows and finishes extinguishing.In this way, institute There are pixel and light guide plate just to coordinate the display for completing picture.And when being shown for " line by line ", be exactly five-element's pixel in A by After row display, five-element's pixel in B is shown line by line, is that five-element's pixel in C, D, E is shown line by line successively respectively later.Accordingly Ground, when five-element pixel of the light guide plate corresponding with A in A is shown, light guide plate can correspond to the display of each row pixel and continuous Light five times, or five-element's pixel in A display during remain illuminating state, similarly, respectively with B, C, D, E couple The light guide plate answered similarly is run in this way.Further, the display module subset with luminescence component subset of the present embodiment are One-to-one relationship, when display module subset is many-to-one relationship with luminescence component subset, such as each adjacent two is aobvious When showing that subset of components is corresponding with the same luminescence component subset, then when the display module subset of odd bits is shown successively from top to bottom When showing, all luminescence component subsets are similarly shown successively from top to bottom, and the display module subset of odd bits stops display later, Luminescence component subset can continue to shine at this time, can also shine successively from top to bottom again, corresponding, luminescence component of even bit Collection is shown successively from top to bottom again.Similarly, the display equipment in embodiment two be alternatively when showing image interlacing or every Region shows that concrete mode is same as above, and only sequence of light and display order are from left to right.

Figure 11 is the oscillogram of a dispaly state of electronic equipment in the prior art, and figure label 1 indicates display module The action waveforms of collection, 2 represent the action waveforms of luminescence component subset.As shown in figure 11, in the prior art display module subset with Between luminescence component subset, luminescence component subset whether a certain luminous moment or any luminous moment with corresponding display group Display moment of part subset mismatches, and display module subset each time it is continuously display duration it is sub with corresponding luminescence component The duration of collection continuous illumination mismatches, for example, t moment in figure, the display module subset corresponded to respectively at a, b, c point is to hold Continuous dispaly state, and correspond to the luminescence component subset at a, b, c point respectively and be respectively continuous illumination state, have just enter into luminous shape State and stopping luminance, that is, being mismatched completely between corresponding luminescence component subset and display module subset, therefore cause Always there is picture trailing phenomenon when carrying out picture display in the electronic equipment, causes the viewing effect of user not good enough.

To be effectively improved above-mentioned technical problem, the application is in order to ensure corresponding display module subset and luminescence component subset Match, and then ensure to show the display effect of equipment, in addition to needing to ensure multiple luminescence component subsets and display module subset Shine and match with display order, the display time of the fluorescent lifetime parameter of luminescence component subset and display module subset joins Number will also match, specifically：

Embodiment one, Fig. 8 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, figure In 1 action waveforms for representing display module subset, 2 represent the action waveforms of luminescence component subset.As shown in figure 8, display module The first time of subset or arbitrary primary display moment and the first time of corresponding luminescence component subset or arbitrary once luminous moment Match.That is, compared with prior art, the electronic equipment of the present embodiment shows group at least once during showing picture The display moment and the luminous moment of luminescence component subset of part subset match, and the display moment and luminous moment of other times are simultaneously Not necessarily match.Such as display module subset is one group of pixel, luminescence component subset corresponding with the display module subset is One light guide plate and light source (below abbreviation luminescence component subset be a light guide plate) for lighting light guide plate, when display equipment is intended to When showing a frame image, at the time of pixel groups are also in display for the first time at the time of light guide plate is lighted for the first time, that is, leading When tabula rasa is just lit for the first time, pixel groups just carry out first time display.And " first time " therein or display module Subset and luminescence component subset it is all light the moment with show it is arbitrary primary in the moment.

Embodiment two, display module subset show shining each time for moment and corresponding luminescence component subset each time Moment matches.It is, when multiple luminescence component subsets are lit successively according to preset order, with the hair being just lit The corresponding display module subset of optical assembly subset has also just been shown just.In this way, can ensure, no matter cycle how many times (example Such as in display of video streams, often show that a frame image, luminescence component subset are just once shone respectively with display module subset And display, it is thusly-formed one cycle), when each luminescence component subset is just lit each time, corresponding display module Certain display for just carrying out corresponding time just.The present embodiment compared with prior art, thoroughly avoids the display of display module subset Moment and the unmatched problem of luminous moment of luminescence component subset occur.

Embodiment three, Fig. 9 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, figure In 1 represent display module subset action waveforms, 2 represent luminescence component subset action waveforms.As shown in figure 9, corresponding display group The first time of part subset or the arbitrary primary duration (duration for keeping dispaly state) show and luminescence component subset First time or the arbitrary luminous duration (duration for keeping luminance) that once carries out match.That is, comparing existing skill Art, the electronic equipment of the present embodiment during showing picture at least once display module subset keep dispaly state when Between with luminescence component subset keep luminance time match, and other time display when two times might not phase Match.For example, still by taking the scene in embodiment one as an example, light guide plate keeps luminance after (or arbitrary primary) is lit for the first time Duration and corresponding pixel groups (or arbitrary primary) keeps the duration of display to match for the first time.

Example IV, the first time of corresponding display module subset or arbitrary primary at the time of show and duration With first time of luminescence component subset or it is arbitrary once shine at the time of and duration match.It is, compared to existing There is technology, display module subset proceeds by display to the electronic equipment of the present embodiment at least once during showing picture At the time of with keep the duration of display with luminescence component subset it is correspondings time carry out shining at the time of with the duration that keeps shining Match, and both other times can not match that.Such as still by taking scene shown in embodiment one as an example, by embodiment one it is found that Light guide plate matches with pixel groups at the time of (or any time) is shown for the first time at the time of (or arbitrarily primary) shines for the first time.But To further increase display effect so that light guide plate this holding luminance time in corresponding pixel groups not only It is in dispaly state, and is kept for the time of dispaly state kept for the time of luminance equal with light guide plate, it is necessary to such as The same in the present embodiment, must limiting light guide plate simultaneously, (or any time) keeps the duration of luminance to exist with pixel groups for the first time (or any time) keeps the duration of dispaly state to match for the first time, to realize above-mentioned technique effect, pixel groups is avoided to tie Beam dispaly state, and light guide plate is still in luminance, or on the contrary, light guide plate has terminated luminance, but pixel groups Occur still in the phenomenon that dispaly state.

