M415321 100-6-29 年月d 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種顯示面板,且特別是有關於一種 可改善色偏(color shift)現象之顯示面板。 【先前技術】 現今市場對於薄膜電晶體液晶顯不面板(thin film transistor liquid crystal display panel,TFT-LCD panel)的性 能要求是朝向高對比(high contrast ratio )、無灰階反轉(no gray scale inversion)、色偏小(low color shift)、亮度高 (high luminance)、高色彩豐富度、高色飽和度、快速反 應與廣視角等方向發展。廣視角的相關技術包括有扭轉向 列型(TN )液晶顯示面板加上廣視角膜(wide viewing film )、共平面切換式(jn_piane switching, jpg )液晶顯示 面板、邊際場切換式(fringe field switching,FFS)液晶顯 示面板與多域垂直配向式(multi_d〇main vertically alignment,MVA)薄臈電晶體液晶顯示面板等。利用上述 各種技術都可以使液晶顯示面板達到廣視角的顯示功效。 然而’隨著觀察之視角改變,習知液晶顯示面板所呈現的 gamma曲線具有不同的曲率。因此,當觀察視角改變時, 習知液晶顯不面板所顯示出的亮度會產生變化,進一步衍 生色偏(colorshift)或色飽和度不足(color washout)等 問題。 為了解決色偏的問題,已有多種習知技術相繼被提 丁 η 出。其中-種方法是在單一畫素單元内多形成一個電容, 利用電容耗合的方式使單一畫素單元内的不同晝素電極分 =產生不同大小的電場。因此,單一晝素單元中不同畫素 電極亡方的液晶分子可以呈現不同的排列方式以達到不同 的顯示亮度。雖然此種方式可以改善色偏現象,但是卻因 '為有阻容麟(Rc delay)效應而造成顯示品質下降之缺 點。 、 • …方法是在各個畫素單元内增加-個電晶體;也 就是說’單-畫素單元中會有兩個電晶體。藉由這兩個電 一畫素單元中的兩個晝素電極呈現不同的顯 進而讓不同畫素電極上方的液晶分子有不同的排 一工以達到改善色偏之目的。然而,為了在單—畫素 置兩個電晶體’液晶顯示面板中需要增:掃 二产:η:的數目’所以此方法不但增加驅動電路的複 ''又,更會影響液晶顯示面板的顯示開口率。 參 【新型内容】 _ =作提供—種顯示面板’其具有較佳的顯示品質。 K作提出—種顯示面板,其包括-主動元件陣列基 包括一:色核基板以及—顯科質。线元件陣列基板 社播*板、多條掃描線、多條資料線以及多個晝素 :構息掃描線配置於第-基板上。資料線配置於第-基板 槿配ί描線與資料線交錯而定義出多個畫素區域。晝素結 構配置於第-基板上且分別位於晝素區域中,其中每一晝 5 M415321 M415321 r t .科丨 補充丨 100-6-29 年月 主動元件、一晝素電極以及-共通電^ ==:=:其中-條資料線。晝 夸雷搞且女ΐ 於其中一個晝素區域中。晝 色濟〃 一狹縫。共通電極與至少一狹縫重疊。彩 於主動元件陣列基板的上方。彩色瀘光基 Λ#卜甘Γ土板以及一電極圖案。電極圖案配置於第二 極圖案在第一基板上的正投影與主動元件 陣列基i與彩色。f示介質配置於主動元件 先基板之間。顯示介質主要是由位於第 土板上之里素電極與共通電極之間的電場所驅動。 ^作之—實施例中,上述之共通電極配置於畫素 =^下方,並位於畫素電極與第— 電極電性絕緣。 儿^、旦系 〜絕實施例中,上述之每—畫素結構更包括 絕緣層’其巾_雜置於共通電極與晝素電極之間。 窗,ΐίΐ作之—實施例中,上述之絕緣層具有一接觸 旦素電極透過接觸窗與主動元件電性連接。 貧質一實施例中’上述之共通電極與晝素電極 咬丨之一實施例中,上述之電極圖案的面積等於 '小於晝素電極的面積的50%。 f本創作之-實施例中’上述之電極圖案的一側邊於 正投影與其中—條掃描線於第—基板上之正 尺办方向具有一夹角,且夹角介於〇度至9〇度之間。 6 财15321 在本創作之一實施例中’上述之電極圖案扛. 條狀、菱形或;i牌形。 在本創作之-實施例中,上述之彩色渡光 =矩陣圖=及多個彩㈣光圖案,其中黑矩陣圖案配 tr;圖㈣關,而電_案配置於彩色渡 九圖案上。 t創作之-實施例中,上述之電極圖案與共通電極 之間具有一電位差或具有相同電位。 基於上述,由於本實施例之第一基板上之 狹縫與共通電極重疊,且第二基板上配置有科 =動Γ重疊設置的電極圖案。因此,本創作丄 文交第-基板上之電極圖案的電位(意即電極圖案的電位 與共通電極之間可具有電位差或具有相同電位),而在第 一基板與第二基板之間同時產生水平電場與垂直電場,進 而可改善色偏現象以及滿足高透過率的需求。如此一來, 本創作之顯示面板可具有較佳的顯示品質。 為讓本創作之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。 【實施方式】 一圖1A為本創作之一實施例之一種顯示面板的局部俯 視示意圖。圖1B為沿圖1A之線w的剖面示意圖。請同 時參考圖1A與圖1B,在本實施例中,顯示面板則a包 括-主動元件陣列基板2GG、-彩色;絲基板遍以及一 7 rM415321M415321 100-6-29 Year Month d V. New Description: [New Technology Field] This creation is related to a display panel, and in particular to a display panel that can improve the color shift phenomenon. [Prior Art] The performance requirements of the thin film transistor liquid crystal display panel (TFT-LCD panel) in today's market are toward high contrast ratio and no gray scale. Inversion), low color shift, high luminance, high color richness, high color saturation, fast response and wide viewing angle. Related technologies of wide viewing angle include twisted nematic (TN) liquid crystal display panel plus wide viewing film, coplanar switching (jn_piane switching, jpg) liquid crystal display panel, fringe field switching (fringe field switching) , FFS) liquid crystal display panel and multi-domain vertical alignment (MVA) thin germanium crystal liquid crystal display panel. With the above various technologies, the liquid crystal display panel can be made to display a wide viewing angle. However, as the viewing angle changes, the gamma curves exhibited by conventional liquid crystal display panels have different curvatures. Therefore, when the viewing angle is changed, the brightness of the liquid crystal display panel is changed by the conventional liquid crystal display, and further problems such as color shift or color washout are derived. In order to solve the problem of color shift, a variety