200819876 九、發明說明: ^ 【發明所屬之技術領域】 • 本發明係關於一種陣列基板;特別係關於一種用於液晶顯示 為’不具大視角色偏問題之陣列基板。 【先前技術】 隨著科技進步,各種電子產品已成為人們生活不可或缺的一 部分。其中,顯示器為多媒體電子產品的重要元件。而薄膜電晶 體液晶顯示器(thin film transistor liquid crystal display,TFT LCD) 具有省電、無幅射、體積小、低耗電量、不佔空間、平面直角、 高解析度、畫質穩定等優點,已逐漸取代傳統的陰極射線管顯示 器(cathode ray tube display,CRT display),廣泛用於手機、螢幕、 數位電視、筆記型電腦等電子產品的顯示面板上。 一隨著薄膜電晶體液晶顯示器相關技術的迅速發展,改善其顯 示旦貝成為此領域共同之目標。以視角廣度而言,富士通研發之 多重分域垂直配向(multi-domain vertical alignment,MVA)技術將 上下視角擴展到120。左右,此技術已大幅改善液晶顯示器之視 .角,不遜於陰極射線管顯示器之大視角特徵。 但由於應用多重分域垂直配向技術之顯示器時有大視角色 偏及漏光之情況發生,同時其製程較為複雜且製造成本又較高, 改善多重分域垂直配向技術缺陷的聚合物穩定配向(p〇^mer s^abil^d allgnment ’ PSA)技術於是興起。聚合物穩定配向技術之 旦素<汁係使液晶分子具有固定的預傾角,當 日2=子會因著畫素電極與共用電極輯 ^間偏轉至所需角度,隨著不同的晝素_形狀而形成多個分 域0 然而’ ^:到電場分布不規_影響,使得兩畫素結構之相鄰 200819876 區域附近的液晶分子排列不佳’共用電極(c〇mm〇nline)中央區域 附近之液晶分子的排列亦不理想,如第1圖畫素1之圈示區域。 這些排列不理想的液晶會產生色飽和度不足(cd〇r wash〇m)的 現象,而使得亮區分佈不規則,尤其是在左右方向的視角表現。 是故儘^聚合物穩定配向技術提高了薄膜電晶體液晶顯示器的 對比、亮度及縮短反應時間,仍無法解決大視角色偏的問題。 細上所述’現存之薄膜電晶體液晶顯示器具有大視角色偏之 缺陷,且a液晶洲不賴,影響亮區分部而發生漏光的情形, 影響顯示品質。是故,如何避免大視角色偏、改善液晶分子排列, 進而避免漏光發生係為此業界亟待研究之課題。 【發明内容】 本發明之一目的在於提供一種陣列基板。此陣列基板包含一 底材以及複數晝素結構。複數晝素結構位於底材上,每一 結構包含―第:晝素電極以及—第―遮蔽物:第—畫素電極g -^間部以及複數個分支與中間部連接,第—遮蔽物係至少與第 一晝素電極之中間部重疊(overlap)。 -底ϋϊίί 2=於提供—轉列基板。此陣列基板包含 去旦ί°構。複數晝素結構位於底材上,每-該書 素,包含1-晝素電極以及—第二晝素電極。第—晝素電極 二:ΤίϊΓί支以及一第一連接部。複瓣支與中 接部連接第一晝素電極之至少二相鄰分支之- 金弟—連接部係與第—晝素極之中間部實質上垂直。 ί 1—晝素電極相鄰,具有-中間部以及複數個分 支,稷數個分支係與中間部連接。 文 刀 一底ί’ίίΐΖ*於提供一辦列基板。此陣列基板包含 絲卜用電極以及複數晝素結構。第-共用電極位於 旦素結構亦位於底材上。每-該畫素結構包含-第 200819876 極,第—晝素電極具有—中間部以及―第-分支,第-部ί直相連。第一畫素電極之第-分支“第-ί用 奸!ΐΐί述之安排,本發明可既可改善大視角的色偏現象,更 ^ j·,4的液晶排列,避免漏光發生,進而得到更佳之顯示品 知该隨後描述之實施方式後,該技術領域具有通常 施ϊί便可瞭解本發明之其他目的,以及本剌之麟手段及實 【實施方式】 社本發明應用聚合物穩定配向之技術,改變陣列基板中的像素 以改善液晶排财向,不但能避免漏光,更能藉此解決大 子角之色偏問題。本發明之詳細内容如後描述所示。 本發明揭露一種陣列基板,用於一薄膜電晶體液晶顯示器 干。此陣列基板包含一底材以及位於底材上的複數個畫素結構二 士發明之第一實施例如第2圖及第3圖所示。於此實施例 Τ,一,素結構2包含一共用電極2〇、一掃描線21、一資料線 _ ^ _第晝素電極23、一第二晝素電極24、一第一遮蔽物、 :遮蔽物、一第一開關以及一第二開關。第一遮蔽物係為一 匕導線25 ’可與第-晝素電極23電性連接;第二鑛物 二f二導線26;第一導線25與一第二導線26係為連接而北同盥 1 —缚膜電晶體27電性連接,第一薄膜電晶體27係用以押制^第 二J素電極23,第一導線25與-第二導線26可同時形成;第一 =關以及第二開關分別為一第一薄膜電晶體27和一第二薄膜雨 中華民國專射請號第95129118號之内容係併λ本ί 200819876 施例圖及第3圖,其中第2圖係為本發明之第一實 。冓2之上視圖,第3圖則為此畫素結構2之2a-2a, ilf/,°如第2圖所* ’掃描線21係用以傳送一掃描 而虎,貝抖線22顧以舰—輕訊號。 23具气一第一中間部231以及複數個分支 .^ *为支233與第一中間部231連接,複數個分支233 4〇"5〇° ' 13〇^14〇° ' 22〇°^^ 31〇ϊ?〇〇;^ 間。卩231之夾角方向延伸,更佳者係以45。、135。、225。及3ΐ5中。 申,且部分與第一中間部231形成相同夾角的複 八立刀 糸互相平行,是故第一晝素電極23可依分支方向 。作為遮蔽物之第一導線25係與第-中間部231 及複數個分支233部分重疊(overiap)。 3地,第二晝素電極24具有一第二中間部241 mr日=數個Λ支243與第二中間部241連接,並往四 方向延伸:且與弟广中間部241形成相同夾角的複數個分支如 ϋ t平彳τ ’是故第二晝素電極2 4可依分支方向分為四個分域: 蔽物之第二導線26係與第二中間部241及部分複數‘ 重豐,於此貫施例中,第—導線25與第二導線26可為金 第-實施例中第-薄膜電晶體27以及第 為電編’且第-薄膜電晶體27係為一弟^體: 5晶體28弱之電晶體’其電性_方式係H勝 溥膜電晶體27之職極-端與第—錄電極23 弟: 一端則連接至資料線22,而第一薄膜電a =二,接另 描線2卜是故第-薄膜電晶體27係為“結構“ °連,至巧 描訊號而開啟,以導通並傳送電壓訊號至第:因應掃 相應的顯示區域。第二薄膜電晶體28之驅動 電極24電性連接,另一端則連接至/、弟二畫素 貝料線22,而第二薄膜電晶 200819876 體28之閘極連接至掃描線21,是 結構之開關’因應掃描訊號而·,以—導體28係為晝素 二晝素電極24,㈣域__域。