TWI499838B - Display device - Google Patents

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Publication number
TWI499838B
TWI499838B TW102123270A TW102123270A TWI499838B TW I499838 B TWI499838 B TW I499838B TW 102123270 A TW102123270 A TW 102123270A TW 102123270 A TW102123270 A TW 102123270A TW I499838 B TWI499838 B TW I499838B
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Taiwan
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display panel
shielding pattern
light
display device
pattern
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TW102123270A
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Chinese (zh)
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TW201500811A (en
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Chih Wei Chien
Chun Hao Huang
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Au Optronics Corp
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Priority to TW102123270A priority Critical patent/TWI499838B/en
Priority to CN201310337141.8A priority patent/CN103487980B/en
Priority to JP2013237668A priority patent/JP5781142B2/en
Publication of TW201500811A publication Critical patent/TW201500811A/en
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Publication of TWI499838B publication Critical patent/TWI499838B/en

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Description

顯示裝置Display device

本發明是有關於一種顯示裝置,且特別是有關於一種的具有兩個顯示面板的顯示裝置。The present invention relates to a display device, and more particularly to a display device having two display panels.

隨著日新月異的科技發展,顯示面板於今日社會已是隨處可見,並廣泛的運用在各種如平板電腦、智慧型手機或液晶電視等的產品中。With the rapid development of technology, display panels are widely available in today's society and are widely used in various products such as tablet computers, smart phones or LCD TVs.

顯示面板依光源利用型態可分為反射式顯示器(包括半穿透半反顯示面板)及穿透式顯示面板(Transmissive Display)。穿透式顯示面板本身具有一定程度的穿透性,能夠清楚顯示面板後方的背景。因此,透過在穿透式顯示面板後配置其他顯示面板,觀看者可看見不同影像重疊的畫面。The display panel can be classified into a reflective display (including a transflective display panel) and a transmissive display panel (Transmissive Display) depending on the light source utilization type. The transmissive display panel itself has a degree of penetration that clearly shows the background behind the panel. Therefore, by arranging other display panels behind the transmissive display panel, the viewer can see the images with different images overlapping.

然而,由於顯示面板中包括許多具有相同週期性圖案的構件,導致兩個顯示面板重疊時,使用者容易看到固定間隔的明暗紋路變化,而產生所謂的疊紋(Moire)現象。如此一來,嚴重影響顯示面板所提供的顯示品質。However, since the display panel includes a plurality of members having the same periodic pattern, when the two display panels overlap, the user easily sees the fixed interval of the light and dark texture changes, resulting in a so-called Moire phenomenon. As a result, the display quality provided by the display panel is seriously affected.

本發明提供一種顯示裝置,其可減輕疊紋現象進而提供良好的顯示品質。The present invention provides a display device that can alleviate the phenomenon of moiré and thereby provide good display quality.

本發明提出一種顯示裝置,其包括第一顯示面板以及第二顯示面板。第一顯示面板包括第一畫素陣列、第一彩色濾光陣列、第一遮光圖案以及第一擬遮光圖案。第一彩色濾光陣列對應第一畫素陣列設置。第一遮光圖案對應第一彩色濾光陣列設置。第一擬遮光圖案對應第一遮光圖案設置,其中第一擬遮光圖案具有第一斜邊。第一斜邊與第一遮光圖案之間具有第一夾角,且第一夾角不等於0度、90度或180度。第二顯示面板與第一顯示面板重疊設置,且第一顯示面板與第二顯示面板之間相距一距離。第二顯示面板包括第二畫素陣列、第二彩色濾光陣列以及第二遮光圖案。第二彩色濾光陣列對應第二畫素陣列設置。第二遮光圖案對應第二彩色濾光陣列設置。The present invention provides a display device including a first display panel and a second display panel. The first display panel includes a first pixel array, a first color filter array, a first light shielding pattern, and a first pseudo light shielding pattern. The first color filter array corresponds to the first pixel array setting. The first light shielding pattern is disposed corresponding to the first color filter array. The first pseudo-shielding pattern corresponds to the first shading pattern setting, wherein the first pseudo-shielding pattern has a first oblique side. The first oblique side has a first angle with the first light shielding pattern, and the first angle is not equal to 0 degrees, 90 degrees or 180 degrees. The second display panel is disposed to overlap with the first display panel, and the first display panel and the second display panel are separated by a distance. The second display panel includes a second pixel array, a second color filter array, and a second light shielding pattern. The second color filter array corresponds to the second pixel array setting. The second light shielding pattern is disposed corresponding to the second color filter array.

本發明另提出一種顯示裝置,其包括第一顯示面板以及第二顯示面板。第一顯示面板包括第一畫素陣列、第一彩色濾光陣列以及第一遮光圖案。第一彩色濾光陣列對應第一畫素陣列設置。第一遮光圖案對應第一彩色濾光陣列設置。第二顯示面板對應第一顯示面板設置,且第一顯示面板與第二顯示面板之間相距一距離。第二顯示面板包括第二畫素陣列、第二彩色濾光陣列、第二遮光圖案以及擬遮光圖案。第二彩色濾光陣列對應第二畫素陣列設置。第二遮光圖案對應第二彩色濾光陣列設置。擬遮光圖 案位於第二遮光圖案之中,以使第二遮光圖案所定義出的每一個單元區域進一步分成多個次單元區域。The present invention further provides a display device including a first display panel and a second display panel. The first display panel includes a first pixel array, a first color filter array, and a first light shielding pattern. The first color filter array corresponds to the first pixel array setting. The first light shielding pattern is disposed corresponding to the first color filter array. The second display panel corresponds to the first display panel, and the first display panel and the second display panel are separated by a distance. The second display panel includes a second pixel array, a second color filter array, a second light shielding pattern, and a pseudo light shielding pattern. The second color filter array corresponds to the second pixel array setting. The second light shielding pattern is disposed corresponding to the second color filter array. Quasi-shading The case is located in the second shading pattern such that each unit area defined by the second shading pattern is further divided into a plurality of sub-unit areas.

基於上述,在本發明之實施例提出的顯示裝置中,藉由在濾光層中設置擬遮光圖案,即可得到與其他構件不一致的週期性圖案,藉以減輕疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, in the display device provided by the embodiment of the present invention, by providing a pseudo-shielding pattern in the filter layer, a periodic pattern that is inconsistent with other members can be obtained, thereby reducing the moiré phenomenon and providing a good display. Quality and slow down the user's visual discomfort.

為讓本發明的上述特徵和優點能更明顯易懂,下文特舉實施例,並配合所附圖式作詳細說明如下。The above described features and advantages of the invention will be apparent from the following description.

100‧‧‧穿透式顯示面板100‧‧‧Transmissive display panel

102、202‧‧‧第一基板102, 202‧‧‧ first substrate

104、204‧‧‧畫素陣列104, 204‧‧‧ pixel array

106、206‧‧‧顯示介質106, 206‧‧‧ Display media

108、208‧‧‧濾光層108, 208‧‧‧ filter layer

110、210‧‧‧第二基板110, 210‧‧‧ second substrate

120‧‧‧掃描線120‧‧‧ scan line

130‧‧‧資料線130‧‧‧Information line

140‧‧‧畫素單元140‧‧‧ pixel unit

142‧‧‧主動元件142‧‧‧Active components

144‧‧‧畫素電極144‧‧‧ pixel electrodes

150、250、350、450、550、650‧‧‧彩色濾光陣列150, 250, 350, 450, 550, 650 ‧ ‧ color filter array

160、260、360、460、560、660‧‧‧遮光圖案160, 260, 360, 460, 560, 660‧‧‧ shading patterns

162、262、362、462、562、662‧‧‧單元區域162, 262, 362, 462, 562, 662 ‧ ‧ unit areas

164、166、264、266、364、366、464、466、564、566、664、666‧‧‧部分遮光圖案164, 166, 264, 266, 364, 366, 464, 466, 564, 566, 664, 666 ‧ ‧ partial opaque pattern

170、370、470、570、670‧‧‧擬遮光圖案170, 370, 470, 570, 670‧‧‧

172‧‧‧斜邊172‧‧‧ oblique side

200‧‧‧顯示面板200‧‧‧ display panel

300‧‧‧背光模組300‧‧‧Backlight module

372、472、572、672‧‧‧次單元區域372, 472, 572, 672 ‧ ‧ unit areas

400‧‧‧殼體400‧‧‧shell

401‧‧‧開口401‧‧‧ openings

402‧‧‧光源402‧‧‧Light source

1000‧‧‧顯示裝置1000‧‧‧ display device

B‧‧‧藍色濾光圖案B‧‧‧Blue filter pattern

D‧‧‧距離D‧‧‧Distance

G‧‧‧綠色濾光圖案G‧‧‧Green filter pattern

R‧‧‧紅色濾光圖案R‧‧‧ red filter pattern

W‧‧‧無色圖案W‧‧‧ colorless pattern

X、Y‧‧‧方向X, Y‧‧ direction

θ1、θ2‧‧‧夾角Θ1, θ2‧‧‧ angle

圖1為本發明一實施例的顯示裝置的剖面示意圖。1 is a cross-sectional view of a display device in accordance with an embodiment of the present invention.

圖2為本發明一實施例的畫素陣列的上視示意圖。2 is a top plan view of a pixel array in accordance with an embodiment of the present invention.

圖3為本發明一實施例的濾光層的上視示意圖。3 is a top plan view of a filter layer according to an embodiment of the invention.

圖4為本發明一實施例的濾光層的上視示意圖。4 is a top plan view of a filter layer according to an embodiment of the invention.

圖5為本發明一實施例的濾光層的上視示意圖。FIG. 5 is a top plan view of a filter layer according to an embodiment of the invention.

圖6為本發明一實施例的濾光層的上視示意圖。FIG. 6 is a top plan view of a filter layer according to an embodiment of the invention.

圖7為本發明一實施例的濾光層的上視示意圖。FIG. 7 is a top plan view of a filter layer according to an embodiment of the invention.

圖8為本發明一實施例的濾光層的上視示意圖。Figure 8 is a top plan view of a filter layer in accordance with an embodiment of the present invention.

以下,提出數個實施例的顯示裝置,透過擬遮光圖案的 設置來減輕因週期性圖案所造成的疊紋現象。值得注意的是,以下揭露的數個實施例僅是舉例說明之用,並非用以侷限本發明的範疇。Hereinafter, a display device of several embodiments is provided through a pseudo light shielding pattern Set to mitigate moiré caused by periodic patterns. It is noted that the several embodiments disclosed below are for illustrative purposes only and are not intended to limit the scope of the invention.

第一實施例First embodiment

圖1繪示為本發明一實施例的顯示裝置的剖面示意圖。1 is a cross-sectional view of a display device in accordance with an embodiment of the present invention.

請參照圖1,第一實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。顯示裝置1000包括穿透式顯示面板100以及顯示面板200。在本實施例中,顯示裝置1000更包括背光模組300、殼體400以及光源402。此處所述之顯示裝置1000可例如為遊戲機或販賣機等機器中的顯示裝置。值得注意的是,圖1僅示作為解說之用,並非用以限定本發明,且亦未詳盡繪示出各構件的細部結構。另外,值得注意的是,本發明的顯示裝置1000並不以圖1中所繪者為限。本發明的顯示裝置1000也可以包括大於兩個顯示面板。舉例而言,本發明的顯示裝置也可以包括一個大尺寸的穿透式顯示面板(例如27吋),以及兩個小尺寸的顯示面板(例如4.3吋及15吋)。從另一觀點而言,本發明的顯示裝置1000所包括的穿透式顯示面板及顯示面板的尺寸可以不相同。Referring to FIG. 1, the display device of the first embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device 1000 includes a transmissive display panel 100 and a display panel 200. In the embodiment, the display device 1000 further includes a backlight module 300, a housing 400, and a light source 402. The display device 1000 described herein may be, for example, a display device in a machine such as a game machine or a vending machine. It is to be noted that FIG. 1 is only for illustrative purposes, and is not intended to limit the present invention, and the detailed structure of each member is not shown in detail. In addition, it is to be noted that the display device 1000 of the present invention is not limited to those depicted in FIG. The display device 1000 of the present invention may also include more than two display panels. For example, the display device of the present invention may also include a large-sized transmissive display panel (for example, 27 turns) and two small-sized display panels (for example, 4.3 inches and 15 turns). From another point of view, the size of the transmissive display panel and the display panel included in the display device 1000 of the present invention may be different.