of conventional techniques have been successively extracted. One of the methods is to form a capacitor in a single pixel unit, and use a capacitor to divide the different pixel electrodes in a single pixel unit to generate electric fields of different sizes. Therefore, liquid crystal molecules of different pixel electrodes in a single halogen unit can be arranged in different ways to achieve different display brightness. Although this method can improve the color shift phenomenon, it is caused by the lack of display quality due to the Rc delay effect. The method is to add a transistor to each pixel unit; that is, there are two transistors in the 'single-pixel unit. The two halogen electrodes in the two electro-pixel units exhibit different appearances, so that the liquid crystal molecules above the different pixel electrodes have different alignments to achieve the purpose of improving the color shift. However, in order to place two transistors in a single-pixel display, the liquid crystal display panel needs to be increased: the number of sni:n:: so this method not only increases the complex circuit of the driving circuit, but also affects the liquid crystal display panel. The aperture ratio is displayed. [New content] _ = provide a kind of display panel' which has better display quality. K is proposed as a display panel comprising: an active device array base comprising: a color core substrate and a display material. Line element array substrate The social broadcast* board, a plurality of scanning lines, a plurality of data lines, and a plurality of elements: the structure scanning lines are disposed on the first substrate. The data lines are arranged on the first substrate. The 描-wiring lines are interleaved with the data lines to define a plurality of pixel regions. The halogen structure is arranged on the first substrate and is respectively located in the halogen region, wherein each 昼 5 M415321 M415321 rt . The 丨 丨 丨 100-6-29 months active element, a halogen electrode and - common power ^ = =:=: Where - the data line.夸 Quare and the son-in-law in one of the areas.昼 〃 〃 〃 a slit. The common electrode overlaps at least one slit. The color is above the active device array substrate. Color enamel base Λ #卜甘Γ土板 and an electrode pattern. The electrode pattern is disposed on the front projection of the second pole pattern on the first substrate and the active device array base i and color. The f medium is disposed between the active substrate and the substrate. The display medium is mainly driven by an electric field between the iridium electrode and the common electrode on the earth plate. In the embodiment, the common electrode is disposed below the pixel =^, and the pixel electrode is electrically insulated from the first electrode. In the embodiment, the above-mentioned per-pixel structure further includes an insulating layer, and the towel is interposed between the common electrode and the halogen electrode. In the embodiment, the insulating layer has a contact electrode electrically connected to the active device through the contact window. In the embodiment of the above-mentioned common electrode and the halogen electrode biting, in the embodiment of the lean embodiment, the area of the electrode pattern described above is equal to 'less than 50% of the area of the halogen electrode. In the present invention, in the embodiment, the side of the electrode pattern has an angle between the orthographic projection and the direction in which the scanning line is on the first substrate, and the angle is between 9 and 9 Between degrees. 