Embodiment five, the duration and luminescence component subset for keeping dispaly state each time of corresponding display module subset The duration of luminance is kept to match each time.Namely each luminescence component subset keep time of luminance with Its corresponding display module subset is kept for the time of dispaly state equal.For example, equally by taking the example in embodiment one as an example, i.e., It is equal for the luminous duration of single corresponding with pixel groups corresponding with its display duration of every piece of light guide plate.That is, this reality It applies example compared with prior art, thoroughly avoids display module subset and the time of display is kept to be protected every time with luminescence component subset every time Unmatched problem of luminous time is held to occur.

Embodiment six, the glow frequency and the display frequency of display module subset of corresponding luminescence component subset match. By taking display module subset is one group of pixel as an example, which is to carry out according to certain frequency when being shown, each time Display shows a frame image, is continuously displayed by multiple image after repeatedly being shown successively according to display frequency.? The pixel for being regarded as pixel groups often refreshes once, just starts to show next frame image.Wherein, it should be noted that, due to each Display module subset all has multiple pixels, and the display frequency of each pixel is equal in the ideal situation, however in reality It is but extremely difficult in, therefore, display frequency is average display frequency as mentioned herein in this implementation.Further, with hair Optical assembly subset be light guide plate (or one group of LED light, one or more fluorescent tube etc.) for, also and non-standing shine, but The display frequency of pixel is coordinated to shine also according to certain frequency intermittence.Therefore to make corresponding luminescence component subset and Display module subset can match, and avoid the occurrence of in the prior art when light guide plate is lit, corresponding pixel groups not into Row display causes to show the phenomenon that lagging；Or it avoids the occurrence of in the prior art when light guide plate terminates to shine, corresponding picture Element group but initially enters dispaly state, such as starts to show next frame image, and leads to the generation of blank screen phenomenon, that is, avoids out Show display and the unmatched phenomenon that shines between the display module subset and luminescence component subset that correspond to 3 points of a, b, c in Figure 11 respectively Occur, it is necessary to which the display frequency of the glow frequency and corresponding display module subset that make luminescence component subset matches, that is, hair Not only fluorescent lifetime and the display time of accordingly display module subset match optical assembly subset, and luminescence component subset stops The time that the luminous time stops display with accordingly display module subset similarly matches, to ensure in luminescence component subset When shine, corresponding display module subset is similarly shown, and when luminescence component subset stops shining, it is corresponding aobvious Show that subset of components similarly stops showing.

Embodiment seven, Figure 10 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, The action waveforms of the waveforms stands luminescence component subset of dotted line meaning in figure, the waveforms stands display group being located above luminescence component The action waveforms of part subset.As shown in Figure 10, the display at the luminous moment and display module subset of corresponding luminescence component subset Moment matches, while appearance when the single display of the luminous duration of single of luminescence component subset and corresponding display module subset Match.

Specifically, in order to ensure when each luminescence component subset enters luminance, with each shining into luminance The corresponding each display module subset of subset of components enters dispaly state just simultaneously, is such as showing first frame image or is completing brush Newly and start to show the second frame image, that is, each display module subset starts sub with corresponding luminescence component at the time of display every time Collection starts to match at the time of shining every time, it is necessary to make the wavy curve of each luminescence component subset and corresponding display module The start time of the wavy curve of subset is identical, and each light period of luminescence component subset start time need with it is corresponding Display module subset the integral multiple display cycle start time it is identical.It is, the glow frequency of luminescence component subset It can equal or multiple (must be integral multiple) relationship with the display frequency of corresponding display module subset.And to keep away simultaneously Exempt from when luminescence component subset terminates to shine, corresponding display module subset but starts display next frame image therefore causes blank screen existing The generation of elephant, it is necessary to the luminous duration of the single of luminescence component subset be made (to keep luminance while meeting above-mentioned relation Duration) with the single of corresponding display module subset show that duration (time for keeping dispaly state) matches.So that shining The waveform of each light period of subset of components and the waveform of every integer display cycle of corresponding display module subset are one by one It is corresponding, ensure that each display module subset can fully be shown after refreshed image each time, and the display cycle shines with corresponding The light period of subset of components matches, and content non-matching phenomenon or blank screen phenomenon occurs in the picture for thoroughly avoiding display.That is, Electronic equipment shown in Fig. 10 overcomes the display that electronic equipment shown in Figure 11 includes and is asked with luminous unmatched technology completely Topic.

In addition, it is noted that display group in the same display module subset pointed out in the application the various embodiments described above Part shows picture and luminescence component in corresponding luminescence component subset simultaneously, and luminous namely the two matches and is simultaneously From the point of view of macroscopic perspective.Such as one piece of light guide plate corresponds to multirow pixel, the two action match be from macroscopic perspective for 's.And if with microcosmic angle from the point of view of, it is aobvious that corresponding display module subset and luminescence component subset, which match, in the application Show first display module shown and first in luminescence component subset luminous display module phase in subset of components Match.That is, after the example above content, first pixel of light guide plate and the first row matches.

Further, in this embodiment display equipment further include detection device and processing unit, exist for electronic equipment Carry out vision-control when can adaptively adjust, that is, electronic equipment can to the display pattern of itself and light-emitting mode etc. into The adaptive adjustment of row, so that its display effect is more preferably.And in order to be adapted to luminescence component and the display with different setting types The concrete configuration mode of the electronic equipment of component, detection device and processing unit in the present embodiment is not unique, specific as follows：

The first configuration mode：

Detection device can be used for detecting the setting form of luminescence component subset, and it is longitudinal such as to detect multiple luminescence component subsets Still transversely arranged setting is arranged；

Processing unit can be used for determining display group corresponding with each luminescence component subset according to the testing result of detection device The composition form of part subset such as determines which display module forms display module subset corresponding with each luminescence component subset.

Processing unit in the present embodiment can be applied to installation position in luminescence component subset and sequence of light is fixed When, to determine display module subset corresponding with each luminescence component subset according to the light emitting species of luminescence component subset, with And the display order of display module subset, and the information of the light emitting species can read the model of equipment from preset storage device Or parameter, certainly, specific acquisition modes are not unique, or the channel such as being manually entered obtains.Specifically, when luminous group Part collection is combined into multiple rows of (multiple row) fluorescent tube or light guide plate (or a piece of LED light), when display module collection is combined into a piece of pixel, detection Device detects that every bank light pipe or light guide plate are respectively formed a luminescence component subset, and when its light-emitting mode is from top to bottom, processing Device then determines how to divide multiple pixel according to testing result, with formed it is multiple for and luminescence component Collect corresponding display module subset.Such as the light guide plate from top to bottom set gradually including four pieces, it is respectively formed four and shines Subset of components, then processing unit multiple pixels are then divided into four groups, to be respectively formed four display module subsets, this four display Subset of components is equally from top to bottom arranged in order setting, each display module subset with only one luminescence component subset phase It is corresponding.Certainly, if display module is more, it can also enable two neighboring or multiple display module subsets sub with a luminescence component Collect corresponding.