在第一實施例中,殼體400包括開口401。穿透式顯示面板100裝設於殼體400的開口401上。顯示面板200裝設於殼體400內並位於穿透式顯示面板100的背面。詳言之,穿透式顯示面板100與顯示面板200重疊設置,並且穿透式顯示面板100與顯示面板200之間相距一距離D。如此一來,顯示裝置1000可將穿 透式顯示面板100與顯示面板200所呈現之影像的重疊畫面提供給使用者。In the first embodiment, the housing 400 includes an opening 401. The transmissive display panel 100 is mounted on the opening 401 of the housing 400. The display panel 200 is mounted in the housing 400 and is located on the back of the transmissive display panel 100. In detail, the transmissive display panel 100 is disposed overlapping the display panel 200, and the transmissive display panel 100 is spaced apart from the display panel 200 by a distance D. In this way, the display device 1000 can be worn An overlay of the image displayed by the transmissive display panel 100 and the display panel 200 is provided to the user.

在第一實施例中,光源402設置於殼體400內,以提供穿透式顯示面板100所需的光源。在第一實施例中,光源402例如是發光二極體(light emitting diode)燈泡、冷陰極螢光燈泡(cold cathode fluorescent lamp,CCFL)或其他適當之發光元件。背光模組300設置於殼體400內,且位於顯示面板200的背面,以提供顯示面板200所需的光源。然而,本發明並不限於此。在其他實施例中,背光模組300也可以提供穿透式顯示面板100所需的光源。換言之,本發明的顯示裝置可以不設置有光源402。詳細的背光模組結構為所屬領域中具有通常知識者所熟知,因此不再贅述。In the first embodiment, the light source 402 is disposed within the housing 400 to provide a light source required for the transmissive display panel 100. In the first embodiment, the light source 402 is, for example, a light emitting diode bulb, a cold cathode fluorescent lamp (CCFL), or other suitable illuminating element. The backlight module 300 is disposed in the housing 400 and located on the back of the display panel 200 to provide a light source required for the display panel 200. However, the invention is not limited thereto. In other embodiments, the backlight module 300 can also provide a light source required for the transmissive display panel 100. In other words, the display device of the present invention may not be provided with the light source 402. Detailed backlight module structures are well known to those of ordinary skill in the art and will not be described again.

如此一來,在第一實施例中,穿透式顯示面板100與顯示面板200皆為非自發光顯示面板,例如液晶顯示面板。然而,本發明並不限於此。在其他實施例中,穿透式顯示面板100與顯示面板200亦可以是自發光顯示面板,例如有機發光顯示面板。換言之,顯示裝置1000可以不具有背光模組300及光源402或可以不具兩者中的一者。As such, in the first embodiment, the transmissive display panel 100 and the display panel 200 are both non-self-luminous display panels, such as liquid crystal display panels. However, the invention is not limited thereto. In other embodiments, the transmissive display panel 100 and the display panel 200 may also be self-illuminating display panels, such as an organic light emitting display panel. In other words, the display device 1000 may not have the backlight module 300 and the light source 402 or may not have one of the two.

在第一實施例中,穿透式顯示面板100包括第一基板102、畫素陣列104、顯示介質106、濾光層108以及第二基板110。第一基板102與第二基板110彼此相對。第一基板102與第二基板110例如是玻璃基板、塑膠基板、可撓基板或其他合適的基板。顯示介質106配置於第一基板102與第二基板110之間。畫素陣 列104配置於第一基板102上且位於第一基板102與顯示介質106之間,而濾光層108配置於第二基板110上且位於第二基板110與顯示介質106之間。In the first embodiment, the transmissive display panel 100 includes a first substrate 102, a pixel array 104, a display medium 106, a filter layer 108, and a second substrate 110. The first substrate 102 and the second substrate 110 are opposed to each other. The first substrate 102 and the second substrate 110 are, for example, a glass substrate, a plastic substrate, a flexible substrate, or other suitable substrate. The display medium 106 is disposed between the first substrate 102 and the second substrate 110. Painting matrix The column 104 is disposed on the first substrate 102 and between the first substrate 102 and the display medium 106 , and the filter layer 108 is disposed on the second substrate 110 and between the second substrate 110 and the display medium 106 .

在第一實施例中,穿透式顯示面板100例如是液晶顯示面板。如此一來,顯示介質106例如是液晶材料。但本發明並不限於此,如上所述,在其他實施例中,穿透式顯示面板100亦可以是有機發光顯示面板,則顯示介質106亦可以是有機發光二極體材料。詳細的顯示材料為所屬領域中具有通常知識者所熟知,因此不再贅述。In the first embodiment, the transmissive display panel 100 is, for example, a liquid crystal display panel. As such, the display medium 106 is, for example, a liquid crystal material. However, the present invention is not limited thereto. As described above, in other embodiments, the transmissive display panel 100 may also be an organic light emitting display panel, and the display medium 106 may also be an organic light emitting diode material. Detailed display materials are well known to those of ordinary skill in the art and therefore will not be described again.

第一實施例中的畫素陣列104的細部結構可使用圖2所示的畫素陣列的結構來實現。圖2為本發明一實施例的畫素陣列的上視示意圖。圖2的畫素陣列包括多條掃描線120、多條資料線130以及多個畫素單元140。The detailed structure of the pixel array 104 in the first embodiment can be realized using the structure of the pixel array shown in FIG. 2. 2 is a top plan view of a pixel array in accordance with an embodiment of the present invention. The pixel array of FIG. 2 includes a plurality of scan lines 120, a plurality of data lines 130, and a plurality of pixel units 140.

以下請同時參照圖1及圖2,掃描線120配置於第一基板102上且沿X方向延伸。資料線130配置於第一基板102上且沿Y方向延伸。一般來說,每一畫素單元140包括主動元件142以及與主動元件142電性連接的畫素電極144,且每一畫素單元140經由主動元件142與對應的掃描線120以及資料線130電性連接。主動元件142例如是薄膜電晶體。另外,畫素單元140可以是所屬領域中具有通常知識者所周知的任一畫素單元,故本發明的畫素單元140並不以圖2中所繪者為限。Referring to FIG. 1 and FIG. 2 simultaneously, the scanning line 120 is disposed on the first substrate 102 and extends in the X direction. The data line 130 is disposed on the first substrate 102 and extends in the Y direction. Generally, each pixel unit 140 includes an active component 142 and a pixel electrode 144 electrically connected to the active component 142, and each pixel unit 140 is electrically connected to the corresponding scan line 120 and data line 130 via the active component 142. Sexual connection. The active element 142 is, for example, a thin film transistor. In addition, the pixel unit 140 may be any pixel unit known to those skilled in the art, and thus the pixel unit 140 of the present invention is not limited to those depicted in FIG. 2.

第一實施例中的濾光層108的細部結構可使用圖3所示 的濾光層的結構來實現。圖3為本發明一實施例的濾光層的上視示意圖。圖3的濾光層包括彩色濾光陣列150、遮光圖案160以及擬遮光圖案170。The detailed structure of the filter layer 108 in the first embodiment can be as shown in FIG. The structure of the filter layer is realized. 3 is a top plan view of a filter layer according to an embodiment of the invention. The filter layer of FIG. 3 includes a color filter array 150, a light blocking pattern 160, and a pseudo light blocking pattern 170.

以下,請同時參照圖1、圖2以及圖3,遮光圖案160在第二基板110上定義出與畫素單元140對應的多個單元區域162。換言之,遮光圖案160具有沿X方向延伸的部分遮光圖案164以及沿Y方向延伸的部分遮光圖案166,其中在空間上,部分遮光圖案164與掃描線120重疊,而部分遮光圖案166與資料線130重疊。然而,所屬領域中具有通常知識者應理解,部分遮光圖案164與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案166與資料線130也可以是完全重疊或是部分重疊。遮光圖案160的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。另外,遮光圖案160對應彩色濾光陣列150而設置,相關詳細描述將於下文中說明。Hereinafter, referring to FIG. 1 , FIG. 2 and FIG. 3 simultaneously, the light shielding pattern 160 defines a plurality of unit regions 162 corresponding to the pixel unit 140 on the second substrate 110 . In other words, the light shielding pattern 160 has a partial light shielding pattern 164 extending in the X direction and a partial light shielding pattern 166 extending in the Y direction, wherein the partial light shielding pattern 164 is spatially overlapped with the scanning line 120, and the partial light shielding pattern 166 and the data line 130 are overlapped. overlapping. However, those of ordinary skill in the art should understand that the partial light-shielding patterns 164 and the scan lines 120 may be completely overlapped or partially overlap, and the partial light-shielding patterns 166 and the data lines 130 may also be completely overlapped or partially overlapped. The material of the light-shielding pattern 160 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 160 is disposed corresponding to the color filter array 150, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列104中不透光的區域。因此,遮光圖案160一般是對應掃描線120以及資料線130來設置,以避免影像顯示品質受到不良的影響。In general, the scan line 120 and the data line 130 are located in an area that is opaque in the pixel array 104. Therefore, the light shielding pattern 160 is generally disposed corresponding to the scan line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列150對應畫素陣列104而設置。一般而言,彩色濾光陣列150可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖案或是無色圖案W。詳細而言,請同時參照圖2及圖3,彩色濾 光陣列150的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案160所定義的多個單元區域162分別對應設置彩色濾光陣列150的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列150並不以圖3中所繪者為限。The color filter array 150 is provided corresponding to the pixel array 104. In general, the color filter array 150 may include a plurality of color filter patterns, including, for example, a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns or a colorless pattern W. . In detail, please refer to Figure 2 and Figure 3 at the same time, color filter The plurality of color filter patterns of the light array 150 correspond to one of the pixel units 140, respectively. That is to say, the plurality of unit regions 162 defined by the light shielding patterns 160 respectively correspond to the plurality of color filter patterns of the color filter array 150. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 150 of the present invention is not limited to those depicted in FIG.

擬遮光圖案170對應遮光圖案160而設置。詳細而言,如圖3所示,擬遮光圖案170為對應設置在單元區域162中之四個角落的三角形圖案。此外,擬遮光圖案170具有一斜邊172,且此斜邊172與遮光圖案160之間具有夾角θ1,其中夾角θ1不等於0度、90度或180度。詳細而言,如圖3所示,夾角θ1表示為斜邊172與部分遮光圖案164之間所形成的銳角。但是,本發明並不限於此。舉例而言,夾角θ1也可以是斜邊172與部分遮光圖案166之間所形成的任一夾角(未繪示)。從另一觀點而言,斜邊172所延伸的方向可與X方向或Y方向之間形成夾角θ1。另外,雖然圖3繪示的是夾角θ1等於45度時的結構,但本發明並不限於此,只要擬遮光圖案170的斜邊172與遮光圖案160之間的夾角不等於0度、90度或180度的結構皆落入本發明的範疇。The pseudo light shielding pattern 170 is provided corresponding to the light shielding pattern 160. In detail, as shown in FIG. 3, the pseudo light-shielding pattern 170 is a triangular pattern corresponding to four corners provided in the unit region 162. In addition, the pseudo-shielding pattern 170 has a beveled edge 172, and the beveled edge 172 has an angle θ1 with the light-shielding pattern 160, wherein the included angle θ1 is not equal to 0 degrees, 90 degrees, or 180 degrees. In detail, as shown in FIG. 3, the angle θ1 is expressed as an acute angle formed between the oblique side 172 and the partial light shielding pattern 164. However, the invention is not limited thereto. For example, the angle θ1 may also be any angle formed between the oblique side 172 and the partial light shielding pattern 166 (not shown). From another point of view, the direction in which the oblique side 172 extends may form an angle θ1 with the X direction or the Y direction. In addition, although FIG. 3 illustrates the structure when the angle θ1 is equal to 45 degrees, the present invention is not limited thereto, as long as the angle between the oblique side 172 of the pseudo light-shielding pattern 170 and the light-shielding pattern 160 is not equal to 0 degrees and 90 degrees. Or a structure of 180 degrees falls within the scope of the present invention.