6 Finance 15321 In one embodiment of the present invention, the above-mentioned electrode pattern 扛. strip, diamond or i-shaped. In the present embodiment, the color crossing light = matrix pattern = and a plurality of color (four) light patterns, wherein the black matrix pattern is provided with tr; the figure (4) is off, and the electricity pattern is disposed on the color pattern. In the embodiment, the electrode pattern has a potential difference or has the same potential between the electrode pattern and the common electrode. Based on the above, since the slit on the first substrate of the present embodiment overlaps with the common electrode, and the second substrate is provided with an electrode pattern in which the movable layer overlaps. Therefore, the potential of the electrode pattern on the substrate-substrate (that is, the potential of the electrode pattern and the common electrode may have a potential difference or have the same potential), and the first substrate and the second substrate are simultaneously generated. The horizontal electric field and the vertical electric field can improve the color shift phenomenon and meet the requirement of high transmittance. In this way, the display panel of the present invention can have better display quality. To make the above-described features and advantages of the present invention more comprehensible, the following detailed description of the embodiments and the accompanying drawings are set forth below. [Embodiment] FIG. 1A is a partially schematic perspective view of a display panel according to an embodiment of the present invention. Fig. 1B is a schematic cross-sectional view taken along line w of Fig. 1A. Referring to FIG. 1A and FIG. 1B at the same time, in the embodiment, the display panel a includes an active device array substrate 2GG, a color, a silk substrate, and a 7 rM415321.
顯示介質400。 詳細來說,主動元件陣列基板2〇〇包括一第一基板 210、多條掃描線220、多條資料線230以及多個畫素結構 240。掃描線220配置於第一基板21〇上。資料線23〇配置 於第一基板210上。掃描線220與資料線230交錯而定義 出多個晝素區域P。畫素結構240配置於第一基板210上 且分別位於晝素區域p中,其中每一畫素結構24〇包括一 主動元件242、一晝素電極244、一共通電極246以及一絕 緣層248。主動tl件242電性連接其中一條掃描線22〇以 及其中一條資料線230’其中主動元件242包括閘極243a、 覆蓋閘極243a的閘絕緣層243b、配置於閘絕緣層243b上 的半導體通道層243c、源極243e、汲極243f以及配置於 源極243e與半導體通道層243c之間與汲極243f與半導體 通道層243c之間的歐姆接觸層243d。 再者’晝素電極244電性連接主動元件242且位於其 中一個畫素,其巾晝素電極244具有至少-狹縫 S。特別是,共通電極246與狹縫s重疊。更具體來說, 在本實施例中,共通電極246配置於畫素電極的下方, 且共通電極246位於晝素電極244與第一基板21〇之間, 其中絕緣層248配置於共通電極246與晝素電極248之 間’以使共通電極246與畫素電極244電性絕緣,而狹縫 S暴露出位於共通電極246上方的部分絕緣層撕。此外, 絕緣層248具有一接觸窗C 1晝素電極244透過接觸窗 C與主動元件242電性連接。 8 M415321 100-6-29 年月 彩色濾光基板300a配置於主動元件陣列基板200的 上方,其中彩色濾光基板300a包括一第二基板31〇、—電 極圖案320a、一黑矩陣圖案330以及多個彩色濾光圖案 340。電極圖案320a配置於第二基板310上,其中電極圖 案320a在第一基板210上的正投影與主動元件242於第一 基板210上的正投影不重疊。黑矩陣圖案配置於每一 彩色濾光圖案340的周圍,而電極圖案32〇a配置於彩色濾 光圖案340上。 心 特別是,在本實施例中,電極圖案32〇a的面積是等 於或小於晝素電極244的面積的50%。電極圖案320a的一 側邊於第一基板210上的正投影與其中一條掃描線22〇於 第一基板210上之正投影的延伸方向具有一夾角α,且夾 角α介於0度至90度之間,較佳地,夾角α為45度。第 二基板310上之電極圖案320a與第一基板21〇上之共通電 極246之間例如是具有一電壓差或具有相同的電位。此 外’電極圖案320a的形狀例如是條狀。 顯示介質400配置於主動元件陣列基板2〇〇與彩色濾 光基板300a之間。特別是,在本實施例中,顯示介質4⑻ 主要是由位於第一基板210上之晝素電極244與共通電極 246之間的電場所驅動。此外,本實施例之顯示介質4〇〇 例如是液晶。 由於本實施例之第一基板210上之畫素電極244的狹 縫S與共通電極246重疊,且第二基板31〇上配置有不與 第一基板210上之主動元件242重疊設置的電極圖案 9 M415321 M〇a。在僅施加電壓至主動元件陣列基板2〇〇上時,由於 第一基板210上之畫素電極244與共通電極246的電位改 ,,而使得第一基板210與第二基板31〇之間產生水平電 場,進而讓位於第一基板21〇與第二基板31〇之間的顯示 介質400產生多域的配向。然而’由於第一基板21〇與第 二基板310之贿產生單-方_電場(意即水平電場), 因此當使时觀賞肖度觀看_面板職所顯 示的影像時,齡看見與原料彡像列色彩_的影像, 例如使用者在以較偏斜的角度觀看時會看見較原始影像偏 白的影像’而破壞影像的顯示品質,這種情形即所謂的 偏現象。 為了改善上述之問題,本實施例透過於第二基板31〇 上配置不與第一基板210上之主動元件242重疊設置的電 極,案通’且同時施加電駐主動元件陣列基板2〇〇以 及彩色濾光基板300a上,來改變第一基板21〇上之晝素電 極244與共通電極246的電位以及第二基板31〇上二電極 圖案320a的電位。其命,電極圖案32〇a的電位與共通電 籲 極246之間可具有電位差或具有相同電位。如此一來在 第-基板210與第二基板310之間可同時產生水平電場與 -垂直電場’請參考圖1B’進而可改善色偏現象以及滿足高 透過率的需求。換言之’本實施例之顯示面板1〇〇a可具有 較佳的顯示品質。 