Second of configuration mode：

Detection device can be used for detecting the display strategy of display module subset, for example, display module subset is in which way It is shown, multiple display module subsets are from top to bottom to show or from left to right show successively successively；

Processing unit can be used for determining the composition form of luminescence component subset corresponding with each display module subset.Ibid.

Processing unit in the present embodiment can be applied to installation position in display module subset and sequence of light is fixed When, to determine luminescence component subset corresponding with each display module subset according to the display format of display module subset, with And the sequence of light of luminescence component subset, and the information of the display format can read the model of equipment from preset storage device Or parameter, certainly, specific acquisition modes are not unique, or the channel such as being manually entered obtains.Such as with luminescence component Collection is combined into for multiple rows of LED light, when detection device detects that multiple display module subsets are to show successively from top to bottom, processing Device then divides multiple rows of LED light according to the installation position of multiple display module subsets and display order, makes each Row or adjacent multiple rows of LED light form a luminescence component subset, are determined with this corresponding with each display module subset each respectively The sequence of light of luminescence component subset and multiple luminescence component subset.

As shown in figure 12, the application also provides embodiment a kind of display methods, including：

Obtain a frame image to be shown；

Multiple luminescence component subsets shine according to first mode, wherein luminescence component subset is the one of luminescence component set Part, and each luminescence component subset includes at least one luminescence component, and the corresponding different display subregions for showing equipment；

Multiple display module subsets are shown according to second mode, wherein display module subset is the one of display module set Partly and include multiple display modules, and display module set shows that image, display module set are located at luminous group for corresponding In the range of exposures of part set；

Wherein, first mode is matched with second mode, so that corresponding luminescence component subset and display module subset energy Match.

It is, luminescence component set includes multiple luminescence components, multiple luminescence components are divided into multigroup, form multiple hairs Optical assembly subset (can only include a luminescence component in each luminescence component subset, may also comprise multiple luminescence components), often One (or per multiple) luminescence component subset is corresponding with a display subregion of display equipment, also can and meanwhile with the display The adjacent part of subregion shows that subregion is corresponding, that is, each or the range of exposures per multiple luminescence component subsets can Two adjacent display subregions of endless all standing.It is located in the range of exposures of luminescence component set display module set, It is exactly that display module set is arranged with luminescence component set correspondence.Display module set includes that at least one or two are aobvious Show component, which is divided into one or more groups of, at least two display module subsets of formation.

Above-mentioned display module set is to show whole display areas of screen, and display subregion is the entire of display screen A part for display area, specific dividing mode and specific location and area are not fixed, the display subregion not by What user or manufacturer's real definition came out, nor by program etc. fictionalize come, be only a kind of consciousness.In the application For showing that the proposition of the concept of subregion is intended merely to embody the application be not as in the prior art when showing image It shines simultaneously for the luminescence component in luminescence component set, and the mode that the display module in display module set is shown simultaneously, But luminescence component set can be shone and shown so that subregion is matched successively with display module set.Such as it is considered that Each display module subset is corresponding with a display subregion, or is every multiple display module subsets and display Region is corresponding.But each (or per multiple) luminescence component subset is both needed to that there are one unique display module subsets (or only The subset group that one group of one is formed by multiple display module subsets) corresponding thereto, this kind of set-up mode is each in order to ensure The corresponding luminescence component of display subregion is fixed, therefore the light-emitting mode of the corresponding luminescence component and display subregion Display pattern i.e. fixed.When display equipment is when showing a frame image, enable each luminescence component subset according to the One pattern shines, and each display module subset is shown according to the second mode that first mode matches, and can make Corresponding luminescence component subset matches with display module subset, and then ensures the whole display effect of picture.

Wherein, above-mentioned shine according to first mode includes to entering the control of luminance, keeping luminance to entering Control and/or to enter terminate luminance control.

In addition, above-mentioned display area can be not only the entirety of display screen, can also be the part of display screen, Ye Jiyi Part shows that region corresponding to screen is the display area in the present embodiment.Such as display screen is divided into upper, middle and lower three parts, Wherein certain part or certain two parts are formed as the display area in embodiment.It is to be noted, however, that when display area is aobvious When display screen curtain entirety, the luminous of the first mode does not include multiple luminescence component subsets while the mould into luminance Formula.But when display area is only that part shows screen corresponding region, the luminous of the first mode just includes multiple luminous groups Part subset is simultaneously into the pattern of luminance.

For example, Fig. 2 is the setting knot of longitudinally disposed display module set in the display equipment in embodiments herein Composition, illustrates only display module in the figure, and what number 1 referred in figure is display module, specially pixel.As shown in Fig. 2, aobvious Show that equipment has light source and multiple pixels, wherein light source is multiple LED light, and all LED light constitute luminescence component set, each LED light is a luminescence component, by all LED light be divided into it is multigroup (can mean allocation also uneven distribution, have stereo display Depending on the concrete structure shape of equipment, such as display screen is not regular shape, although or display screen it is whole rectangular, Vertex is arc-shaped etc., therefore LED light distribution can be made uneven), every group of LED light constitutes a luminescence component subset.Display The all pixels of equipment constitute display module set, and multiple pixel is located in the range of exposures of light source, to be sent out by light source Light and complete the display of corresponding picture.All pixels are divided into multiple pixel groups, each (or multiple) pixel groups forms one A display module subset, correspondence is arranged between display module subset and luminescence component subset, so that each (or per multiple) are aobvious Show subset of components at least one luminescence component subset (or one group of luminescence component cooperatively formed by multiple luminescence component subsets Subset) it is corresponding, provide light source for it.When showing that equipment shows a frame image, each pixel groups are with LED light group according to mutual Matched pattern is shown and is shone respectively, so that corresponding pixel groups can be matched with LED light group, improves display The display precision and display effect of equipment, while also improving the viewing experience of user.

Further, above-mentioned corresponding luminescence component subset and display module subset can be matched and be specifically included：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state, such as shows same The part of image；And/or

When each display module subset is in dispaly state, the local time of image, corresponding luminescence component subset are such as shown It is in luminance.