另外,擬遮光圖案170與遮光圖案160為同一層膜層,且擬遮光圖案170的材質與遮光圖案160的材質相同。換言之,在第一實施例中,透過同一微影與蝕刻製程即可同時形成濾光層108中的遮光圖案160與擬遮光圖案170。遮光圖案160可遮蔽顯 示效果不佳的區域,擬遮光圖案170則是可減輕因週期性圖案而造成的疊紋現象。In addition, the light-shielding pattern 170 and the light-shielding pattern 160 are the same film layer, and the material of the light-shielding pattern 170 is the same as the material of the light-shielding pattern 160. In other words, in the first embodiment, the light shielding pattern 160 and the pseudo light shielding pattern 170 in the filter layer 108 can be simultaneously formed through the same lithography and etching process. The shading pattern 160 can shield the display In the area where the effect is not good, the pseudo-shielding pattern 170 can reduce the phenomenon of moiré caused by the periodic pattern.

請再次參照圖1,在第一實施例中,顯示面板200包括第一基板202、畫素陣列204、顯示介質206、濾光層208以及第二基板210。第一基板202與第二基板210彼此相對。第一基板202與第二基板210例如是玻璃基板、塑膠基板、可撓基板或其他合適的基板。顯示介質206配置於第一基板202與第二基板210之間。畫素陣列204配置於第一基板202上且位於第一基板202與顯示介質206之間,而濾光層208配置於第二基板210上且位於第二基板210與顯示介質206之間。Referring to FIG. 1 again, in the first embodiment, the display panel 200 includes a first substrate 202, a pixel array 204, a display medium 206, a filter layer 208, and a second substrate 210. The first substrate 202 and the second substrate 210 are opposed to each other. The first substrate 202 and the second substrate 210 are, for example, a glass substrate, a plastic substrate, a flexible substrate, or other suitable substrate. The display medium 206 is disposed between the first substrate 202 and the second substrate 210. The pixel array 204 is disposed on the first substrate 202 and between the first substrate 202 and the display medium 206 , and the filter layer 208 is disposed on the second substrate 210 and between the second substrate 210 and the display medium 206 .

在第一實施例中,顯示面板200例如是液晶顯示面板。如此一來,顯示介質206例如是液晶材料。但本發明並不限於此,如上所述,在其他實施例中,顯示面板200亦可以是有機發光顯示面板,則顯示介質206亦可以是有機發光二極體材料。詳細的顯示材料為所屬領域中具有通常知識者所熟知,因此不再贅述。In the first embodiment, the display panel 200 is, for example, a liquid crystal display panel. As such, the display medium 206 is, for example, a liquid crystal material. However, the present invention is not limited thereto. As described above, in other embodiments, the display panel 200 may also be an organic light emitting display panel, and the display medium 206 may also be an organic light emitting diode material. Detailed display materials are well known to those of ordinary skill in the art and therefore will not be described again.

第一實施例中的畫素陣列204的細部結構可採用類似於畫素陣列104的結構來實現。換言之,畫素陣列204亦可使用圖2所示的畫素陣列的結構來實現。如此一來,在第一實施例中,畫素陣列204與畫素陣列104的畫素單元數目一致,因而畫素陣列204與畫素陣列104具有相同的週期性圖案。然而,本發明並不限於此。在其他實施例中,畫素陣列204與畫素陣列104的畫素單元數目及大小皆可不一致,因而畫素陣列204與畫素陣列104可 具有不同的週期性圖案。舉例而言,在畫素陣列104使用圖2所示的畫素陣列的結構來實現的情況下,畫素陣列204可以是使用一般RGB的排列方式來實現。另外,關於畫素陣列204的細部結構說明,請參照圖2及其相關揭露內容,於此不再贅述。The detailed structure of the pixel array 204 in the first embodiment can be realized by a structure similar to the pixel array 104. In other words, the pixel array 204 can also be implemented using the structure of the pixel array shown in FIG. 2. As such, in the first embodiment, the pixel array 204 has the same number of pixel units as the pixel array 104, and thus the pixel array 204 and the pixel array 104 have the same periodic pattern. However, the invention is not limited thereto. In other embodiments, the number and size of the pixel units of the pixel array 204 and the pixel array 104 may be different, and thus the pixel array 204 and the pixel array 104 may be Have different periodic patterns. For example, where the pixel array 104 is implemented using the structure of the pixel array shown in FIG. 2, the pixel array 204 can be implemented using a general RGB arrangement. For details of the detailed structure of the pixel array 204, please refer to FIG. 2 and related disclosures, and details are not described herein again.

第一實施例中的濾光層208的細部結構可使用圖4所示的濾光層的結構來實現。圖4為本發明一實施例的濾光層的上視示意圖。圖4的濾光層包括彩色濾光陣列250以及遮光圖案260。The detailed structure of the filter layer 208 in the first embodiment can be realized using the structure of the filter layer shown in FIG. 4 is a top plan view of a filter layer according to an embodiment of the invention. The filter layer of FIG. 4 includes a color filter array 250 and a light blocking pattern 260.

以下,請同時參照圖1、圖2及圖4,遮光圖案260在第二基板210上定義出與畫素單元140對應的多個單元區域262。換言之,遮光圖案260所定義出的單元區域262數目會與遮光圖案160所定義出的單元區域162數目一致。然而,本發明並不限於此。如上所述,在畫素陣列204與畫素陣列104的畫素單元數目不一致的情況下,遮光圖案260所定義出的單元區域262數目亦會與遮光圖案160所定義出的單元區域162數目不一致。Hereinafter, referring to FIG. 1 , FIG. 2 and FIG. 4 simultaneously, the light shielding pattern 260 defines a plurality of unit regions 262 corresponding to the pixel unit 140 on the second substrate 210 . In other words, the number of unit regions 262 defined by the light shielding patterns 260 may coincide with the number of unit regions 162 defined by the light shielding patterns 160. However, the invention is not limited thereto. As described above, in the case where the number of pixel units of the pixel array 204 and the pixel array 104 do not match, the number of unit regions 262 defined by the light shielding pattern 260 may also be different from the number of unit regions 162 defined by the light shielding pattern 160. .

進一步而言,遮光圖案260具有對應於部分遮光圖案164且同樣沿X方向延伸的部分遮光圖案264,以及對應於部分遮光圖案166且同樣沿Y方向延伸的部分遮光圖案266,其中在空間上,部分遮光圖案264與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案266與資料線130也可以是完全重疊或是部分重疊。如此一來,畫素陣列204、畫素陣列104、遮光圖案160與遮光圖案260皆具有相同的週期性圖案。遮光圖案260的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。 另外,遮光圖案260對應彩色濾光陣列250而設置,相關詳細描述將於下文中說明。Further, the light shielding pattern 260 has a partial light shielding pattern 264 corresponding to the partial light shielding pattern 164 and also extending in the X direction, and a partial light shielding pattern 266 corresponding to the partial light shielding pattern 166 and also extending in the Y direction, wherein, in space, The partial light-shielding pattern 264 and the scan line 120 may be completely overlapped or partially overlapped, and the partial light-shielding pattern 266 and the data line 130 may also be completely overlapped or partially overlapped. As a result, the pixel array 204, the pixel array 104, the light shielding pattern 160 and the light shielding pattern 260 all have the same periodic pattern. The material of the light shielding pattern 260 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 260 is disposed corresponding to the color filter array 250, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列204中不透光的區域。因此,遮光圖案260一般是對應掃描線120以及資料線130來設置,以避免影像顯示品質受到不良的影響。In general, the locations of scan lines 120 and data lines 130 are areas of the pixel array 204 that are opaque. Therefore, the light shielding pattern 260 is generally disposed corresponding to the scan line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列250對應畫素陣列204而設置。一般而言,彩色濾光陣列250可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖案或是無色圖案W。詳細而言,請同時參照圖2及圖4,彩色濾光陣列250的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案260所定義的多個單元區域262分別對應設置彩色濾光陣列250的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列250並不以圖4中所繪者為限。The color filter array 250 is provided corresponding to the pixel array 204. In general, the color filter array 250 may include a plurality of color filter patterns, for example, including a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns or a colorless pattern W. . In detail, referring to FIG. 2 and FIG. 4 simultaneously, the plurality of color filter patterns of the color filter array 250 respectively correspond to one of the pixel units 140. That is to say, the plurality of unit regions 262 defined by the light shielding patterns 260 respectively correspond to the plurality of color filter patterns of the color filter array 250. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 250 of the present invention is not limited to those depicted in FIG.

基於上述可知,在不需使用額外光罩的情況下,本發明之第一實施例透過設置在濾光層108中的擬遮光圖案170,即可減輕由濾光層108中的遮光圖案160與濾光層208中的遮光圖案260造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, the first embodiment of the present invention can alleviate the light-shielding pattern 160 in the filter layer 108 by the pseudo-shielding pattern 170 disposed in the filter layer 108 without using an additional mask. The phenomenon of moiré caused by the light-shielding pattern 260 in the filter layer 208, thereby providing good display quality and reducing the visual discomfort of the user.

上述第一實施例是使穿透式顯示面板100中的濾光層 108設置有擬遮光圖案170來達到減輕疊紋現象的目的,然而本發明並不以此為限。根據其他實施例,穿透式顯示面板100中的濾光層108及顯示面板200中的濾光層208彼此之間還可以其他不同於第一實施例的搭配方式來佈局,說明如下。The first embodiment described above is to make the filter layer in the transmissive display panel 100 108 is provided with a pseudo-shielding pattern 170 for the purpose of reducing the moiré phenomenon, but the invention is not limited thereto. According to other embodiments, the filter layer 108 in the transmissive display panel 100 and the filter layer 208 in the display panel 200 may be arranged with each other in a different manner from the first embodiment, as explained below.

第二實施例Second embodiment

請參照圖1,第二實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第二實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第二實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖4所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖3所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖3及圖4中畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the second embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the second embodiment is substantially the same as the display device of the first embodiment, the main difference being that, in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the second embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 4, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, efficiencies, and related descriptions of the various components of the display device 1000 of FIG. 1 and the materials, powers, and related descriptions of the various components of the pixel array of FIGS. 3 and 4 have been described in detail in the first embodiment above. Therefore, it will not be repeated here.

如此一來,在第二實施例中,透過在顯示面板200的濾光層208中設置擬遮光圖案170,可使得由濾光層208中的遮光圖案160與濾光層108中的遮光圖案260所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。In this way, in the second embodiment, by providing the pseudo-shielding pattern 170 in the filter layer 208 of the display panel 200, the shading pattern 160 in the filter layer 208 and the shading pattern 260 in the filter layer 108 can be caused. The resulting moiré is reduced, thereby providing good display quality and reducing the user's visual discomfort.