此外,本創作並不限定電極圖案32〇a的形態,雖缺 此處所提及的電極冑案320a的形狀具體化為條狀二但於= 10 M415321 η修正 …補充 3::;:亦;t:2:彩色遽光基板3_之電極圖案 狀亦了為盾牌形;或者是, 之電極圖案320c的形狀亦可為菱形;或者是: 形狀。只要電極圖案的設計滿足‘ 畫素電極244的面積的观,以及 =圖案的一侧邊於第一基板210 掃描線220於第一美柘91“一上 具中一條 弟基板21〇上之正投影的延伸方向具 2 L且夾角:介於°度至9°度之間’皆屬於本創作可 &用的技術方案,不脫離本創作所欲保護的範圍。 值得-提的是,本創作亦不限制第一基板21〇上 =極244與共通電極246的排列方式,雖然此處所提^ 的/、通電極246是配置於畫素電極244的下方,且書 J 244的狹縫S暴露出位於共通電極246上方的部;絕緣 曰248。但於其他實施例中,請參考圖4,顯示面板聰 =畫素結構240d的共通電極246d與晝素電極244d亦可實 質上共平面,此仍屬於本創作可採用的技術方 本創作所欲保護的範圍。 〃 综上所述,由於本實關之第—基板上之晝素電 狹縫與共通電極重疊,且第二基板上配置有不鱼第一美 上之主動元件重疊設置的電極圖案。因此,本^作可$ 改變第二基板上之電極圖案的電位(意即電極_的電位 與共通電極之間可具有電位差或具有相同電位),、而在 一基板與第二基板之間同時產生水平電場與垂直電場,進 而可改善色偏現象以及滿足高透過率的需求。如此一來 11 100-6-29 年月 本創作之顯示面板可具有較佳的顯示品質。 雖然本創作已以貫施例揭露如上,然其並非用以限定 本創作’任何所屬技術領域中具有通常知識者,在不脫離 本創作之精神和範圍内,當可作些許之更動與潤飾,故本 創作之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 一圖1A為本創作之一實施例之—種顯示面板的局部俯 視示意圖。 圖1B為沿圖1A之線1_1的剖面示意圖。 一圖2為本創作之一實施例之另一種顯示面板的局部俯 視示意圖。 圖3為本創作之-實施例之又一種顯示面板的局 視示意圖。 、圖4為本創作之一實施例之再—種顯示面板的局部俯 視示意圖。 【主要元件符號說明】 l〇〇a、l〇〇b、iooc、i〇〇d :顯示面每 2〇〇 :主動元件陣列基板 210 :第一基板 220 ·掃描線 230 :資料線 240、240d :畫素結構 12 M415321The medium 400 is displayed. In detail, the active device array substrate 2 includes a first substrate 210, a plurality of scanning lines 220, a plurality of data lines 230, and a plurality of pixel structures 240. The scan line 220 is disposed on the first substrate 21A. The data line 23 is disposed on the first substrate 210. The scan line 220 is interleaved with the data line 230 to define a plurality of halogen regions P. The pixel structure 240 is disposed on the first substrate 210 and located in the pixel region p, wherein each pixel structure 24 includes an active device 242, a halogen electrode 244, a common electrode 246, and an insulating layer 248. The active tl member 242 is electrically connected to one of the scan lines 22A and one of the data lines 230'. The active device 242 includes a gate 243a, a gate insulating layer 243b covering the gate 243a, and a semiconductor channel layer disposed on the gate insulating layer 243b. 243c, a source 243e, a drain 243f, and an ohmic contact layer 243d disposed between the source 243e and the semiconductor channel layer 243c and between the drain 243f and the semiconductor channel layer 243c. Further, the [Deuterium electrode 244] is electrically connected to the active element 242 and is located in one of the pixels, and the cover element electrode 244 has at least a slit S. In particular, the common electrode 246 overlaps the slit s. More specifically, in this embodiment, the common electrode 246 is disposed under the pixel electrode, and the common electrode 246 is located between the pixel electrode 244 and the first substrate 21A, wherein the insulating layer 248 is disposed on the common electrode 246 and The boundary between the halogen electrodes 248 is such that the common electrode 246 is electrically insulated from the pixel electrode 244, and the slit S exposes a portion of the insulating layer that is located above the common electrode 246. In addition, the insulating layer 248 has a contact window C1, and the electrode 244 is electrically connected to the active device 242 through the contact window C. 8 M415321 100-6-29 The color filter substrate 300a is disposed above the active device array substrate 200. The color filter substrate 300a includes a second substrate 31, an electrode pattern 320a, a black matrix pattern 330, and a plurality of Color filter patterns 340. The electrode pattern 320a is disposed on the second substrate 310, wherein the orthographic projection of the electrode pattern 320a on the first substrate 210 does not overlap with the orthographic projection of the active device 242 on the first substrate 210. The black matrix pattern is disposed around each of