It is, from the perspective of with luminescence component subset, as long as luminous group of luminance is in display equipment Part subset, corresponding display module subset are currently in dispaly state, and the figure that each display module subset is currently shown As content belongs to same frame image.Such as each frame image in video flowing is corresponded into different display subregions and is divided into more Block, when luminescence component subset corresponding with certain several display subregion in multiple display subregions is in luminance, this Certain several display subregion is then corresponding in turn to the part for showing each frame image according to the playing sequence of each frame image of video flowing.And Within same time or the display cycle of same frame image, each picture material for showing that subregion is shown belongs to same frame figure The content of picture (introduce in the above content, no longer superfluous herein by the relationship wherein respectively between display subregion and display module subset State), that is, it is each to show that subregion coordinates the display same frame image jointly within the display cycle of same frame image, it is each to show Subregion only shows the partial content of the same frame image.It need to propose, in the display of same frame image week in the present embodiment It in phase, is not necessarily to all display subregions and is shown, only can partly show that subregion participates in the display of image, Exactly show and be not necessarily intended to show the whole of the frame image when equipment is shown per frame image, but can only display portion, still It needs to ensure, as long as each display subregion of display is participated within the display cycle of the frame image, the figure of display As content centainly belongs to the frame image.

And similarly, if from the perspective of with display module subset, as, within the display cycle of same frame image It is in luminance in the corresponding luminescence component subset of display module subset for executing display action, and then ensures that display is set It is standby that the same frame image (including the entirety of the frame image or part) is only shown within the display cycle of same frame image, and under Entirety or the part of the next frame image are only shown in the display cycle of one frame image, and so on, and then effectively prevent out Show display equipment in the prior art often within the display cycle in first frame image, due to shining and pixel for light source The phenomenon that display mismatches and leads to the former frame for showing the frame image within the display cycle of the frame image or a later frame image, That is, picture trailing phenomenon, causes picture entanglement, the consequence of user's viewing is seriously affected.

Further, what the display module subset in the embodiment of the present application included is multiple continuous in display module set The display module of setting, multiple luminescence component subset matching display module subset settings, when display module is integrated into display image When by multiple display module subsets show that corresponding topography obtains in an orderly manner.It is, in display module subset Display module is ordered into setting, is e.g. disposed adjacent successively, and formed multiple display module subsets and with display Therefore the luminescence component subset of subset of components setting the form matches is also ordered into setting, such as be equally to be disposed adjacent successively 's.When showing that equipment shows image, each section of the image can be according to the progress that puts in order of multiple display module subsets Orderly display, and then form a complete image and (as described above it could also be possible that imperfect image, but at least orderly show aobvious Show that content belongs to same frame image).This kind of set-up mode is used in the present embodiment, that is, by multiple displays being continuously arranged The reason of component one display module subset of formation is readily corresponding setting luminescence component, is ensured all in the display module subset Display module can be corresponding with same luminescence component subset, and then subsequently to ensure corresponding luminescence component subset and display Match between subset of components and lay the foundation, auxiliary realizes the technique effect for showing that equipment can carry out image smooth display.Example It such as shows that equipment has four row pixels (each pixel is a display module), a display module is respectively formed per one-row pixels Subset, that is, display equipment altogether there are four display module subset, four display module subsets correspond to respectively four it is adjacent aobvious successively Show subregion, each display subregion can be corresponded to when luminescence component subset is arranged and is respectively provided with a luminescence component subset.Luminescence component Any device form, such as the combination of independent light source or light source and optical device (such as light guide plate) can be selected in subset；Also may be used To select for a post a kind of device of principle of luminosity, such as electrooptic panel (ELP), light emitting diode (LED), cold-cathode tube (CCFL) etc.. In addition, can also be in the number of luminescence component in such a way that the display module that above-mentioned selection is continuously arranged forms display module subset In the case that amount is less than display module quantity, convenient for being shown successively according to the continuous display subregion of correspondence selection, Ensure the fluency of display.For example, continuing above-described embodiment, luminescence component can be set between two neighboring display subregion Collection, that is, two neighboring display module subset is corresponding with same luminescence component subset.

But if multiple display modules of dispersion are constituted a display module subset, still to show that equipment has four rows For pixel, such as it will often be located at that row is first, in row and several combination of pixels of end of line are formed in the four rows pixel in row pixel One display module subset, since each pixel position excessively disperses, the setting that may result in luminescence component is in the form of a single, Zhi Nengtong It crosses to correspond to and is respectively provided with a point light source at each pixel to realize.Moreover, because pixel position disperses in each pixel components subset, also It can make each display subregion to be formed that can slightly show in disorder due to without apparent order when showing image, not as good as above-mentioned reality of effect Apply the effect that multiple display module subsets in example continuously display image successively.

Further, in order to ensure that corresponding display module subset and luminescence component subset match, multiple luminescence components The sequence of light of subset need to match with the display order of multiple display module subsets.It is, each luminescence component subset is set The setting sequence for setting sequence and display module subset matches.The application is described in detail in conjunction with following two specific embodiments Setting relationship between display module subset and luminescence component subset：

Embodiment one：

Multiple display module subsets are set gradually along longitudinal direction；

Multiple luminescence component subsets correspond to multiple display module subsets and set gradually along longitudinal direction respectively；

First mode matched with second mode including：Luminescence component subset shines successively along longitudinal direction, display module subset edge It is longitudinal to show successively.

For example, continuing with shown in Fig. 2, by taking one group of pixel is a display module subset as an example, display equipment includes more Group pixel, which vertically sets gradually from top to bottom, the pixel in each pixel groups in the horizontal direction from It is left-to-right to set gradually.By taking luminescence component subset is one group of LED light as an example, luminescence component set includes multigroup LED light, this is multigroup LED light group is vertically set gradually from top to bottom, each group of (or multigroup) LED light with (or multiple) pixel groups phase It is corresponding.LED light in each LED light group is equally set gradually by left-to-right in the horizontal direction.Wherein, in every group of LED light Distance between the setting quantity and two adjacent LEDs lamp of LED light is not fixed, can be with the picture in corresponding display module subset Element corresponds or a LED light is corresponding with multiple pixels.When showing a frame image, multigroup LED light from top to bottom by Row be lit (positioned at same row LED light and meanwhile be lit, i.e., simultaneously into luminance), multiple pixel groups are similarly by upper Sequentially enter dispaly state under, with show corresponding image frame (with a line pixel and meanwhile enter dispaly state).