第三實施例Third embodiment

請參照圖1,第三實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第三實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第三實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構也是使用圖3所示的濾光層的結構來實現。詳細而言,在濾光層108與濾光層208皆以圖3所示的濾光層來實現的情況下,亦即在濾光層108與濾光層208中皆設置有擬遮光圖案170的情況下,濾光層108與濾光層208的結構彼此之間必須不相同。舉例而言,濾光層108與濾光層208中的擬遮光圖案170的斜邊與遮光圖案160之間的夾角θ1彼此之間不相同,且皆不等於0度、90度或180度。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖3中畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the third embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the third embodiment is substantially the same as the display device of the first embodiment, and the main difference is that in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the third embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 3, and the detailed structure of the filter layer 208 of the display panel 200 is also realized by the structure of the filter layer shown in FIG. In detail, in the case where both the filter layer 108 and the filter layer 208 are implemented by the filter layer shown in FIG. 3, that is, the filter layer 108 and the filter layer 208 are both provided with a pseudo-shielding pattern 170. In the case, the structures of the filter layer 108 and the filter layer 208 must be different from each other. For example, the angle θ1 between the beveled edge of the filter layer 108 and the light-shielding pattern 170 in the filter layer 208 and the light-shielding pattern 160 are different from each other, and are not equal to 0 degrees, 90 degrees, or 180 degrees. The materials, efficiencies, and related descriptions of the various components of the display device 1000 of FIG. 1, and the materials, powers, and related descriptions of the various components of the pixel array of FIG. 3 have been described in detail in the first embodiment above. No longer.

如此一來,在第三實施例中,透過在濾光層108與濾光層208中皆設置擬遮光圖案170,且擬遮光圖案170彼此之間的結構不相同,可使得由濾光層108與濾光層208中的遮光圖案160 所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。In this way, in the third embodiment, the light-shielding pattern 170 is disposed in both the filter layer 108 and the filter layer 208, and the structures of the pseudo-shielding patterns 170 are different from each other, so that the filter layer 108 can be made. And the light shielding pattern 160 in the filter layer 208 The resulting moiré is reduced, thereby providing good display quality and reducing the user's visual discomfort.

上述第一實施例至第三實施例是使濾光層108與濾光層208中的一者或兩者設置有擬遮光圖案170來達到減輕疊紋現象的目的,然而本發明並不以此為限。根據其他實施例,穿透式顯示面板100中的濾光層108及顯示面板200中的濾光層208還可具有其他不同的結構設計及佈局,說明如下。The first embodiment to the third embodiment described above are such that one or both of the filter layer 108 and the filter layer 208 are provided with a pseudo-shielding pattern 170 to achieve the purpose of reducing the moiré phenomenon, but the present invention does not Limited. According to other embodiments, the filter layer 108 in the transmissive display panel 100 and the filter layer 208 in the display panel 200 may have other different structural designs and layouts, as explained below.

第四實施例Fourth embodiment

請參照圖1,第四實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第四實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第四實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖5所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4所示之畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the fourth embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the fourth embodiment is substantially the same as the display device of the first embodiment, and the main difference is that, in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the fourth embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 5, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, functions, and related descriptions of the components of the display device 1000 in FIG. 1 and the materials, functions, and related descriptions of the components of the pixel array shown in FIG. 4 have been described in detail in the first embodiment above. This will not be repeated here.

圖5為本發明一實施例的濾光層的上視示意圖。圖5的 濾光層包括彩色濾光陣列350、遮光圖案360以及擬遮光圖案370。FIG. 5 is a top plan view of a filter layer according to an embodiment of the invention. Figure 5 The filter layer includes a color filter array 350, a light blocking pattern 360, and a pseudo light blocking pattern 370.

請同時參照圖1、圖2及圖5,遮光圖案360在第二基板110上定義出與畫素單元140對應的多個單元區域362。也就是說,在第四實施例中,遮光圖案360所定義出的單元區域362數目會與圖4中之遮光圖案260所定義出的單元區域262數目一致。Referring to FIG. 1 , FIG. 2 and FIG. 5 simultaneously, the light shielding pattern 360 defines a plurality of unit regions 362 corresponding to the pixel unit 140 on the second substrate 110 . That is, in the fourth embodiment, the number of unit regions 362 defined by the light-shielding pattern 360 may coincide with the number of unit regions 262 defined by the light-shielding pattern 260 in FIG.

進一步而言,請同時參照圖4及圖5,遮光圖案360具有對應於部分遮光圖案364且同樣沿X方向延伸的部分遮光圖案364,以及對應於部分遮光圖案366且同樣沿Y方向延伸的部分遮光圖案366,其中在空間上,部分遮光圖案364與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案366與資料線130也可以是完全重疊或是部分重疊。如此一來,畫素陣列204、畫素陣列104、遮光圖案360與遮光圖案260皆具有相同的週期性圖案。遮光圖案360的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。另外,遮光圖案360對應彩色濾光陣列350而設置,相關詳細描述將於下文中說明。Further, referring to FIG. 4 and FIG. 5 simultaneously, the light shielding pattern 360 has a partial light shielding pattern 364 corresponding to the partial light shielding pattern 364 and also extending in the X direction, and a portion corresponding to the partial light shielding pattern 366 and also extending in the Y direction. The light-shielding pattern 366, wherein the partial light-shielding patterns 364 and the scan lines 120 may be completely overlapped or partially overlapped, and the partial light-shielding patterns 366 and the data lines 130 may be completely overlapped or partially overlapped. As a result, the pixel array 204, the pixel array 104, the light shielding pattern 360, and the light shielding pattern 260 all have the same periodic pattern. The material of the light-shielding pattern 360 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 360 is disposed corresponding to the color filter array 350, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列104中不透光的區域。因此,遮光圖案360一般是對應掃描線120以及資料線130而設置,以避免影像顯示品質受到不良的影響。In general, the scan line 120 and the data line 130 are located in an area that is opaque in the pixel array 104. Therefore, the light shielding pattern 360 is generally disposed corresponding to the scan line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列350對應畫素陣列104而設置。一般而言,彩色濾光陣列350可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖 案或是無色圖案W。詳細而言,請同時參照圖2及圖5,彩色濾光陣列350的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案360所定義的多個單元區域362分別對應設置彩色濾光陣列350的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列350並不以圖5中所繪者為限。The color filter array 350 is provided corresponding to the pixel array 104. In general, the color filter array 350 may include a plurality of color filter patterns, including, for example, a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns. Case or colorless pattern W. In detail, referring to FIG. 2 and FIG. 5 simultaneously, the plurality of color filter patterns of the color filter array 350 respectively correspond to one of the pixel units 140. That is to say, the plurality of unit regions 362 defined by the light shielding pattern 360 respectively correspond to the plurality of color filter patterns of the color filter array 350. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 350 of the present invention is not limited to those depicted in FIG.

擬遮光圖案370位於遮光圖案360中,以使遮光圖案360所定義出的每一個單元區域362進一步分成多個次單元區域372。詳細而言,如圖5所示,在每一個單元區域362內,擬遮光圖案370為將單元區域362分成3個次單元區域372的條狀圖案。也就是說,在第四實施例的穿透式顯示面板100中,畫素陣列104中的一個畫素單元140對應於一個單元區域362,並且對應於三個次單元區域372。從另一觀點來看,由於遮光圖案360與遮光圖案260具有相同的週期性圖案,故顯示面板200中的一個單元區域262會對應於穿透式顯示面板100中的一個單元區域362,並且對應於三個次單元區域372。雖然圖5繪示擬遮光圖案370將單元區域362分成3個次單元區域372,但本發明並不限於此,只要擬遮光圖案370可將單元區域362進一步分成多個次單元區域372皆落入本發明的範疇。The pseudo light-shielding pattern 370 is located in the light-shielding pattern 360 such that each of the unit regions 362 defined by the light-shielding pattern 360 is further divided into a plurality of sub-unit regions 372. In detail, as shown in FIG. 5, in each of the unit regions 362, the pseudo-shielding pattern 370 is a stripe pattern in which the unit region 362 is divided into three sub-unit regions 372. That is, in the transmissive display panel 100 of the fourth embodiment, one pixel unit 140 in the pixel array 104 corresponds to one unit region 362 and corresponds to three sub-unit regions 372. From another point of view, since the light shielding pattern 360 and the light shielding pattern 260 have the same periodic pattern, one unit area 262 in the display panel 200 corresponds to one unit area 362 in the transmissive display panel 100, and corresponds to In the third subunit area 372. Although FIG. 5 illustrates that the light-shielding pattern 370 divides the cell region 362 into three sub-cell regions 372, the present invention is not limited thereto, as long as the pseudo-shielding pattern 370 can further divide the cell region 362 into a plurality of sub-cell regions 372. The scope of the invention.

另外,如圖5所示,在每一個單元區域362內,擬遮光圖案370的延伸方向與部分遮光圖案366平行。換言之,擬遮光 圖案370在每一個單元區域362內的延伸方向與資料線130平行。In addition, as shown in FIG. 5, in each of the unit regions 362, the direction in which the light-shielding pattern 370 is extended is parallel to the partial light-shielding pattern 366. In other words, the shading The pattern 370 extends in each of the unit regions 362 in a direction parallel to the data line 130.

另外,擬遮光圖案370與遮光圖案360為同一層膜層,且擬遮光圖案370的材質與遮光圖案360的材質相同。換言之,在第四實施例中,透過同一微影與蝕刻製程即可同時形成遮光圖案360與擬遮光圖案370。遮光圖案360可遮蔽顯示效果不佳的區域,擬遮光圖案370則是可減輕因週期性圖案而造成的疊紋現象。In addition, the light-shielding pattern 370 and the light-shielding pattern 360 are the same film layer, and the material of the light-shielding pattern 370 is the same as the material of the light-shielding pattern 360. In other words, in the fourth embodiment, the light-shielding pattern 360 and the pseudo-shielding pattern 370 can be simultaneously formed through the same lithography and etching process. The light-shielding pattern 360 can mask the area where the display effect is not good, and the light-shielding pattern 370 can reduce the rubbing phenomenon caused by the periodic pattern.

因此,基於上述可知,在不需使用額外光罩的情況下,本發明之第四實施例透過設置在濾光層108中的擬遮光圖案370,即可減輕由濾光層108中的遮光圖案360與濾光層208中的遮光圖案260造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Therefore, based on the above, the fourth embodiment of the present invention can alleviate the light-shielding pattern in the filter layer 108 through the pseudo-shielding pattern 370 disposed in the filter layer 108 without using an additional mask. The dimming phenomenon caused by the light-shielding pattern 260 in the light-emitting layer 208, thereby providing good display quality and reducing the visual discomfort of the user.

第五實施例Fifth embodiment

請同時參照圖1,第五實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第五實施例的顯示裝置與第四實施例的顯示裝置大致相同,主要差異在於:在第四實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖5所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第五實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖4所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖5所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件 的材料、功效與相關描述,以及圖4及圖5中畫素陣列的各構件的材料、功效與相關描述已於上述第一及第四實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1 at the same time, the display device of the fifth embodiment can be realized by using the display device 1000 shown in FIG. 1. The display device of the fifth embodiment is substantially the same as the display device of the fourth embodiment, and the main difference is that in the fourth embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the fifth embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 4, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The components of the device 1000 are shown in FIG. The materials, functions, and related descriptions, as well as the materials, functions, and related descriptions of the components of the pixel arrays of FIGS. 4 and 5 have been described in detail in the first and fourth embodiments above, and thus will not be described herein. .

如此一來,在第五實施例中,顯示面板200的濾光層208中包括設置有擬遮光圖案370,因此顯示面板200的畫素陣列204中的一個畫素單元140會對應於一個單元區域362,並且對應於三個次單元區域372。從另一觀點來看,由於遮光圖案360與遮光圖案260具有相同的週期性圖案,故穿透式顯示面板100中的一個單元區域262會對應於顯示面板200中的一個單元區域362,並且對應於三個次單元區域372。As such, in the fifth embodiment, the filter layer 208 of the display panel 200 includes a pseudo light-shielding pattern 370, so that one pixel unit 140 in the pixel array 204 of the display panel 200 corresponds to one unit area. 362, and corresponds to three sub-unit regions 372. From another point of view, since the light shielding pattern 360 and the light shielding pattern 260 have the same periodic pattern, one unit area 262 in the transmissive display panel 100 corresponds to one unit area 362 in the display panel 200, and corresponds to In the third subunit area 372.