the color filter patterns 340, and the electrode patterns 32A are disposed on the color filter patterns 340. In particular, in the present embodiment, the area of the electrode pattern 32〇a is equal to or smaller than 50% of the area of the halogen electrode 244. An orthogonal projection of one side of the electrode pattern 320a on the first substrate 210 has an angle α with an extending direction of an orthographic projection of one of the scanning lines 22 on the first substrate 210, and the angle α is between 0 and 90 degrees. Preferably, the angle α is 45 degrees. The electrode pattern 320a on the second substrate 310 and the common electrode 246 on the first substrate 21 have, for example, a voltage difference or have the same potential. Further, the shape of the electrode pattern 320a is, for example, a strip shape. The display medium 400 is disposed between the active device array substrate 2A and the color filter substrate 300a. In particular, in the present embodiment, the display medium 4 (8) is mainly driven by an electric field between the halogen electrode 244 and the common electrode 246 located on the first substrate 210. Further, the display medium 4 of the present embodiment is, for example, a liquid crystal. The slit S of the pixel electrode 244 on the first substrate 210 of the present embodiment overlaps with the common electrode 246, and the second substrate 31 is disposed with an electrode pattern that is not disposed overlapping the active device 242 on the first substrate 210. 9 M415321 M〇a. When only a voltage is applied to the active device array substrate 2, since the potential of the pixel electrode 244 and the common electrode 246 on the first substrate 210 is changed, the first substrate 210 and the second substrate 31 are generated. The horizontal electric field, in turn, causes the display medium 400 located between the first substrate 21A and the second substrate 31A to produce a multi-domain alignment. However, since the bribe of the first substrate 21〇 and the second substrate 310 generates a single-square electric field (that is, a horizontal electric field), when viewing the image displayed by the panel display, the age is seen and the raw material is viewed. For images like column color _, for example, when the user views at a more oblique angle, he will see an image that is whiter than the original image' and destroy the display quality of the image. This is a so-called partial phenomenon. In order to improve the above problem, the present embodiment is configured to dispose an electrode disposed on the second substrate 31 without overlapping the active device 242 on the first substrate 210, and simultaneously apply the electric active active device array substrate 2 and The potential of the halogen electrode 244 and the common electrode 246 on the first substrate 21 and the potential of the second electrode pattern 320a on the second substrate 31 are changed on the color filter substrate 300a. The potential of the electrode pattern 32〇a and the common-current capacitor 246 may have a potential difference or have the same potential. As a result, a horizontal electric field and a vertical electric field can be simultaneously generated between the first substrate 210 and the second substrate 310. Referring to Fig. 1B', the color shift phenomenon and the requirement for high transmittance can be improved. In other words, the display panel 1A of the present embodiment can have a better display quality. In addition, the present invention does not limit the shape of the electrode pattern 32〇a, although the shape of the electrode pattern 320a mentioned here is embodied as a strip shape but is