(abbreviation luminescence component is sub below for the light source with luminescence component subset for a light guide plate and for lighting light guide plate again Collection is a light guide plate) for (light source therein is arranged at the position opposite with light guide plate end, can be one or two It is a), as shown in figure 3, settings of the Fig. 3 for longitudinally disposed luminescence component set in the display equipment in the embodiment of the application Structure chart, illustrates only luminescence component in the figure, and what number 2 referred in figure is luminescence component, specially light guide plate, the finger of number 3 Generation be light guide plate both ends be respectively set for lighting the light source of light guide plate, which can be arranged one and may also set up two. Specifically, multiple luminescence component subsets correspond to multiple pixel groups and vertically set gradually from top to bottom respectively.In display one When frame image, if above-mentioned luminescence component subset is one-to-one relationship with display module subset, then multiple luminescence components Subset namely multiple light guide plates sequentially enter luminance from top to bottom, and multiple pixel groups similarly sequentially enter from top to bottom Dispaly state.And if correspondence be per multiple adjacent luminescence component subsets it is corresponding with a display module subset, or often it is more A adjacent display module subset is corresponding with a luminescence component subset.So, multiple luminescence component subsets are according to multiple displays Subset of components putting in order from top to bottom sequentially enters luminance, and multiple display module subsets sequentially enter aobvious from top to bottom Show state, wherein the luminescence component subset for corresponding to the same display module subset enters luminance simultaneously；Or multiple luminous groups Part subset sequentially enters luminance in accordance with the order from top to bottom, and multiple display module subsets enter according to luminescence component subset The sequence of luminance sequentially enters dispaly state, wherein correspond to the same luminescence component subset display module subset simultaneously into Enter dispaly state.

Wherein, luminescence component subset is alternatively one or more fluorescent tube, such as Fig. 4, is another embodiment of the application In display equipment in longitudinally disposed luminescence component set setting structure figure, luminescence component is illustrated only in the figure, in figure What number 2 referred to is luminescence component.As shown in figure 4, more fluorescent tubes arrange and are formed multiple luminescence component subsets from top to bottom, When being shown, multiple luminescence component subsets sequentially enter luminance in an orderly manner.

Shown in Fig. 2, Fig. 3 and Fig. 4, luminescence component or display module in figure are divided through a plurality of dotted line, To be respectively formed each luminescence component subset or display module subset, however in practice, which is not present, the present embodiment In show that the dotted line is only used for auxiliary and understands the technical solution of the present embodiment.

Embodiment two：

Multiple display module subsets are transversely set gradually；

Multiple luminescence component subsets correspond to multiple display module subsets and transversely set gradually respectively；

First mode matched with second mode including：Multiple luminescence component subsets transversely sequentially enter luminance, more A display module subset transversely sequentially enters dispaly state.

For example, Fig. 5 be the application another embodiment in display equipment in the luminescence component set that is laterally arranged set Structure chart is set, illustrates only luminescence component in figure, what number 2 referred in figure is luminescence component, specially light guide plate, and 3 refer to It is the light source for lighting light guide plate.In conjunction with shown in Fig. 5, by taking one group of pixel is a display module subset as an example, equipment is shown Including multigroup pixel, which is set gradually from left to right in the horizontal direction, and the pixel in each pixel groups is along vertical Direction is set gradually from top to bottom.It is multiple by taking luminescence component subset is a light guide plate as an example (or one or more fluorescent tube) Luminescence component subset corresponds to multiple pixel groups respectively, and (correspondence can be to correspond, or per multiple adjacent luminous groups Part subset is corresponding with a pixel groups, or corresponding with a luminescence component subset per multiple adjacent pixel groups), multiple light guide plates It is set gradually from left to right in the horizontal direction.When showing a frame image, multiple luminescence component subsets namely multiple light guide plates from Left-to-right to sequentially enter luminance, multiple pixel groups similarly from left to right sequentially enter dispaly state.According to different pairs It should be related to, each light guide plate and the specific sequence of movement of each pixel groups can refer to an embodiment.

Fig. 6 is the setting structure for the display module set being laterally arranged in the display equipment in another embodiment of the application Figure, illustrates only display module in figure, and the reference of number 1 is display module in figure, specially pixel.As shown in fig. 6, display group Part set includes multiple pixels, user is divided multiple pixel using dotted line with subjective consciousness, with from left to right Side is upwardly formed multiple pixel groups, and each pixel groups form a display module subset.Luminescence component set includes multigroup LED Lamp, multigroup LED light are set gradually from left to right in the horizontal direction, each group of (or multigroup) LED light with one (or multiple) Pixel groups are corresponding.LED light in each LED light group is equally vertically set gradually from top to bottom.Wherein, every group Distance between the setting quantity and two adjacent LEDs lamp of LED light in LED light is not fixed, can be with corresponding display module Pixel in subset corresponds or a LED light is corresponding with multiple pixels.When showing a frame image, multigroup LED light By it is left-to-right be lit line by line (positioned at same row LED light and meanwhile be lit, i.e., simultaneously enter luminance), multiple pixel groups Similarly show that corresponding image frame (is located at the pixel of same row while entering dispaly state, with display successively by left-to-right Corresponding image frame).