mu壓訊號至第 ,第-晝素電極23累積之f荷經由^ 4 晶體27可 荷累積而在第-晝素電極23形成影像殘留。、出’防止因電 電極24彼此獨丨二二 素電極23與第二晝素 相應此二晝素電極之液晶層-29'受’使分布於 現不同液晶排列,且此二書素雷=;^问強度之電場影響,呈 構2具有八個液晶分域。^著分域數2m角=畫ΐ結 便能大幅改善。本發明更藉由 曰=色偏之t月形 二畫素電極之中間部,用二或H線%延伸於 狀。 Τ Η用以輕中間部,減少漏光以改善亮區形 接士上述第—實施例僅用以說明本發明之—態樣,於1他與祐能 車_ —,ΒΜ)亦可作為遮^物當 =為f叫係將黑矩陣設置於底材上=言:使= =可為-黑矩陣或—導線,第 :200819876 IX. Description of the invention: ^ [Technical field to which the invention pertains] The present invention relates to an array substrate; in particular, to an array substrate for liquid crystal display which does not have a problem of large-viewing. [Prior Art] With the advancement of technology, various electronic products have become an indispensable part of people's lives. Among them, the display is an important component of multimedia electronic products. The thin film transistor liquid crystal display (TFT LCD) has the advantages of power saving, no radiation, small size, low power consumption, no space occupation, plane right angle, high resolution, stable image quality, and the like. It has gradually replaced the traditional cathode ray tube display (CRT display), which is widely used in the display panels of electronic products such as mobile phones, screens, digital TVs, and notebook computers. With the rapid development of related technologies for thin film transistor liquid crystal displays, improving their display has become a common goal in this field. In terms of the breadth of viewing angles, Fujitsu's multi-domain vertical alignment (MVA) technology extends the upper and lower viewing angles to 120. Left and right, this technology has greatly improved the viewing angle of liquid crystal displays, no less than the large viewing angle characteristics of cathode ray tube displays. However, due to the application of multi-domain vertical alignment technology, there is a large-view effect and light leakage, and the process is complicated and the manufacturing cost is high, and the polymer stable alignment which improves the defects of the multi-domain vertical alignment technology is improved. 〇^mer s^abil^d allgnment ' PSA) technology is on the rise. The polymer stabilizes the alignment technology. The juice system makes the liquid crystal molecules have a fixed pretilt angle. On the same day, the 2 = sub-angle will be deflected to the desired angle by the pixel electrode and the common electrode, with different elements. The shape forms a plurality of subdomains 0. However, the influence of the ^ ^: to the electric field distribution is irregular, so that the liquid crystal molecules in the vicinity of the adjacent 200819876 region of the two pixel structure are poorly arranged near the central region of the common electrode (c〇mm〇nline) The arrangement of the liquid crystal molecules is also not ideal, such as the circled area of the first picture element 1. These undesired liquid crystals cause a phenomenon of insufficient color saturation (cd〇r wash〇m), which causes the distribution of bright areas to be irregular, especially in the left and right direction. Therefore, the polymer stable alignment technology improves the contrast, brightness and shortened reaction time of the thin film transistor liquid crystal display, and still cannot solve the problem of the large-view role bias. The above-mentioned thin film transistor liquid crystal display has a defect of a large-viewing role, and a liquid crystal is not bad, affecting the bright portion and causing light leakage, which affects display quality. Therefore, how to avoid the role of large-vision, improve the alignment of liquid crystal molecules, and thus avoid light leakage is an urgent issue for the industry. SUMMARY OF THE INVENTION An object of the present invention is to provide an array substrate. The array substrate comprises a substrate and a plurality of halogen structures. The plurality of halogen structures are located on the substrate, and each structure comprises a "first: a halogen element electrode and a - a "shield: a first pixel electrode g - ^ portion and a plurality of branches connected to the intermediate portion, the first shielding layer At least overlapping with the intermediate portion of the first halogen electrode. -Bottom ίί 2=Provided—Transfer the substrate. This array substrate contains a structure. The plurality of halogen structures are located on the substrate, and each of the materials comprises a 1-fluorene electrode and a second halogen electrode. The first-halogen electrode is a second connection portion. The double-valve branch and the intermediate portion are connected to at least two adjacent branches of the first halogen electrode - the Jindi-connecting portion is substantially perpendicular to the intermediate portion of the first halogen element. ί 1—The halogen electrodes are adjacent to each other, having an intermediate portion and a plurality of branches, and a plurality of branches are connected to the intermediate portion. The knives are provided at the bottom of the ί’ ίίΐΖ*. The array substrate comprises a wire electrode and a plurality of halogen structures. The first-common electrode is located on the substrate and is also located on the substrate. Each of the pixel structures contains - the first 200819876 pole, the first - elementary electrode has - the middle part and the - the first branch, the first part is directly connected. The first branch of the first pixel electrode, "the first - the use of the ΐΐ ΐΐ ΐΐ 述 述 述 , , , , , , 本 本 本 本 本 本 安排 本 本 本 本 本 本 本 本 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排 安排。