基於上述,在第五實施例中,透過在濾光層208中設置擬遮光圖案370,可使得由濾光層208中的遮光圖案360與濾光層108中的遮光圖案260所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, in the fifth embodiment, by providing the pseudo-shielding pattern 370 in the filter layer 208, the dimming caused by the light-shielding pattern 360 in the filter layer 208 and the light-shielding pattern 260 in the filter layer 108 can be caused. The phenomenon is alleviated, which in turn provides good display quality and reduces the user's visual discomfort.

第六實施例Sixth embodiment

請參照圖1,第六實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第六實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第六實施例中,穿透式顯示面 板100的濾光層108的細部結構是使用圖6所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4所示之畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the sixth embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the sixth embodiment is substantially the same as the display device of the first embodiment, and the main difference is that in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the sixth embodiment, the transmissive display surface The detailed structure of the filter layer 108 of the board 100 is realized by the structure of the filter layer shown in FIG. 6, and the detailed structure of the filter layer 208 of the display panel 200 is the structure using the filter layer shown in FIG. achieve. The materials, functions, and related descriptions of the components of the display device 1000 in FIG. 1 and the materials, functions, and related descriptions of the components of the pixel array shown in FIG. 4 have been described in detail in the first embodiment above. This will not be repeated here.

圖6為本發明一實施例的濾光層的上視示意圖。圖6的濾光層包括彩色濾光陣列450、遮光圖案460以及擬遮光圖案470。FIG. 6 is a top plan view of a filter layer according to an embodiment of the invention. The filter layer of FIG. 6 includes a color filter array 450, a light blocking pattern 460, and a pseudo-shielding pattern 470.

請同時參照圖1、圖2及圖6,遮光圖案469在第二基板110上定義出與畫素單元140對應的多個單元區域462。也就是說,在第六實施例中,遮光圖案460所定義出的單元區域462數目會與圖4中之遮光圖案260所定義出的單元區域262數目一致。Referring to FIG. 1 , FIG. 2 and FIG. 6 simultaneously, the light shielding pattern 469 defines a plurality of unit regions 462 corresponding to the pixel unit 140 on the second substrate 110 . That is, in the sixth embodiment, the number of unit regions 462 defined by the light shielding patterns 460 may coincide with the number of unit regions 262 defined by the light blocking patterns 260 in FIG.

進一步而言,請同時參照圖4及圖6,遮光圖案460具有對應於部分遮光圖案264且同樣沿X方向延伸的部分遮光圖案464,以及對應於部分遮光圖案266且同樣沿Y方向延伸的部分遮光圖案466,其中在空間上,部分遮光圖案464與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案466與資料線130也可以是完全重疊或是部分重疊。如此一來,畫素陣列204、畫素陣列104、遮光圖案460與遮光圖案260皆具有相同的週期性圖案。遮光圖案460的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。另外,遮光圖案460對應彩色濾光陣列450而設置,相關詳細描述將於下文中說明。Further, referring to FIG. 4 and FIG. 6 simultaneously, the light shielding pattern 460 has a partial light shielding pattern 464 corresponding to the partial light shielding pattern 264 and also extending in the X direction, and a portion corresponding to the partial light shielding pattern 266 and also extending in the Y direction. The light shielding pattern 466, wherein the partial light shielding patterns 464 and the scanning lines 120 may completely overlap or partially overlap, and the partial light shielding patterns 466 and the data lines 130 may also overlap completely or partially. As a result, the pixel array 204, the pixel array 104, the light shielding pattern 460 and the light shielding pattern 260 all have the same periodic pattern. The material of the light shielding pattern 460 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 460 is disposed corresponding to the color filter array 450, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列104中不透光的區域。因此,遮光圖案460一般是對應掃描線120以及資料線130而設置,以避免影像顯示品質受到不良的影響。In general, the scan line 120 and the data line 130 are located in an area that is opaque in the pixel array 104. Therefore, the light shielding pattern 460 is generally disposed corresponding to the scan line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列450對應畫素陣列104而設置。一般而言,彩色濾光陣列450可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖案或是無色圖案W。詳細而言,請同時參照圖2及圖6,彩色濾光陣列450的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案460所定義的多個單元區域462分別對應設置彩色濾光陣列450的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列450並不以圖6中所繪者為限。The color filter array 450 is provided corresponding to the pixel array 104. In general, the color filter array 450 may include a plurality of color filter patterns, including, for example, a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns or a colorless pattern W. . In detail, referring to FIG. 2 and FIG. 6 simultaneously, the plurality of color filter patterns of the color filter array 450 respectively correspond to one of the pixel units 140. That is to say, the plurality of unit regions 462 defined by the light shielding patterns 460 respectively correspond to the plurality of color filter patterns of the color filter array 450. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 450 of the present invention is not limited to those depicted in FIG.

擬遮光圖案470位於遮光圖案460中,以使遮光圖案460所定義出的每一個單元區域462進一步分成多個次單元區域472。詳細而言,如圖6所示,在每一個單元區域462內,擬遮光圖案470為將單元區域462分成3個次單元區域472的條狀圖案。也就是說,在第六實施例的穿透式顯示面板100中,畫素陣列104中的一個畫素單元140對應於一個單元區域462,並且對應於三個次單元區域472。從另一觀點來看,由於遮光圖案460與遮光圖案260具有相同的週期性圖案,故顯示面板200中的一個單元區域 262會對應於穿透式顯示面板100中的一個單元區域462,並且對應於三個次單元區域472。雖然圖6繪示擬遮光圖案470將單元區域462分成3個次單元區域472,但本發明並不限於此,只要擬遮光圖案470可將單元區域462進一步分成多個次單元區域472皆落入本發明的範疇。The light-shielding pattern 470 is located in the light-shielding pattern 460 such that each of the unit regions 462 defined by the light-shielding pattern 460 is further divided into a plurality of sub-unit regions 472. In detail, as shown in FIG. 6, in each of the unit regions 462, the pseudo-shielding pattern 470 is a stripe pattern in which the unit region 462 is divided into three sub-unit regions 472. That is, in the transmissive display panel 100 of the sixth embodiment, one pixel unit 140 in the pixel array 104 corresponds to one unit region 462 and corresponds to three sub-unit regions 472. From another point of view, since the light blocking pattern 460 and the light blocking pattern 260 have the same periodic pattern, one unit area in the display panel 200 262 will correspond to one unit area 462 in the transmissive display panel 100 and correspond to three sub-unit areas 472. Although FIG. 6 illustrates that the light-shielding pattern 470 divides the cell region 462 into three sub-cell regions 472, the present invention is not limited thereto, as long as the pseudo-shielding pattern 470 can further divide the cell region 462 into a plurality of sub-cell regions 472. The scope of the invention.

另外,如圖6所示,在每一個單元區域462內,擬遮光圖案470的延伸方向與部分遮光圖案464平行。換言之,擬遮光圖案470在每一個單元區域462內的延伸方向與掃描線120平行。In addition, as shown in FIG. 6, in each of the unit regions 462, the direction in which the light-shielding pattern 470 is extended is parallel to the partial light-shielding pattern 464. In other words, the direction in which the light-shielding pattern 470 is projected in each of the unit regions 462 is parallel to the scanning line 120.

另外,擬遮光圖案470與遮光圖案460為同一層膜層,且擬遮光圖案470的材質與遮光圖案460的材質相同。換言之,在第六實施例中,透過同一微影與蝕刻製程即可同時形成遮光圖案460與擬遮光圖案470。遮光圖案460可遮蔽顯示效果不佳的區域,擬遮光圖案470則是可減輕因週期性圖案而造成的疊紋現象。In addition, the light-shielding pattern 470 and the light-shielding pattern 460 are the same film layer, and the material of the light-shielding pattern 470 is the same as the material of the light-shielding pattern 460. In other words, in the sixth embodiment, the light shielding pattern 460 and the pseudo light shielding pattern 470 can be simultaneously formed through the same lithography and etching process. The light-shielding pattern 460 can shield the area where the display effect is not good, and the light-shielding pattern 470 can reduce the rubbing phenomenon caused by the periodic pattern.

因此,基於上述可知,在不需使用額外光罩的情況下,本發明之第六實施例透過設置在濾光層108中的擬遮光圖案470,即可減輕由濾光層108中的遮光圖案460與濾光層208中的遮光圖案260造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Therefore, based on the above, the sixth embodiment of the present invention can alleviate the light-shielding pattern in the filter layer 108 by the pseudo-shielding pattern 470 disposed in the filter layer 108 without using an additional mask. The mittens caused by the 460 and the light-shielding pattern 260 in the filter layer 208, thereby providing good display quality and reducing the user's visual discomfort.

第七實施例Seventh embodiment

請參照圖1,第七實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第七實施例的顯示裝置與第六實施例的顯示 裝置大致相同,主要差異在於:在第六實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖6所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第七實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖4所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖6所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4及圖6中畫素陣列的各構件的材料、功效與相關描述已於上述第一及第六實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the seventh embodiment can be implemented using the display device 1000 shown in FIG. 1. Display device of the seventh embodiment and display of the sixth embodiment The devices are substantially the same, the main difference being that in the sixth embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is realized by the structure of the filter layer shown in FIG. 6, and the filter of the display panel 200. The detailed structure of the light layer 208 is realized by the structure of the filter layer shown in FIG. 4; and in the seventh embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, efficiencies, and related descriptions of the various components of the device 1000 are shown in FIG. 1, and the materials, efficiencies, and related descriptions of the components of the pixel arrays of FIGS. 4 and 6 have been detailed in the first and sixth embodiments above. Description, so I won't go into details here.

如此一來,在第七實施例中,顯示面板200的濾光層208中包括設置有擬遮光圖案470,因此顯示面板200的畫素陣列204中的一個畫素單元140會對應於一個單元區域462,並且對應於三個次單元區域472。從另一觀點來看,由於遮光圖案460與遮光圖案260具有相同的週期性圖案,故穿透式顯示面板100中的一個單元區域262會對應於顯示面板200中的一個單元區域462,並且對應於三個次單元區域472。As such, in the seventh embodiment, the filter layer 208 of the display panel 200 includes a pseudo-shielding pattern 470, so that one pixel unit 140 in the pixel array 204 of the display panel 200 corresponds to a cell region. 462, and corresponds to three sub-unit regions 472. From another point of view, since the light shielding pattern 460 and the light shielding pattern 260 have the same periodic pattern, one unit region 262 in the transmissive display panel 100 corresponds to one unit region 462 in the display panel 200, and corresponds to In the third subunit area 472.

基於上述,在第七實施例中,透過在濾光層208中設置擬遮光圖案470,可使得由濾光層208中的遮光圖案460與濾光層108中的遮光圖案260所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, in the seventh embodiment, by providing the pseudo-shielding pattern 470 in the filter layer 208, the moiré caused by the light-shielding pattern 460 in the filter layer 208 and the light-shielding pattern 260 in the filter layer 108 can be caused. The phenomenon is alleviated, which in turn provides good display quality and reduces the user's visual discomfort.

第八實施例Eighth embodiment

請參照圖1,第八實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第八實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第八實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖7所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4所示之畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the eighth embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the eighth embodiment is substantially the same as the display device of the first embodiment, and the main difference is that, in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the eighth embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 7, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, functions, and related descriptions of the components of the display device 1000 in FIG. 1 and the materials, functions, and related descriptions of the components of the pixel array shown in FIG. 4 have been described in detail in the first embodiment above. This will not be repeated here.

圖7為本發明一實施例的濾光層的上視示意圖。圖7的濾光層包括彩色濾光陣列550、遮光圖案560以及擬遮光圖案570。FIG. 7 is a top plan view of a filter layer according to an embodiment of the invention. The filter layer of FIG. 7 includes a color filter array 550, a light blocking pattern 560, and a pseudo-shielding pattern 570.

請同時參照圖1、圖2及圖7,遮光圖案560在第二基板110上定義出與畫素單元140對應的多個單元區域562。也就是說,在第八實施例中,遮光圖案560所定義出的單元區域562數目會與圖4中之遮光圖案260所定義出的單元區域262數目一致。Referring to FIG. 1 , FIG. 2 and FIG. 7 simultaneously, the light shielding pattern 560 defines a plurality of unit regions 562 corresponding to the pixel unit 140 on the second substrate 110 . That is, in the eighth embodiment, the number of unit regions 562 defined by the light blocking patterns 560 may coincide with the number of unit regions 262 defined by the light blocking patterns 260 in FIG.