Embodiment three, the present embodiment are the changes carried out on the basis of first two embodiment, and specifically, above two is real Apply that example is all made of is to show image frame line by line successively, and used in the present embodiment and be " interlacing " or shown for " septal area domain " The mode of image frame.For example, the present embodiment continuation is described by taking embodiment one as an example.Fig. 7 is another implementation of the application Display equipment in example carries out the state diagram of display module subset and luminescence component subset when interlacing display, and portion is illustrated only in figure Point display module and luminescence component, what number 1 referred in figure is luminescence component, specially light guide plate, and 2 refer to is to show in figure Component, specially pixel.As shown in fig. 7, the luminescence component subset for being in odd bits in the vertical direction is pressed from top to bottom first Sequence light successively.Display module subset corresponding with the luminescence component subset of the odd bits then equally presses from top to bottom suitable Sequence is shown successively, that is, A, C, E corresponding part are to show in advance on macroscopic perspective in figure；Later, it is in even bit Luminescence component subset is lighted by sequence from top to bottom successively again, and corresponding display module subset is then similarly pressed from top to bottom Sequence is shown successively, achievees the effect that septal area domain is shown with this, that is, B, D corresponding part are on macroscopic perspective in figure It shows afterwards again.And when being shown if " interlacing ", should be in five-element's pixel in figure in A, odd-line pixels are shown successively from top to bottom Show, wherein be on macroscopic perspective positioned at the pixel with a line while showing, light guide plate corresponding with A can corresponding three odd-numbered lines Pixel display and continuously light three times, illuminating state can be also always maintained at, until the pixels of three odd-numbered lines has been shown in A Finish and just extinguishes.Three odd-line pixels in A show after the completion of followed by five-element's pixel in B, even rows are arrived from above Under show successively.The light guide plate of corresponding B either the display of the pixel of corresponding two even number lines and continuously light twice or always It is remain on state, is just extinguished up to the pixel of two even number lines in B shows to finish.It is later in five-element's pixel in figure in C, Odd-line pixels show successively from top to bottom, and the corresponding light guide plates of C are transported according to the light on and off mode of above-mentioned light guide plate corresponding with A Row.After waiting for that the odd-line pixels in C are shown, even rows in D are corresponding with D according to showing successively from top to bottom Light guide plate is run according to the light on and off mode of above-mentioned light guide plate corresponding with B.Odd-line pixels are from top to bottom shown successively in last E Show, and the corresponding light guide plates of E are run according to the light on and off mode of above-mentioned light guide plate corresponding with A, until odd-line pixels are whole in E Display finishes, and when corresponding with E light guide plate extinguishes, light guide plate corresponding with A is lit again, at this time in A even rows by Top to bottm shows that accordingly light guide plate can continuously be lighted twice with the display of even rows successively, can also remain a little Bright state, until the even rows of A show and finish extinguishing.Then by strange in even rows, D in odd-line pixels, C in B Even rows are from top to bottom shown successively in several rows of pixels and E, and correspond to the light guide plate of B, C, D, E respectively also according to upper It states mode or continuously lights repeatedly, or remain illuminating state, until corresponding pixel column shows and finishes extinguishing.In this way, institute There are pixel and light guide plate just to coordinate the display for completing picture.And when being shown for " line by line ", be exactly five-element's pixel in A by After row display, five-element's pixel in B is shown line by line, is that five-element's pixel in C, D, E is shown line by line successively respectively later.Accordingly Ground, when five-element pixel of the light guide plate corresponding with A in A is shown, light guide plate can correspond to the display of each row pixel and continuous Light five times, or five-element's pixel in A display during remain illuminating state, similarly, respectively with B, C, D, E couple The light guide plate answered similarly is run in this way.Further, which is display module subset and luminescence component subset one One-to-one correspondence, when display module subset is many-to-one relationship with luminescence component subset, such as each adjacent two is shown When subset of components is corresponding with the same luminescence component subset, then when the display module subset of odd bits is shown successively from top to bottom When, all luminescence component subsets are similarly shown successively from top to bottom, and the display module subset of odd bits stops display, hair later Optical assembly subset can continue to shine at this time, can also shine successively from top to bottom again, corresponding, the luminescence component subset of even bit It is shown successively from top to bottom again.Similarly, the display equipment in embodiment two is alternatively interlacing or septal area when showing image Domain shows that concrete mode is same as above, and only sequence of light and display order are from left to right.

Figure 11 is the oscillogram of a dispaly state of electronic equipment in the prior art, and figure label 1 indicates display module The action waveforms of collection, 2 represent the action waveforms of luminescence component subset.As shown in figure 11, in the prior art display module subset with Between luminescence component subset, luminescence component subset whether a certain luminous moment or any luminous moment with corresponding display group Display moment of part subset mismatches, and display module subset each time it is continuously display duration it is sub with corresponding luminescence component The duration of collection continuous illumination mismatches, for example, t moment in figure, the display module subset corresponded to respectively at a, b, c point is to hold Continuous dispaly state, and correspond to the luminescence component subset at a, b, c point respectively and be respectively continuous illumination state, have just enter into luminous shape State and stopping luminance, that is, being mismatched completely between corresponding luminescence component subset and display module subset, therefore cause Always there is picture trailing phenomenon when carrying out picture display in the electronic equipment, causes the viewing effect of user not good enough.

To be effectively improved above-mentioned technical problem, the application is in order to ensure corresponding display module subset and luminescence component subset Match, and then ensure to show the display effect of equipment, in addition to needing to ensure multiple luminescence component subsets and display module subset Shine and match with display order, the display time of the fluorescent lifetime parameter of luminescence component subset and display module subset joins Number will also match, specifically：

Embodiment one, Fig. 8 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, figure In 1 action waveforms for representing display module subset, 2 represent the action waveforms of luminescence component subset.As shown in figure 8, display module The first time of subset or arbitrary primary display moment and the first time of corresponding luminescence component subset or arbitrary once luminous moment Match.That is, compared with prior art, the electronic equipment of the present embodiment shows group at least once during showing picture The display moment and the luminous moment of luminescence component subset of part subset match, and the display moment and luminous moment of other times are simultaneously Not necessarily match.Such as display module subset is one group of pixel, luminescence component subset corresponding with the display module subset is One light guide plate and light source (below abbreviation luminescence component subset be a light guide plate) for lighting light guide plate, when display equipment is intended to When showing a frame image, at the time of pixel groups are also in display for the first time at the time of light guide plate is lighted for the first time, that is, leading When tabula rasa is just lit for the first time, pixel groups just carry out first time display.And " first time " therein or display module Subset and luminescence component subset it is all light the moment with show it is arbitrary primary in the moment.

Embodiment two, display module subset show shining each time for moment and corresponding luminescence component subset each time Moment matches.It is, when multiple luminescence component subsets are lit successively according to preset order, with the hair being just lit The corresponding display module subset of optical assembly subset has also just been shown just.In this way, can ensure, no matter cycle how many times (example Such as in display of video streams, often show that a frame image, luminescence component subset are just once shone respectively with display module subset And display, it is thusly-formed one cycle), when each luminescence component subset is just lit each time, corresponding display module Certain display for just carrying out corresponding time just.The present embodiment compared with prior art, thoroughly avoids the display of display module subset Moment and the unmatched problem of luminous moment of luminescence component subset occur.

Embodiment three, Fig. 9 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, figure In 1 represent display module subset action waveforms, 2 represent luminescence component subset action waveforms.As shown in figure 9, corresponding display group The first time of part subset or the arbitrary primary duration (duration for keeping dispaly state) show and luminescence component subset First time or the arbitrary luminous duration (duration for keeping luminance) that once carries out match.That is, comparing existing skill Art, the electronic equipment of the present embodiment during showing picture at least once display module subset keep dispaly state when Between with luminescence component subset keep luminance time match, and other time display when two times might not phase Match.For example, still by taking the scene in embodiment one as an example, light guide plate keeps luminance after (or arbitrary primary) is lit for the first time Duration and corresponding pixel groups (or arbitrary primary) keeps the duration of display to match for the first time.