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The invention can change the pixels in the array substrate to improve the liquid crystal discharge, not only to avoid light leakage, but also to solve the color shift problem of the large sub-angle. The details of the present invention are as described later. The invention discloses an array substrate. For use in a thin film transistor liquid crystal display, the array substrate comprises a substrate and a plurality of pixel structures on the substrate. The first embodiment of the invention is shown in Figures 2 and 3. For example, the prime structure 2 includes a common electrode 2A, a scan line 21, a data line _^_the second element electrode 23, a second elemental electrode 24, a first shield, a shield, First And a second switch. The first shielding is a wire 25' electrically connectable to the first-deuterium electrode 23; the second mineral two f-two wire 26; the first wire 25 and a second wire 26 The first thin film transistor 27 is used to bond the second J element electrode 23, and the first wire 25 and the second wire 26 can be simultaneously formed; The first = off and the second switch are respectively a first thin film transistor 27 and a second thin film rain, the Republic of China special shot number 95129118 content and λ ί 200819876 example map and the third figure, wherein 2 is the first embodiment of the invention. The top view of 冓2, the third figure is 2a-2a of this pixel structure 2, ilf/, ° as shown in Fig. 2 'Scan line 21 is used for transmission A scan and tiger, Bay shake line 22 take the ship - light signal. 23 gas a first intermediate part 231 and a plurality of branches. ^ * for the branch 233 and the first intermediate part 231, a plurality of branches 233 4 〇 " ;5〇° ' 13〇^14〇° ' 22〇°^^ 31〇ϊ?〇〇;^ between. 卩231 extends in the direction of the angle, and the better is 45., 135., 225. and 3ΐ5 Shen And the plurality of vertical knives which are formed at the same angle with the first intermediate portion 231 are parallel to each other, so that the first halogen electrode 23 can be in the branch direction. The first wire 25 as the shield and the first-middle portion 231 and the plurality The branches 233 partially overlap (overiap). 