corrected by = 10 M415321 η... Supplement 3::;: ;t: 2: The shape of the electrode of the color light-emitting substrate 3_ is also a shield shape; or, the shape of the electrode pattern 320c may be a diamond shape; or: a shape. As long as the design of the electrode pattern satisfies the view of the area of the pixel electrode 244, and the side of the pattern is on the first substrate 210, the scan line 220 is on the first substrate 91. The extension direction of the projection has 2 L and the angle: between ° and 9 ° degrees is a technical solution for this creation and can not be deviated from the scope of the creation of this creation. It is worth mentioning that this The creation does not limit the arrangement of the first substrate 21 and the common electrode 246, although the / electrode 246 is disposed below the pixel electrode 244, and the slit of the book J 244 S exposes a portion above the common electrode 246; the insulating layer 248. However, in other embodiments, referring to FIG. 4, the common electrode 246d and the pixel electrode 244d of the panel Cong = pixel structure 240d may also be substantially coplanar. This still belongs to the scope of the technology that can be protected by the creation of this creation. 〃 In summary, since the second element of the substrate is overlapped with the common electrode and on the second substrate It is equipped with the first active element overlap of the fish. The electrode pattern. Therefore, the potential of the electrode pattern on the second substrate can be changed (that is, the potential of the electrode_ can have a potential difference or have the same potential between the common electrodes), and on a substrate and the second The horizontal electric field and the vertical electric field are simultaneously generated between the substrates, thereby improving the color shift phenomenon and satisfying the requirement of high transmittance. Thus, the display panel of the present invention can have better display quality in 11 100-6-29. The present invention has been disclosed in the above embodiments, but it is not intended to limit the present invention to anyone having ordinary knowledge in the art, and may make some changes and refinements without departing from the spirit and scope of the present invention. The scope of protection of this creation is subject to the definition of the patent application scope. [FIG. 1A] FIG. 1A is a partial top view of a display panel according to an embodiment of the present invention. 1A is a schematic cross-sectional view of another display panel of one embodiment of the present invention. FIG. 3 is another schematic view of the present invention. FIG. 4 is a partial top view of a display panel according to an embodiment of the present invention. [Main component symbol description] l〇〇a, l〇〇b, iooc, i〇〇d : display surface every 2 turns: active device array substrate 210: first substrate 220 · scan line 230: data line 240, 240d: pixel structure 12 M415321
242 :主動元件 243a :閘極 243b :閘絕緣層 243c :半導體層 243d :歐姆接觸層 243e :源極 243f :汲極 ' 244、244d :晝素電極 ^ 246、246d :共通電極 248 :絕緣層 300a、300b、300c :彩色濾光基板 310 :第二基板 320a、320b、320c :電極圖案 330 :黑矩陣圖案 340:彩色濾光圖案 400 :顯示介質 • C:接觸窗 , S :狹縫 P:晝素區域 α :夾角 13242: active element 243a: gate 243b: gate insulating layer 243c: semiconductor layer 243d: ohmic contact layer 243e: source 243f: drain electrode '244, 244d: halogen electrode ^ 246, 246d: common electrode 248: insulating layer 300a 300b, 300c: color filter substrate 310: second substrate 320a, 320b, 320c: electrode pattern 330: black matrix pattern 340: color filter pattern 400: display medium • C: contact window, S: slit P: 昼Prime area α: angle 13