進一步而言,請同時參照圖4及圖7,遮光圖案560具有對應於部分遮光圖案264且同樣沿X方向延伸的部分遮光圖案564,以及對應於部分遮光圖案266且同樣沿Y方向延伸的部分遮 光圖案566,其中在空間上,部分遮光圖案564與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案566與資料線130也可以是完全重疊或是部分重疊。如此一來,畫素陣列204、畫素陣列104、遮光圖案560與遮光圖案260皆具有相同的週期性圖案。遮光圖案560的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。另外,遮光圖案560對應彩色濾光陣列550而設置,相關詳細描述將於下文中說明。Further, referring to FIG. 4 and FIG. 7 simultaneously, the light shielding pattern 560 has a partial light shielding pattern 564 corresponding to the partial light shielding pattern 264 and also extending in the X direction, and a portion corresponding to the partial light shielding pattern 266 and also extending in the Y direction. cover The light pattern 566, wherein the partial light-shielding patterns 564 and the scan lines 120 may be completely overlapped or partially overlapped, and the partial light-shielding patterns 566 and the data lines 130 may be completely overlapped or partially overlapped. As such, the pixel array 204, the pixel array 104, the light shielding pattern 560, and the light shielding pattern 260 all have the same periodic pattern. The material of the light shielding pattern 560 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 560 is disposed corresponding to the color filter array 550, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列104中不透光的區域。因此,遮光圖案560一般是對應掃描線120以及資料線130而設置,以避免影像顯示品質受到不良的影響。In general, the scan line 120 and the data line 130 are located in an area that is opaque in the pixel array 104. Therefore, the light shielding pattern 560 is generally disposed corresponding to the scanning line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列550對應畫素陣列104而設置。一般而言,彩色濾光陣列550可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖案或是無色圖案W。詳細而言,請同時參照圖2及圖7,彩色濾光陣列550的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案560所定義的多個單元區域562分別對應設置彩色濾光陣列550的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列550並不以圖7中所繪者為限。The color filter array 550 is provided corresponding to the pixel array 104. In general, the color filter array 550 can include a plurality of color filter patterns, including, for example, a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns or a colorless pattern W. . In detail, referring to FIG. 2 and FIG. 7 simultaneously, the plurality of color filter patterns of the color filter array 550 respectively correspond to one of the pixel units 140. That is to say, the plurality of unit regions 562 defined by the light shielding patterns 560 respectively correspond to the plurality of color filter patterns of the color filter array 550. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 550 of the present invention is not limited to those depicted in FIG.

擬遮光圖案570位於遮光圖案560中,以使遮光圖案560 所定義出的每一個單元區域562進一步分成多個次單元區域572。詳細而言,如圖7所示,在每一個單元區域562內,擬遮光圖案570為將單元區域562分成4個次單元區域572的條狀圖案。也就是說,在第八實施例的穿透式顯示面板100中,畫素陣列104中的一個畫素單元140對應於一個單元區域562,並且對應於四個次單元區域572。從另一觀點來看,由於遮光圖案560與遮光圖案260具有相同的週期性圖案,故顯示面板200中的一個單元區域262會對應於穿透式顯示面板100中的一個單元區域562,並且對應於四個次單元區域572。雖然圖7繪示擬遮光圖案570將單元區域562分成4個次單元區域572,但本發明並不限於此,只要擬遮光圖案570可將單元區域562進一步分成多個次單元區域572皆落入本發明的範疇。The light-shielding pattern 570 is located in the light-shielding pattern 560 to make the light-shielding pattern 560 Each of the unit regions 562 defined is further divided into a plurality of sub-unit regions 572. In detail, as shown in FIG. 7, in each of the unit regions 562, the pseudo-shielding pattern 570 is a stripe pattern in which the unit region 562 is divided into four sub-unit regions 572. That is, in the transmissive display panel 100 of the eighth embodiment, one pixel unit 140 in the pixel array 104 corresponds to one unit region 562 and corresponds to four sub-unit regions 572. From another point of view, since the light shielding pattern 560 and the light shielding pattern 260 have the same periodic pattern, one unit region 262 in the display panel 200 corresponds to one unit region 562 in the transmissive display panel 100, and corresponds to In the fourth sub-unit area 572. Although FIG. 7 illustrates that the light-shielding pattern 570 divides the cell region 562 into four sub-cell regions 572, the present invention is not limited thereto, as long as the pseudo-shielding pattern 570 can further divide the cell region 562 into a plurality of sub-cell regions 572. The scope of the invention.

另外,如圖7所示,在每一個單元區域562內,擬遮光圖案570的延伸方向與部分遮光圖案564平行且與部分遮光圖案566平行。換言之,擬遮光圖案570在每一個單元區域562內的延伸方向與掃描線120平行且與資料線130平行。In addition, as shown in FIG. 7, in each of the unit regions 562, the direction in which the light-shielding pattern 570 is extended is parallel to the partial light-shielding pattern 564 and parallel to the partial light-shielding pattern 566. In other words, the direction in which the light-shielding pattern 570 is projected in each of the unit regions 562 is parallel to the scanning line 120 and parallel to the data line 130.

另外,擬遮光圖案570與遮光圖案560為同一層膜層,且擬遮光圖案570的材質與遮光圖案560的材質相同。換言之,在第八實施例中,透過同一微影與蝕刻製程即可同時形成遮光圖案560與擬遮光圖案570。遮光圖案560可遮蔽顯示效果不佳的區域,擬遮光圖案570則是可減輕因週期性圖案而造成的疊紋現象。In addition, the light-shielding pattern 570 and the light-shielding pattern 560 are the same film layer, and the material of the light-shielding pattern 570 is the same as the material of the light-shielding pattern 560. In other words, in the eighth embodiment, the light shielding pattern 560 and the pseudo light shielding pattern 570 can be simultaneously formed through the same lithography and etching process. The light-shielding pattern 560 can shield the area where the display effect is not good, and the light-shielding pattern 570 can reduce the rubbing phenomenon caused by the periodic pattern.

因此,基於上述可知,在不需使用額外光罩的情況下, 本發明之第八實施例透過設置在濾光層108中的擬遮光圖案570,即可減輕由濾光層108中的遮光圖案560與濾光層208中的遮光圖案260造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Therefore, based on the above, it is known that without using an additional mask, The eighth embodiment of the present invention can alleviate the moiré caused by the light-shielding pattern 560 in the filter layer 108 and the light-shielding pattern 260 in the filter layer 208 through the pseudo-shielding pattern 570 disposed in the filter layer 108. This in turn provides good display quality and reduces the user's visual discomfort.

第九實施例Ninth embodiment

請參照圖1,第九實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第九實施例的顯示裝置與第八實施例的顯示裝置大致相同,主要差異在於:在第八實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖7所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第九實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖4所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖7所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4及圖7中畫素陣列的各構件的材料、功效與相關描述已於上述第一及第八實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the ninth embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the ninth embodiment is substantially the same as the display device of the eighth embodiment, and the main difference is that in the eighth embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the ninth embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 4, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, efficiencies, and related descriptions of the various components of the device 1000 are shown in FIG. 1, and the materials, efficiencies, and related descriptions of the components of the pixel arrays of FIGS. 4 and 7 have been detailed in the first and eighth embodiments above. Description, so I won't go into details here.

如此一來,在第九實施例中,顯示面板200的濾光層208中包括設置有擬遮光圖案570,因此顯示面板200的畫素陣列204中的一個畫素單元140會對應於一個單元區域562,並且對應於四個次單元區域572。從另一觀點來看,由於遮光圖案560與遮光圖 案260具有相同的週期性圖案,故穿透式顯示面板100中的一個單元區域262會對應於顯示面板200中的一個單元區域562,並且對應於四個次單元區域572。As such, in the ninth embodiment, the filter layer 208 of the display panel 200 includes a pseudo light-shielding pattern 570, so that one pixel unit 140 in the pixel array 204 of the display panel 200 corresponds to one unit area. 562, and corresponds to four sub-unit regions 572. From another point of view, due to the shading pattern 560 and the shading The case 260 has the same periodic pattern, so one unit area 262 in the transmissive display panel 100 corresponds to one unit area 562 in the display panel 200 and corresponds to four sub-unit areas 572.

基於上述,在第九實施例中,透過在濾光層208中設置擬遮光圖案570,可使得由濾光層208中的遮光圖案560與濾光層108中的遮光圖案260所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, in the ninth embodiment, by providing the pseudo-shielding pattern 570 in the filter layer 208, the moiré caused by the light-shielding pattern 560 in the filter layer 208 and the light-shielding pattern 260 in the filter layer 108 can be caused. The phenomenon is alleviated, which in turn provides good display quality and reduces the user's visual discomfort.

第十實施例Tenth embodiment

請參照圖1,第十實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第十實施例的顯示裝置與第一實施例的顯示裝置大致相同,主要差異在於:在第一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖3所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第十實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖8所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4所示之畫素陣列的各構件的材料、功效與相關描述已於上述第一實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1, the display device of the tenth embodiment can be implemented using the display device 1000 shown in FIG. 1. The display device of the tenth embodiment is substantially the same as the display device of the first embodiment, and the main difference is that in the first embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is as shown in FIG. The structure of the filter layer is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by using the structure of the filter layer shown in FIG. 4; and in the tenth embodiment, the transmissive display panel 100 is The detailed structure of the filter layer 108 is realized by the structure of the filter layer shown in FIG. 8, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, functions, and related descriptions of the components of the display device 1000 in FIG. 1 and the materials, functions, and related descriptions of the components of the pixel array shown in FIG. 4 have been described in detail in the first embodiment above. This will not be repeated here.

圖8為本發明一實施例的濾光層的上視示意圖。圖8的 濾光層包括彩色濾光陣列650、遮光圖案660以及擬遮光圖案670。Figure 8 is a top plan view of a filter layer in accordance with an embodiment of the present invention. Figure 8 The filter layer includes a color filter array 650, a light blocking pattern 660, and a pseudo light blocking pattern 670.

請同時參照圖1、圖2及圖8,遮光圖案660在第二基板110上定義出與畫素單元140對應的多個單元區域662。也就是說,在第十實施例中,遮光圖案660所定義出的單元區域662數目會與圖4中之遮光圖案260所定義出的單元區域262數目一致。Referring to FIG. 1 , FIG. 2 and FIG. 8 simultaneously, the light shielding pattern 660 defines a plurality of unit regions 662 corresponding to the pixel unit 140 on the second substrate 110 . That is, in the tenth embodiment, the number of unit regions 662 defined by the light-shielding pattern 660 may coincide with the number of unit regions 262 defined by the light-shielding pattern 260 in FIG.

進一步而言,請同時參照圖4及圖8,遮光圖案660具有對應於部分遮光圖案264且同樣沿X方向延伸的部分遮光圖案664,以及對應於部分遮光圖案266且同樣沿Y方向延伸的部分遮光圖案666,其中在空間上,部分遮光圖案664與掃描線120可以是完全重疊或是部分重疊,而部分遮光圖案666與資料線130也可以是完全重疊或是部分重疊。如此一來,畫素陣列204、畫素陣列104、遮光圖案660與遮光圖案260皆具有相同的週期性圖案。遮光圖案660的材質例如是黑色樹脂或是遮光金屬,且較佳是由低反射的材料構成。另外,遮光圖案660對應彩色濾光陣列650而設置,相關詳細描述將於下文中說明。Further, referring to FIG. 4 and FIG. 8 simultaneously, the light shielding pattern 660 has a partial light shielding pattern 664 corresponding to the partial light shielding pattern 264 and also extending in the X direction, and a portion corresponding to the partial light shielding pattern 266 and also extending in the Y direction. The light-shielding pattern 666, wherein the partial light-shielding pattern 664 and the scan line 120 may be completely overlapped or partially overlap, and the partial light-shielding pattern 666 and the data line 130 may also be completely overlapped or partially overlapped. As a result, the pixel array 204, the pixel array 104, the light shielding pattern 660 and the light shielding pattern 260 all have the same periodic pattern. The material of the light-shielding pattern 660 is, for example, a black resin or a light-shielding metal, and is preferably made of a material having low reflection. In addition, the light shielding pattern 660 is disposed corresponding to the color filter array 650, and a detailed description will be described below.