Example IV, the first time of corresponding display module subset or arbitrary primary at the time of show and duration With first time of luminescence component subset or it is arbitrary once shine at the time of and duration match.It is, compared to existing There is technology, display module subset proceeds by display to the electronic equipment of the present embodiment at least once during showing picture At the time of with keep the duration of display with luminescence component subset it is correspondings time carry out shining at the time of with the duration that keeps shining Match, and both other times can not match that.Such as still by taking scene shown in embodiment one as an example, by embodiment one it is found that Light guide plate matches with pixel groups at the time of (or any time) is shown for the first time at the time of (or arbitrarily primary) shines for the first time.But To further increase display effect so that light guide plate this holding luminance time in corresponding pixel groups not only It is in dispaly state, and is kept for the time of dispaly state kept for the time of luminance equal with light guide plate, it is necessary to such as The same in the present embodiment, must limiting light guide plate simultaneously, (or any time) keeps the duration of luminance to exist with pixel groups for the first time (or any time) keeps the duration of dispaly state to match for the first time, to realize above-mentioned technique effect, pixel groups is avoided to tie Beam dispaly state, and light guide plate is still in luminance, or on the contrary, light guide plate has terminated luminance, but pixel groups Occur still in the phenomenon that dispaly state.

Embodiment five, the duration and luminescence component subset for keeping dispaly state each time of corresponding display module subset The duration of luminance is kept to match each time.Namely each luminescence component subset keep time of luminance with Its corresponding display module subset is kept for the time of dispaly state equal.For example, equally by taking the example in embodiment one as an example, i.e., It is equal for the luminous duration of single corresponding with pixel groups corresponding with its display duration of every piece of light guide plate.That is, this reality It applies example compared with prior art, thoroughly avoids display module subset and the time of display is kept to be protected every time with luminescence component subset every time Unmatched problem of luminous time is held to occur.

Embodiment six, the glow frequency and the display frequency of display module subset of corresponding luminescence component subset match. By taking display module subset is one group of pixel as an example, which is to carry out according to certain frequency when being shown, each time Display shows a frame image, is continuously displayed by multiple image after repeatedly being shown successively according to display frequency.? The pixel for being regarded as pixel groups often refreshes once, just starts to show next frame image.Wherein, it should be noted that, due to each Display module subset all has multiple pixels, and the display frequency of each pixel is equal in the ideal situation, however in reality It is but extremely difficult in, therefore, display frequency is average display frequency as mentioned herein in this implementation.Further, with hair Optical assembly subset be light guide plate (or one group of LED light, one or more fluorescent tube etc.) for, also and non-standing shine, but The display frequency of pixel is coordinated to shine also according to certain frequency intermittence.Therefore to make corresponding luminescence component subset and Display module subset can match, and avoid the occurrence of in the prior art when light guide plate is lit, corresponding pixel groups not into Row display causes to show the phenomenon that lagging；Or it avoids the occurrence of in the prior art when light guide plate terminates to shine, corresponding picture Element group but initially enters dispaly state, such as starts to show next frame image, and leads to the generation of blank screen phenomenon, that is, avoids out Show display and the unmatched phenomenon that shines between the display module subset and luminescence component subset that correspond to 3 points of a, b, c in Figure 11 respectively Occur, it is necessary to which the display frequency of the glow frequency and corresponding display module subset that make luminescence component subset matches, that is, hair Not only fluorescent lifetime and the display time of accordingly display module subset match optical assembly subset, and luminescence component subset stops The time that the luminous time stops display with accordingly display module subset similarly matches, to ensure in luminescence component subset When shine, corresponding display module subset is similarly shown, and when luminescence component subset stops shining, it is corresponding aobvious Show that subset of components similarly stops showing.

Embodiment seven, Figure 10 are a kind of oscillogram of dispaly state of the display equipment in another embodiment of the application, The action waveforms of the waveforms stands luminescence component subset of dotted line meaning in figure, the waveforms stands display group being located above luminescence component The action waveforms of part subset.As shown in Figure 10, the display at the luminous moment and display module subset of corresponding luminescence component subset Moment matches, while appearance when the single display of the luminous duration of single of luminescence component subset and corresponding display module subset Match.

Specifically, in order to ensure when each luminescence component subset enters luminance, with each shining into luminance The corresponding each display module subset of subset of components enters dispaly state just simultaneously, is such as showing first frame image or is completing brush Newly and start to show the second frame image, that is, each display module subset starts sub with corresponding luminescence component at the time of display every time Collection starts to match at the time of shining every time, it is necessary to make the wavy curve of each luminescence component subset and corresponding display module The start time of the wavy curve of subset is identical, and each light period of luminescence component subset start time need with it is corresponding Display module subset the integral multiple display cycle start time it is identical.It is, the glow frequency of luminescence component subset It can equal or multiple (must be integral multiple) relationship with the display frequency of corresponding display module subset.And to keep away simultaneously Exempt from when luminescence component subset terminates to shine, corresponding display module subset but starts display next frame image therefore causes blank screen existing The generation of elephant, it is necessary to the luminous duration of the single of luminescence component subset be made (to keep luminance while meeting above-mentioned relation Duration) with the single of corresponding display module subset show that duration (time for keeping dispaly state) matches.So that shining The waveform of each light period of subset of components and the waveform of every integer display cycle of corresponding display module subset are one by one It is corresponding, ensure that each display module subset can fully be shown after refreshed image each time, and the display cycle shines with corresponding The light period of subset of components matches, and content non-matching phenomenon or blank screen phenomenon occurs in the picture for thoroughly avoiding display.That is, Electronic equipment shown in Fig. 10 overcomes the display that electronic equipment shown in Figure 11 includes and is asked with luminous unmatched technology completely Topic.

In addition, it is noted that display group in the same display module subset pointed out in the application the various embodiments described above Part shows picture and luminescence component in corresponding luminescence component subset simultaneously, and luminous namely the two matches and is simultaneously From the point of view of macroscopic perspective.Such as one piece of light guide plate corresponds to multirow pixel, the two action match be from macroscopic perspective for 's.And if with microcosmic angle from the point of view of, it is aobvious that corresponding display module subset and luminescence component subset, which match, in the application Show first display module shown and first in luminescence component subset luminous display module phase in subset of components Match.That is, after the example above content, first pixel of light guide plate and the first row matches.

Further, in this embodiment display methods further include using detection device and processing unit electronic equipment into The step of capable of adaptively being adjusted when row vision-control, that is, electronic equipment can be to the display patterns and light-emitting mode of itself It is equal adaptively to be adjusted, so that its display effect is more preferably.And in order to be adapted to it is different setting types luminescence components and The electronic equipment of display module, the detection mode in the present embodiment is not unique, specific as follows：

The first detection mode：

The setting form for detecting luminescence component subset, it is longitudinal arrangement setting or cross such as to detect multiple luminescence component subsets To being arranged, and the composition form of display module subset corresponding with each luminescence component subset is determined according to testing result, such as Determine which display module forms display module subset corresponding with each luminescence component subset.