3, the second halogen electrode 24 has a second intermediate portion 241 mr day = several branches 243 are connected with the second intermediate portion 241, and extend in four directions: The wide intermediate portion 241 forms a plurality of branches having the same angle, such as ϋt 彳 τ ', so the second halogen electrode 24 can be divided into four sub-domains according to the branch direction: the second wire 26 of the cover and the second middle The portion 241 and the portion of the plurality 'heavy, in this embodiment, the first wire 25 and the second wire 26 may be the gold-first embodiment of the first-thin film transistor 27 and the first electro-mechanical' and the first-thin film Crystal 27 is a brother body: 5 crystal 28 weak transistor 'its electrical _ way is H wins the diaphragm transistor 27's job pole - end and the first - the recording electrode 23 brother: one end is connected to the data line 22 And the first film is electrically a = two, and the other line 2 is the second film transistor 27 is "structure" °, to the signal Turn on to turn on and transmit the voltage signal to the first: Sweep the corresponding display area. The driving electrode 24 of the second thin film transistor 28 is electrically connected, and the other end is connected to the /, two-dimensional pixel line 22, and the second thin film electro-crystal 200819876 body 28 is connected to the scan line 21, which is a structure. The switch 'corresponds to the scanning signal, the conductor 28 is the halogen dioxad electrode 24, and the (four) domain __ domain. From the mu pressure signal to the first, the f-charge accumulated by the first-deuterium electrode 23 is accumulated by the crystal 27 and forms an image residue on the first halogen electrode 23. And [preventing the electric electrode 24 from each other, the two-electrode electrode 23 and the second halogen corresponding to the liquid crystal layer -29' of the dioxad electrode are distributed in the present different liquid crystal arrangement, and the two books are ; ^ ask the intensity of the electric field effect, the presentation 2 has eight liquid crystal domains. ^ The number of sub-domains is 2m = the knot can be greatly improved. The present invention is further extended by the second or H-line % by the middle portion of the t-shaped two-pixel electrode of 曰 = color shift. Τ Η used in the light middle part to reduce light leakage to improve the bright area shape. The above-mentioned embodiment is only for explaining the aspect of the present invention, and it can also be used as a cover for 1 and he. When the object == f is the system to set the black matrix on the substrate = say: make = = can be - black matrix or - wire, the first:
電極;薄膜電晶體之電性刪可如第4B έ士構ft3之ί「貫施例如第5圖所示。於此實施例中,-晝素 ;線51、一資細、-第-晝素電㈣、-ίΓ第:開關以及一第二開關,其中第一開關以 56。掃^線5刀 一第一薄膜電晶體55和一第二薄膜電晶體 電壓訊i、。賴以傳送—掃描訊號,資料線52顧以傳送一 第旦素電才亟53具有一第一中間部53卜複數個分支533、 200819876 一第一連接部535以及一第一輔助連接部537、537,,第一 部535以及第-輔助連接部537係可為連接或不連接 支533與第一中間部53丨連接,複數個分支533較佳係與^ 間部 531 以 40。〜50。、130。〜140。、220。〜230。及 310。〜320。之夾角 方向延伸二更佳者係以45。、135。、225。及315。四種夾角方向延 伸,且與第一中間部531形成相同夾角的複數個分支53 平行,是故第-晝«極53可依分支方向分為則J·分域係互相 第-連接部535連接第-畫素電極53之至少二相鄰分 -端部’第-連接部535之數量係可為複數,其中第一連奶 係與第-晝素電極53之第-中間部531實質上垂直。第 連接部537連接該第一晝素電極53之至少另兩相鄰分支之 部,其中第一辅助連接部537與第一中間部531實質上不垂 於此實施例中,第-輔助連接部537係為一折線形狀,此折線之 二端與第- ^間部531實質上平行,另一端之延長線則會與第一 中間部531貫質上呈-銳角。此外,第一輔助連接部切 為與^-中間部531實質上平行設置,連接部分相鄰分支之 部丄第-輔助連接部537,之數量可為單一或複數個,如 所示。 Μ 相同地,第二晝素電極54具有一第二中間部54卜複數個 士 Μ3、一第二連接部%以及一第二辅助連接部、⑷,, ΐΐΪίΐ 545以及第二辅助連接部547係可為連接或不連接。 ^ 一:素笔極54與第一晝素電極53 _,複數個分支% 弟-中間部541連接’複數個分支543較佳係與 ΐί0;Γ"Γ140〇'220°"30^ ΐΐϊ 35。、225。及315。四種夾角方向延伸,且盘第 :中=541形成相同油的複數個分支543係互相平 弟一畫素電極54可依分支方向分為四個分域。 疋文 第二連接部MS連接第二畫素電極Μ之至少兩相鄰分支之 200819876 了端部’第二連接部545之數量係可為複數, 係與第二晝素電極54之第二中間部541實二、連接部545 連接部547連接該第二晝素電極54之至少^ if f。第二辅助 部’其中第二輔助連接部W與第二中間部刈端 於此實施射,第二獅連接部547係^ ^ , -端與第二中間部541實質上平行,另縣f^折線之 中間部541實質上呈—夾角。此外,第之^長線則會與第二 為與第二巾咖41實質上平彳爾係可 部,第二輔助連接部547,之數量可為單-或^個一端 較佳者,第一書素電極53中,刹田哲 ^ =用弟二連接部545以及-第二輔助連接部547連接之相鄰分 第-薄膜電晶體55係與第-晝素電極5 ^晶體56係與第二晝素電極54電性 體Η以及第二薄膜電晶體56係為電性^g = 同於第-實_,故於此不另贅述。雛方式可 去雷Ϊ二實施例中,晝素結構5中的第-晝素電極53與第二書 相摩此壹二畫素電極之電位可不同,使分布於 m匕素電極之液0日敎二種不同強度之電場影鲤,呈現不 m日排列’又·二晝素電極各自有四齡域,故」晝素 能大減分域。因著分域數目增力°,大制色駄情形便 -結第^實施例更藉由第一晝素電極53之第一連接部奶和第 -I 素電極54之第二連接部545以及 子传以規卿列,聽了色飽和度不足和大姻色偏曰曰/ 上述第二實施例僅用以說明^發明之一態樣,於其他實施態 200819876 =助^支可11由第-連接部以及第 由第二連接部以I第電極之所有複數個分支亦可藉 第二輔助連接部可為“一及第:: ===助連接部可為-直條,且其延=ΐί: 極以及複數書素έ士播。筮-βπ + 弟/、用電極、一苐二共用電 上,而複數晝一置=二極與第二共用電極皆位於底材 為本6圖及第7圖所示,其中第6圖係 素結構之上視圖…關為此晝 晝素電極64。第一圭辛雷^a目士表一旦素電極63和一第二 一分支633,i有—第—中間部631以及一第 晝素電極63之第mat:/間部631垂直相連。第一 疊,且第-晝fHi if—共用電極65至少部分重 用紐65至少—邊之相G至4^。3之寬度艇伸於第一共 643,第第1 二5Λ極64,有一第二中間部641以及一第二分支 64之第二^支6443^_中^部641垂直連接。第二晝素電極 晝素電極64i第_極66至少部分重疊,且第二 少一邊之外約0至一;之寬度係延伸於第二共用電極66至 64彼此獨立之當“:第:晝素電極63與第二晝素電極 晝素電極之液晶層6Γ受二種不^使分布於相應此二 晶排列’又因此二晝素電極各自;四;場『以 200819876 f 域。i發明更藉由晝素_之分支覆蓋共用電極, 以‘敝的方式避免晝素結構6漏光。 中種陣列基板’用於一薄膜電晶體液晶顯示器 中。此陣列基板包含-底材、—第—共用電極、—第二 Ϊ及構。第一共用_與第二共用電極皆位於ί材 上,而禝數個畫素結構亦設置於底材。 四與四實f例如第8圖所示’第8圖係為本發明之第 不—晝素結構8之上視圖。於此實施例中,一書 ΐ、ί 掃描線81、—資料線82、―第一晝素電極. :ϋί=:Γ第一遮蔽物、一第二遮蔽物、-第-開關 則:上線81係用以傳送-掃描訊號,資料線82 金辛雷虎。第一遮蔽物係為一第-導線85,與第-it Λ ίΐ,;第二遮蔽物係為-第二導線86,第-導 贅述厂第ϋ ί配置係與第—實施例大體相同,在此不再 83具有一第一中間部83卜一第一分支, 部839,第一、iifi、一第一連接部837 “及一第一輔助連接 t 相ΐ為且連盘接第或不/接。第一分支-係與 電極J之ί==38^τ。分支833之寬度係大於第一共用 複數個第-子分支835與第一中間部83〗連接,複數第一子 13 200819876 分支835較佳係與第一中間部 220。〜230°及 31〇。〜32〇。之夾角 ’°、130°〜140°、 角的複數個子分二= 目平且與第;'中間部咖形成相同爽 ^向分為四物:導 r: :35'- - ί-ΐ-ί! 支835重疊。 /、 邛831及部分複數第一子分 Ο 支之?:接:=ΪΪ個第—子分支835之至少二相鄰分 中間邻831每二 連j妾部837係與第一晝素電極83之第一 極83°之至K if f °第一輔助連接部839連接該第一畫素電 實r不垂直'於此實二=二 ,只二山、水形狀’此折線之一端與第一中間部831實質上 饤々 鳊之延長線則會與第一中間部831實質上呈一銳角。 储ίϋΐ極84具有一第二中間部84卜一第二分支843、 if ft±支845、一第二連接部847以及一第二輔助連接部 2 重 第二畫素電極84之第二分支843 見度係大於弟二共用電極802之寬度約〇至4微米。 # 第ΐ子分支845與第二中間部841連接,複數個分支 二:7、。弟—中間部 841 以 40。〜50。、13〇。〜140。、220。〜230。及 〜2^)之夾角方向延伸,更佳者係以45〇、135。、225〇及315〇 方向延#’且與第二中間部841形成相同夾角的複數個 或刀wj係互相平行,是故第二畫素電極84可依分支方向分 °作為遮蔽物之第二導線86係與第二中間部841及 ίί個it子分支845部分重叠;於此實施例中,第一導線85 驭弟一泠線86可為金屬材料。 