一般而言,掃描線120以及資料線130所在位置為畫素陣列104中不透光的區域。因此,遮光圖案660一般是對應掃描線120以及資料線130而設置,以避免影像顯示品質受到不良的影響。In general, the scan line 120 and the data line 130 are located in an area that is opaque in the pixel array 104. Therefore, the light shielding pattern 660 is generally disposed corresponding to the scan line 120 and the data line 130 to prevent the image display quality from being adversely affected.

彩色濾光陣列650對應畫素陣列104而設置。一般而言,彩色濾光陣列650可包括多個彩色濾光圖案,例如包括紅色濾光圖案R、藍色濾光圖案B以及綠色濾光圖案G或是其他的濾光圖 案或是無色圖案W。詳細而言,請同時參照圖2及圖8,彩色濾光陣列650的多個彩色濾光圖案分別對應畫素單元140中的一者。也就是說,遮光圖案660所定義的多個單元區域662分別對應設置彩色濾光陣列650的多個彩色濾光圖案。此外,所屬領域中具有通常知識者應理解,可依實際設計的需求而調整彩色濾光陣列中彩色濾光圖案的設置。因此,本發明的彩色濾光陣列650並不以圖8中所繪者為限。The color filter array 650 is provided corresponding to the pixel array 104. In general, the color filter array 650 can include a plurality of color filter patterns, including, for example, a red filter pattern R, a blue filter pattern B, and a green filter pattern G or other filter patterns. Case or colorless pattern W. In detail, referring to FIG. 2 and FIG. 8 simultaneously, the plurality of color filter patterns of the color filter array 650 respectively correspond to one of the pixel units 140. That is to say, the plurality of unit regions 662 defined by the light shielding patterns 660 respectively correspond to the plurality of color filter patterns of the color filter array 650. Moreover, those of ordinary skill in the art will appreciate that the settings of the color filter patterns in the color filter array can be adjusted as desired by the actual design. Therefore, the color filter array 650 of the present invention is not limited to those depicted in FIG.

擬遮光圖案670位於遮光圖案660中,以使遮光圖案660所定義出的每一個單元區域662進一步分成多個次單元區域672。詳細而言,如圖8所示,在每一個單元區域662內,擬遮光圖案670為將單元區域662分成3個次單元區域672的條狀圖案。也就是說,在第十實施例的穿透式顯示面板100中,畫素陣列104中的一個畫素單元140對應於一個單元區域662,並且對應於三個次單元區域672。從另一觀點來看,由於遮光圖案660與遮光圖案260具有相同的週期性圖案,故顯示面板200中的一個單元區域262會對應於穿透式顯示面板100中的一個單元區域662,並且對應於三個次單元區域672。雖然圖8繪示擬遮光圖案670將單元區域662分成3個次單元區域672,但本發明並不限於此,只要擬遮光圖案670可將單元區域662進一步分成多個次單元區域672皆落入本發明的範疇。The pseudo-shielding pattern 670 is located in the shading pattern 660 such that each of the unit regions 662 defined by the shading pattern 660 is further divided into a plurality of sub-unit regions 672. In detail, as shown in FIG. 8, in each of the unit regions 662, the pseudo-shielding pattern 670 is a stripe pattern in which the unit region 662 is divided into three sub-unit regions 672. That is, in the transmissive display panel 100 of the tenth embodiment, one pixel unit 140 in the pixel array 104 corresponds to one unit area 662 and corresponds to three sub unit areas 672. From another point of view, since the light shielding pattern 660 and the light shielding pattern 260 have the same periodic pattern, one unit area 262 in the display panel 200 corresponds to one unit area 662 in the transmissive display panel 100, and corresponds to In the third sub-unit area 672. Although FIG. 8 illustrates that the light-shielding pattern 670 divides the cell region 662 into three sub-cell regions 672, the present invention is not limited thereto, as long as the pseudo-shielding pattern 670 can further divide the cell region 662 into a plurality of sub-cell regions 672. The scope of the invention.

另外,在每一個單元區域662內,擬遮光圖案670與遮光圖案660之間具有夾角θ2,其中夾角θ2不等於0度、90度或 180度。詳細而言,如圖8所示,夾角θ2表示為擬遮光圖案670與部分遮光圖案664之間所形成的銳角。但是,本發明並不限於此。舉例而言,夾角θ2也可以是擬遮光圖案670與部分遮光圖案666之間所形成的任一夾角(未繪示)。從另一觀點而言,擬遮光圖案670所延伸的方向可與X方向或Y方向之間形成夾角θ2。另外,圖8繪示的是夾角θ2等於45度時的一種可能的結構,但本發明並不限於此,只要擬遮光圖案670與遮光圖案660之間的夾角不等於0度、90度或180度的結構皆落入本發明的範疇。In addition, in each of the unit regions 662, the pseudo-shielding pattern 670 and the shading pattern 660 have an angle θ2, wherein the angle θ2 is not equal to 0 degrees, 90 degrees or 180 degree. In detail, as shown in FIG. 8, the angle θ2 is expressed as an acute angle formed between the pseudo-shielding pattern 670 and the partial shading pattern 664. However, the invention is not limited thereto. For example, the included angle θ2 may also be any angle (not shown) formed between the pseudo-shielding pattern 670 and the partial shading pattern 666. From another point of view, the direction in which the pseudo-shielding pattern 670 extends may form an angle θ2 with the X direction or the Y direction. In addition, FIG. 8 illustrates a possible structure when the angle θ2 is equal to 45 degrees, but the present invention is not limited thereto, as long as the angle between the pseudo light-shielding pattern 670 and the light-shielding pattern 660 is not equal to 0 degrees, 90 degrees, or 180 degrees. The structure of degrees falls within the scope of the present invention.

另外,擬遮光圖案670與遮光圖案660為同一層膜層,且擬遮光圖案670的材質與遮光圖案660的材質相同。換言之,在第十實施例中,透過同一微影與蝕刻製程即可同時形成遮光圖案660與擬遮光圖案670。遮光圖案660可遮蔽顯示效果不佳的區域,擬遮光圖案670則是可減輕因週期性圖案而造成的疊紋現象。In addition, the light-shielding pattern 670 and the light-shielding pattern 660 are the same film layer, and the material of the light-shielding pattern 670 is the same as the material of the light-shielding pattern 660. In other words, in the tenth embodiment, the light shielding pattern 660 and the pseudo light shielding pattern 670 can be simultaneously formed through the same lithography and etching process. The light-shielding pattern 660 can shield the area where the display effect is not good, and the light-shielding pattern 670 can reduce the rubbing phenomenon caused by the periodic pattern.

因此,基於上述可知,在不需使用額外光罩的情況下,本發明之第十實施例透過設置在濾光層108中的擬遮光圖案670,即可減輕由濾光層108中的由遮光圖案660與濾光層208中的遮光圖案260造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Therefore, based on the above, the tenth embodiment of the present invention can alleviate the shading in the filter layer 108 by the pseudo-shielding pattern 670 disposed in the filter layer 108 without using an additional mask. The patterning 660 and the opaque phenomenon caused by the light-shielding pattern 260 in the filter layer 208, thereby providing good display quality and reducing the user's visual discomfort.

第十一實施例Eleventh embodiment

請同時參照圖1,第十一實施例的顯示裝置可使用圖1所示的顯示裝置1000來實現。第十一實施例的顯示裝置與第十實 施例的顯示裝置大致相同,主要差異在於:在第十實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖8所示的濾光層的結構來實現,以及顯示面板200的濾光層208的細部結構是使用圖4所示的濾光層的結構來實現;而在第十一實施例中,穿透式顯示面板100的濾光層108的細部結構是使用圖4所示的濾光層的結構來實現,而顯示面板200的濾光層208的細部結構是使用圖8所示的濾光層的結構來實現。圖1中顯示裝置1000的各構件的材料、功效與相關描述,以及圖4及圖8中畫素陣列的各構件的材料、功效與相關描述已於上述第一及第十實施例中進行詳盡地說明,故於此不再贅述。Referring to FIG. 1 at the same time, the display device of the eleventh embodiment can be realized by using the display device 1000 shown in FIG. 1. Display device and tenth embodiment of the eleventh embodiment The display device of the embodiment is substantially the same, and the main difference is that in the tenth embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is realized by using the structure of the filter layer shown in FIG. 8, and displaying The detailed structure of the filter layer 208 of the panel 200 is realized by the structure of the filter layer shown in FIG. 4; and in the eleventh embodiment, the detailed structure of the filter layer 108 of the transmissive display panel 100 is used. The structure of the filter layer shown in FIG. 4 is realized, and the detailed structure of the filter layer 208 of the display panel 200 is realized by the structure of the filter layer shown in FIG. The materials, efficiencies, and related descriptions of the various components of the device 1000 are shown in FIG. 1, and the materials, efficiencies, and related descriptions of the components of the pixel arrays of FIGS. 4 and 8 have been detailed in the first and tenth embodiments above. Description, so I won't go into details here.

如此一來,在第十一實施例中,顯示面板200的濾光層208中包括設置有擬遮光圖案670,因此顯示面板200的畫素陣列204中的一個畫素單元140將對應於一個單元區域662,並且對應於三個次單元區域672。從另一觀點來看,由於遮光圖案660與遮光圖案260具有相同的週期性圖案,故穿透式顯示面板100中的一個單元區域262會對應於顯示面板200中的一個單元區域662,並且對應於三個次單元區域672。As such, in the eleventh embodiment, the filter layer 208 of the display panel 200 includes a pseudo light-shielding pattern 670, so that one pixel unit 140 in the pixel array 204 of the display panel 200 will correspond to one unit. Region 662 and corresponds to three sub-cell regions 672. From another point of view, since the light shielding pattern 660 and the light shielding pattern 260 have the same periodic pattern, one unit area 262 in the transmissive display panel 100 corresponds to one unit area 662 in the display panel 200, and corresponds to In the third sub-unit area 672.

基於上述,在第十一實施例中,透過在濾光層208中設置擬遮光圖案670,可使得由濾光層208中的遮光圖案660與濾光層108中的遮光圖案260所造成的疊紋現象減輕,進而提供良好的顯示品質並減緩使用者視覺上的不適感。Based on the above, in the eleventh embodiment, by providing the pseudo-shielding pattern 670 in the filter layer 208, the stack caused by the light-shielding pattern 660 in the filter layer 208 and the light-shielding pattern 260 in the filter layer 108 can be caused. The pattern is reduced, which in turn provides good display quality and slows the user's visual discomfort.

綜上所述,在上述各實施例所提出之顯示裝置中,藉由 在濾光層108或濾光層208中設置擬遮光圖案(如擬遮光圖案170、370、470、570、670),即可減輕因週期性圖案而造成的疊紋現象,進而提供良好的顯示品質並減緩使用者視覺上的不適感。另外,本發明不需使用額外的光罩,即可在上述各實施例所提出之顯示裝置中形成不一致的週期性圖案,因而有效地降低製程成本並增加產品的應用性。In summary, in the display device proposed in each of the above embodiments, By providing a pseudo-shielding pattern (such as a pseudo-shielding pattern 170, 370, 470, 570, 670) in the filter layer 108 or the filter layer 208, the phenomenon of moiré caused by the periodic pattern can be alleviated, thereby providing a good display. Quality and slow down the user's visual discomfort. In addition, the present invention can form an inconsistent periodic pattern in the display device proposed in each of the above embodiments without using an additional mask, thereby effectively reducing the process cost and increasing the applicability of the product.