Detection mode in the present embodiment can be applied to installation position in luminescence component subset and sequence of light is fixed When, to determine display module subset corresponding with each luminescence component subset according to the light emitting species of luminescence component subset, with And the display order of display module subset, and the information of the light emitting species can read the model of equipment from preset storage device Or parameter, certainly, specific acquisition modes are not unique, or the channel such as being manually entered obtains.Specifically, when luminous group Part collection is combined into multiple rows of (multiple row) fluorescent tube or light guide plate (or a piece of LED light), when display module collection is combined into a piece of pixel, detection Device detects that every bank light pipe or light guide plate are respectively formed a luminescence component subset, and when its light-emitting mode is from top to bottom, processing Device then determines how to divide multiple pixel according to testing result, with formed it is multiple for and luminescence component Collect corresponding display module subset.Such as the light guide plate from top to bottom set gradually including four pieces, it is respectively formed four and shines Subset of components, then processing unit multiple pixels are then divided into four groups, to be respectively formed four display module subsets, this four display Subset of components is equally from top to bottom arranged in order setting, each display module subset with only one luminescence component subset phase It is corresponding.Certainly, if display module is more, it can also enable two neighboring or multiple display module subsets sub with a luminescence component Collect corresponding.

Second of detection mode：

The display strategy of display module subset is detected, for example, display module subset is shown in which way, Duo Gexian Show subset of components be from top to bottom show or from left to right show successively successively, and according to the display strategy that detects determine with The composition form of the corresponding luminescence component subset of each display module subset.

Detection mode in the present embodiment can be applied to installation position in display module subset and sequence of light is fixed When, to determine luminescence component subset corresponding with each display module subset according to the display format of display module subset, with And the sequence of light of luminescence component subset, and the information of the display format can read the model of equipment from preset storage device Or parameter, certainly, specific acquisition modes are not unique, or the channel such as being manually entered obtains.Such as with luminescence component Collection is combined into for multiple rows of LED light, when detection device detects that multiple display module subsets are to show successively from top to bottom, processing Device then divides multiple rows of LED light according to the installation position of multiple display module subsets and display order, makes each Row or adjacent multiple rows of LED light form a luminescence component subset, are determined with this corresponding with each display module subset each respectively The sequence of light of luminescence component subset and multiple luminescence component subset.

Above example is only the exemplary embodiment of the application, is not used in limitation the application, the protection domain of the application It is defined by the claims.Those skilled in the art can make respectively the application in the essence and protection domain of the application Kind modification or equivalent replacement, this modification or equivalent replacement also should be regarded as falling within the scope of protection of this application.

Claims (10)

1. a kind of display equipment, including：

Luminescence component set, including multiple luminescence component subsets, each luminescence component subset includes at least one luminous group Part, multiple luminescence component subsets, which correspond to, shows that the different of equipment show subregion；

Display module set is wrapped for showing that image, the display module set are located in the range of exposures of luminescence component set The display module subset of multiple correspondences luminescence component subset is included, each display module subset includes at least a display Component；

Wherein, when showing a frame image, the multiple luminescence component subset shines according to first mode, the multiple display module Subset shows that the first mode is matched with second mode according to second mode so that the corresponding luminescence component subset and Display module subset can match.

2. display equipment according to claim 1, the corresponding luminescence component subset and display module subset can match Including：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state；And/or

When each display module subset is in dispaly state, corresponding luminescence component subset is in luminance.

3. display equipment according to claim 1, the display module subset includes multiple in the display module set The display module being continuously arranged；Wherein, it includes multiple display module that the display module, which is integrated into display image, Collection shows corresponding topography in an orderly manner；

Wherein, multiple luminescence component subsets match the display module subset setting.

4. display equipment according to claim 1 or 3, multiple display module subsets are set gradually along longitudinal direction；It is multiple The luminescence component subset corresponds to multiple display module subsets and sets gradually along longitudinal direction respectively；The first mode and second Pattern match includes：Multiple luminescence component subsets sequentially enter luminance, multiple display module subsets along longitudinal direction Dispaly state is sequentially entered along longitudinal direction；Or

Multiple display module subsets are transversely set gradually；Multiple luminescence component subsets correspond to multiple described aobvious respectively Show that subset of components is transversely set gradually；The first mode matched with second mode including：Multiple luminescence component subsets Luminance is transversely sequentially entered, multiple display module subsets transversely sequentially enter dispaly state.

5. display equipment according to claim 1, the corresponding luminescence component subset and display module subset energy Matching includes：

The glow frequency and the display frequency of the display module subset of the corresponding luminescence component subset match.

6. display equipment according to claim 5, glow frequency and the display of the corresponding luminescence component subset The display frequency of subset of components, which matches, further includes：

Corresponding luminescence component subset matches at the time of entering dispaly state with display module subset at the time of entering luminance；

The luminous duration of the single of the luminescence component subset and the single of the corresponding display module subset show duration matching.

7. display equipment according to claim 1, the display equipment further include:

Detection device, the setting form for detecting the luminescence component subset；

Processing unit, for determining the display module subset corresponding with each luminescence component subset according to testing result Composition form；Or

Detection device, the display strategy for detecting the display module subset；

Processing unit, the composition form for determining the luminescence component subset corresponding with each display module subset.

8. a kind of display methods, including：

Obtain a frame image to be shown；

Multiple luminescence component subsets shine according to first mode, wherein the luminescence component subset is the one of luminescence component set Part, and each luminescence component subset includes at least one luminescence component, and the corresponding different display sub-districts for showing equipment Domain；

Multiple display module subsets are shown according to second mode, wherein the display module subset is the one of display module set Partly and include at least one display module, and the display module set shows described image, the display group for corresponding Part set is located in the range of exposures of luminescence component set；

Wherein, the first mode is matched with second mode, so that the corresponding luminescence component subset and display module subset It can matching.

9. according to the method described in claim 8, it is characterized in that, the corresponding luminescence component subset and display module subset It can match and include：

The display module subset of luminescence component subset irradiation in luminance is in dispaly state；And/or

When each display module subset is in dispaly state, corresponding luminescence component subset is in luminance.

10. according to the method described in claim 8, it is characterized in that, further including：

It detects the setting form of the luminescence component subset, and determines the display group corresponding with each luminescence component subset The composition form of part subset；Or

The display strategy of the display module subset is detected, and determination is described luminous group corresponding with each display module subset The composition form of part subset.