200819876 支之連1複數個第二子分支845之至少兩相鄰分 中間部_實質上垂直。第二輔助連接=二 盘第一中it 端部,其中第二輔助連接部_ 弟一中間部841實質上不垂直,於 49 邛849係為一折線形狀,此折線之 7 ,接 平行:另:㈣则侧:上 體87以及第-键瞪蕾曰舻狀怂必不"丈饮八T乐溥胰龟晶 同於第-實tf膜故!:此體==電_接,其條_方式可 立,ΐί結S中的第—晝素電極83與第二晝素電極84彼此獨 液ίϊίΓΪ不同強度之電場影響’呈現不同 -旦素電極各自有四個分域’故一晝素結構8具有八個液晶分域。 pq加本?明冑由遮蔽物延伸各個晝素電極之中間部,用以遮蔽中 助^技Ιιί先’赠善㈣械。此外,本發明更藉由連接部和輔 避調節’使兩畫素電極之間的液晶分子規則排列’ 避免了色飽和度不足和大視角色偏等問題。 樣中上ϊΐΓί施例僅用以·本發明之—祕,於其他實施態 個s素電極之賴可相異’譬如舳祕 因 ίίί原理及精神,況下’對上述實施例進行修改及it 兔明之權利賴顧應如後述之巾請專利範圍所列。 200819876 f圖式簡單說明】 第2目:ί:以,:f極顯示圖; ,係為第2圖之晝;電===: J 4A ^· ί ' 贫Α ^為本t明第—實施例之晝素電極上視圖; Ϊ =ίίί發明第三實施例之晝素電極上視圖; 及 弟7圖係為第6圖之晝素電極中6a〜6a’剖面線之剖面圖;以 第8圖係為本發明第四實施例之晝素電極上視圖。 【主要元件符號說明】 1 :晝素 2 :晝素結構 20 共用電極 21 掃描線 22 資料線 23 第一晝素電極 231 :第一中間部 233 :複數個分支 24 :第二晝素電極 241 :第二中間部 243 :複數個分支 25 ··第一導線 26 :第二導線 27 :第一薄膜電晶體 28:第二薄膜電晶體 29 :液晶層 5·晝素結構 51 :掃描線 52 ·貧料線 53 :第一晝素電極 531 ··第一中間部 533 :複數個分支 535 :第一連接部 537 :第一輔助連接部 537’ :第一輔助連接部 54 :第二晝素電極 541 :第二中間部 543 :複數個分支 545 :第二連接部 547 :第二輔助連接部 16 200819876 547’ :第二輔助連接部 843 :第二主分支 55 :第一薄膜電晶體 845 :複數個第二子分 56 :第二薄膜電晶體 847 :第二連接部 6:晝素結構 849 :第二輔助連接部 60 :底材 85 :第一導線 61 :掃描線 86 :第二導線 62 :資料線 87 :第一薄膜電晶體 63 :第一畫素電極 88 :第二薄膜電晶體 631 :第一中間部 633 :第一分支 64 :第二晝素電極 641 :第二中間部 643 :第二分支 65 ··第一共用電極 66 :第二共用電極 69 :液晶層 8:畫素結構 801 ··第一共用電極 802 :第二共用電極 81 :掃描線 82 :資料線 83 ··第一畫素電極 831 :第一中間部 833 :第一主分支 835 :複數個第一子分支 837 :第一連接部 839 :第一輔助連接部 84 :第二晝素電極 841 ··第二中間部 17The electrode can be electrically removed as shown in Fig. 4B. Prime (4), -ίΓ: switch and a second switch, wherein the first switch is 56. The sweeping wire 5 knife-first film transistor 55 and a second film transistor voltage signal i. Scanning signal, the data line 52 is configured to transmit a first-half power module 53 having a first intermediate portion 53 and a plurality of branches 533, 200819876, a first connecting portion 535, and a first auxiliary connecting portion 537, 537, A portion 535 and the first auxiliary connecting portion 537 may be connected to the first intermediate portion 53A for the connecting or unconnecting branch 533, and the plurality of branches 533 are preferably connected to the intermediate portion 531 by 40. ~ 50., 130. 140., 220. to 230. and 310. to 320. The extension in the direction of the angle is better than 45., 135., 225, and 315. The four angular directions extend and are the same as the first intermediate portion 531. The plurality of branches 53 of the included angle are parallel, so that the first-昼-pole 53 can be divided according to the branch direction, and the J-sub-domain is connected to the first-connecting portion 535. The number of at least two adjacent sub-end portions 'the first connection portion 535 of the pixel electrode 53 may be plural, wherein the first milk system is substantially perpendicular to the first-middle portion 531 