雖然本發明已以實施例揭露如上,然其並非用以限定本發明,任何所屬技術領域中具有通常知識者,在不脫離本發明的精神和範圍內,當可作些許的更動與潤飾,故本發明的保護範圍當視後附的申請專利範圍所界定者為準。Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and any one of ordinary skill in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of the invention is defined by the scope of the appended claims.

100‧‧‧穿透式顯示面板100‧‧‧Transmissive display panel

102、202‧‧‧第一基板102, 202‧‧‧ first substrate

104、204‧‧‧畫素陣列104, 204‧‧‧ pixel array

106、206‧‧‧顯示介質106, 206‧‧‧ Display media

108、208‧‧‧濾光層108, 208‧‧‧ filter layer

110、210‧‧‧第二基板110, 210‧‧‧ second substrate

200‧‧‧顯示面板200‧‧‧ display panel

300‧‧‧背光模組300‧‧‧Backlight module

400‧‧‧殼體400‧‧‧shell

401‧‧‧開口401‧‧‧ openings

402‧‧‧光源402‧‧‧Light source

1000‧‧‧顯示裝置1000‧‧‧ display device

D‧‧‧距離D‧‧‧Distance

Claims (19)

一種顯示裝置,包括:一第一顯示面板,包括:一第一畫素陣列;一第一彩色濾光陣列,對應該第一畫素陣列設置;一第一遮光圖案,對應該第一彩色濾光陣列設置;以及一第一擬遮光圖案,其對應該第一遮光圖案設置,其中該第一擬遮光圖案具有一第一斜邊,該第一斜邊與該第一遮光圖案之間具有一第一夾角,且該第一夾角不等於0度、90度或180度;以及一第二顯示面板,與該第一顯示面板重疊設置且該第一顯示面板與該第二顯示面板之間相距一距離,該第二顯示面板包括:一第二畫素陣列;一第二彩色濾光陣列,對應該第二畫素陣列設置;以及一第二遮光圖案,對應該第二彩色濾光陣列設置。 A display device includes: a first display panel comprising: a first pixel array; a first color filter array corresponding to the first pixel array; and a first light shielding pattern corresponding to the first color filter And a first light-shielding pattern corresponding to the first light-shielding pattern, wherein the first light-shielding pattern has a first oblique side, and the first oblique side and the first light-shielding pattern have a a first angle, and the first angle is not equal to 0 degrees, 90 degrees, or 180 degrees; and a second display panel disposed overlapping the first display panel and spaced apart from the second display panel a second display panel comprising: a second pixel array; a second color filter array corresponding to the second pixel array; and a second light shielding pattern corresponding to the second color filter array . 如申請專利範圍第1項所述的顯示裝置,其中該第一顯示面板為一自發光顯示面板或是一具有背光模組之顯示面板,該第二顯示面板為一穿透式顯示面板,且該顯示裝置更包括:一殼體,該殼體具有一開口,其中該第二顯示面板裝設於該開口上,且該第一顯示面板裝設在該殼體內並位在該第二顯示面板的背面;以及一光源,設置在該殼體內,以提供該第二顯示面板所需之光 源。The display device of claim 1, wherein the first display panel is a self-luminous display panel or a display panel having a backlight module, and the second display panel is a transmissive display panel, and The display device further includes: a housing having an opening, wherein the second display panel is mounted on the opening, and the first display panel is disposed in the housing and located in the second display panel a back surface; and a light source disposed within the housing to provide light required for the second display panel source. 如申請專利範圍第1項所述的顯示裝置,其中該第一顯示面板為一穿透式顯示面板,該第二顯示面板為一自發光顯示面板或是一具有背光模組之顯示面板,且該顯示裝置更包括:一殼體,該殼體具有一開口,其中該第一顯示面板裝設於該開口上,且該第二顯示面板裝設在該殼體內並位在該第二顯示面板的背面;以及一光源,設置在該殼體內,以提供該第一顯示面板所需之光源。The display device of claim 1, wherein the first display panel is a transmissive display panel, and the second display panel is a self-illuminating display panel or a display panel having a backlight module, and The display device further includes: a casing having an opening, wherein the first display panel is mounted on the opening, and the second display panel is disposed in the casing and located in the second display panel a back surface; and a light source disposed within the housing to provide a light source required for the first display panel. 如申請專利範圍第1項所述的顯示裝置,其中該第一擬遮光圖案的材質與該第一遮光圖案的材質相同。The display device of claim 1, wherein the material of the first pseudo-shielding pattern is the same as the material of the first shading pattern. 如申請專利範圍第1項所述的顯示裝置,其中該第一擬遮光圖案與該第一遮光圖案為同一層膜層。The display device of claim 1, wherein the first pseudo-shielding pattern and the first shading pattern are the same film layer. 如申請專利範圍第1項所述的顯示裝置,更包括一第二擬遮光圖案,其對應該第二遮光圖案設置,其中該第二擬遮光圖案具有一第二斜邊,該第二斜邊與該第二遮光圖案之間具有一第二夾角,且該第二夾角不等於0度、90度或180度。The display device of claim 1, further comprising a second pseudo-shielding pattern corresponding to the second shading pattern, wherein the second pseudo-shielding pattern has a second oblique side, the second oblique side There is a second angle between the second light shielding pattern and the second angle is not equal to 0 degrees, 90 degrees or 180 degrees. 如申請專利範圍第6項所述的顯示裝置,其中該第二擬遮光圖案的材質與該第二遮光圖案的材質相同。The display device of claim 6, wherein the material of the second pseudo-shielding pattern is the same as the material of the second shading pattern. 如申請專利範圍第6項所述的顯示裝置,其中該第一擬遮光圖案與該第一遮光圖案為同一層膜層。The display device of claim 6, wherein the first pseudo-shielding pattern and the first shading pattern are the same film layer. 如申請專利範圍第1項所述的顯示裝置,其中該第二畫素陣列的畫素數目與該第一畫素陣列的畫素數目一致,且該第二遮光圖案所定義出的單元區域數目與該第一遮光圖案所定義出的單元區域數目一致。The display device of claim 1, wherein the number of pixels of the second pixel array is consistent with the number of pixels of the first pixel array, and the number of unit regions defined by the second light shielding pattern It is consistent with the number of unit regions defined by the first light shielding pattern. 一種顯示裝置,包括:一第一顯示面板,包括:一第一畫素陣列;一第一彩色濾光陣列,對應該第一畫素陣列設置;以及一第一遮光圖案,對應該第一彩色濾光陣列設置;以及一第二顯示面板,對應該第一顯示面板設置且該第一顯示面板與該第二顯示面板之間相距一距離,該第二顯示面板包括:一第二畫素陣列;一第二彩色濾光陣列,對應該第二畫素陣列設置;一第二遮光圖案,對應該第二彩色濾光陣列設置;以及一擬遮光圖案,位於該第二遮光圖案之中,以使該第二遮光圖案所定義出的每一個單元區域進一步分成多個次單元區域。A display device includes: a first display panel comprising: a first pixel array; a first color filter array corresponding to the first pixel array; and a first light shielding pattern corresponding to the first color a filter array is disposed; and a second display panel is disposed corresponding to the first display panel and the first display panel is spaced apart from the second display panel, the second display panel includes: a second pixel array a second color filter array corresponding to the second pixel array; a second light shielding pattern corresponding to the second color filter array; and a pseudo light shielding pattern located in the second light shielding pattern to Each unit area defined by the second shading pattern is further divided into a plurality of sub-unit areas. 如申請專利範圍第10項所述的顯示裝置,其中該第一顯示面板為一自發光顯示面板或是一具有背光模組之顯示面板,該第二顯示面板為一穿透式顯示面板,且該顯示裝置更包括:一殼體,該殼體具有一開口,其中該第二顯示面板裝設於該開口上,且該第一顯示面板裝設在該殼體內並位在該第二顯示面 板的背面;以及一光源,設置在該殼體內,以提供該第二顯示面板所需之光源。The display device of claim 10, wherein the first display panel is a self-luminous display panel or a display panel having a backlight module, and the second display panel is a transmissive display panel, and The display device further includes: a housing having an opening, wherein the second display panel is mounted on the opening, and the first display panel is disposed in the housing and located on the second display surface a back side of the board; and a light source disposed within the housing to provide a light source for the second display panel. 如申請專利範圍第10項所述的顯示裝置,其中該第一顯示面板為一穿透式顯示面板,該第二顯示面板為一自發光顯示面板或是一具有背光模組之顯示面板,且該顯示裝置更包括:一殼體,該殼體具有一開口,其中該第一顯示面板裝設於該開口上,且該第二顯示面板裝設在該殼體內並位在該第二顯示面板的背面;以及一光源,設置在該殼體內,以提供該第一顯示面板所需之光源。The display device of claim 10, wherein the first display panel is a transmissive display panel, and the second display panel is a self-illuminating display panel or a display panel having a backlight module, and The display device further includes: a casing having an opening, wherein the first display panel is mounted on the opening, and the second display panel is disposed in the casing and located in the second display panel a back surface; and a light source disposed within the housing to provide a light source required for the first display panel. 如申請專利範圍第10項所述的顯示裝置,其中該第一畫素陣列以及該第二畫素陣列各自包括多條掃描線、多條資料線以及多個畫素單元,且該擬遮光圖案在每一個單元區域內的延伸方向與該些掃描線平行。The display device of claim 10, wherein the first pixel array and the second pixel array each comprise a plurality of scan lines, a plurality of data lines, and a plurality of pixel units, and the pseudo light shielding pattern The direction of extension in each of the cell regions is parallel to the scan lines. 如申請專利範圍第10項所述的顯示裝置,其中該第一畫素陣列以及該第二畫素陣列各自包括多條掃描線、多條資料線以及多個畫素單元,且該擬遮光圖案在每一個單元區域內的延伸方向與該些資料線平行。The display device of claim 10, wherein the first pixel array and the second pixel array each comprise a plurality of scan lines, a plurality of data lines, and a plurality of pixel units, and the pseudo light shielding pattern The direction of extension in each unit area is parallel to the data lines. 如申請專利範圍第10項所述的顯示裝置,其中該第一畫素陣列以及該第二畫素陣列各自包括多條掃描線、多條資料線以及多個畫素單元,且該擬遮光圖案在每一個單元區域內的延伸方 向與該些資料線平行且與該些掃描線平行。The display device of claim 10, wherein the first pixel array and the second pixel array each comprise a plurality of scan lines, a plurality of data lines, and a plurality of pixel units, and the pseudo light shielding pattern Extension in each unit area Parallel to the data lines and parallel to the scan lines. 如申請專利範圍第10項所述的顯示裝置,其中該擬遮光圖案與該第二遮光圖案之間具有一夾角,且該夾角不等於0度、90度或180度。The display device of claim 10, wherein the pseudo-shielding pattern and the second shading pattern have an angle between the angles, and the angle is not equal to 0 degrees, 90 degrees or 180 degrees. 如申請專利範圍第10項所述的顯示裝置,其中該擬遮光圖案的材質與該第二遮光圖案的材質相同。The display device according to claim 10, wherein the material of the pseudo-shielding pattern is the same as the material of the second shading pattern. 如申請專利範圍第10項所述的顯示裝置,其中該第一擬遮光圖案與該第一遮光圖案為同一層膜層。The display device of claim 10, wherein the first pseudo-shielding pattern and the first shading pattern are the same film layer. 如申請專利範圍第10項所述的顯示裝置,其中該第二畫素陣列的畫素數目與該第一畫素陣列的畫素數目一致,且該第二遮光圖案所定義出的單元區域數目與該第一遮光圖案所定義出的單元區域數目一致。The display device of claim 10, wherein the number of pixels of the second pixel array is consistent with the number of pixels of the first pixel array, and the number of unit regions defined by the second light shielding pattern It is consistent with the number of unit regions defined by the first light shielding pattern.
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