of the first-deuterium electrode 53. The first connecting portion 537 is connected to the portion of the at least two adjacent branches of the first halogen electrode 53, wherein the first auxiliary connecting portion 537 and the first intermediate portion 531 are substantially not suspended in the embodiment, and the first auxiliary connecting portion The 537 is in the shape of a fold line, and the two ends of the fold line are substantially parallel to the first-intersection portion 531, and the extension line at the other end is perpendicular to the first intermediate portion 531 at an acute angle. Further, the first auxiliary connection portion It is cut in substantially parallel with the middle portion 531, and the number of the adjacent branch portions 丄 the first auxiliary portion 537 may be single or plural, as shown. 相同 Similarly, the second halogen electrode 54 has a second intermediate portion 54 of a plurality of gentry 3, a second connecting portion %, and a second auxiliary connecting portion, (4), ΐΐΪίΐ 545, and a second auxiliary connecting portion 547 which may or may not be connected. : prime pen 54 and first halogen electrode 53 _, plural branches % brother - middle part 5 41 connection 'plurality of branches 543 is better with ΐί0; Γ"Γ140〇'220°"30^ ΐΐϊ 35., 225. and 315. Four kinds of angles extend, and the disk: medium = 541 forms the same oil A plurality of branches 543 can be divided into four sub-domains according to the branch direction. The second connection portion MS is connected to at least two adjacent branches of the second pixel electrode 2008 200819876 End portion' The number of the second connecting portions 545 may be plural, and the second intermediate portion 541 of the second halogen electrode 54 is second, and the connecting portion 545 is connected to at least the if f of the second halogen electrode 54. The second auxiliary portion 'where the second auxiliary connecting portion W and the second intermediate portion are end-fired, the second lion connecting portion 547 is ^^, the - end is substantially parallel with the second intermediate portion 541, and another county f^ The intermediate portion 541 of the fold line is substantially at an angle. In addition, the first long line and the second is substantially parallel to the second towel 41, and the second auxiliary connecting portion 547 may be a single- or one-end one, preferably In the book element electrode 53, the motor is connected to the adjacent sub-membrane transistor 55 and the first-element electrode 5 ^ crystal 56 system and the second sub-connecting portion 545 and the second auxiliary connecting portion 547 The electric electrode body of the dioxet electrode 54 and the second film transistor 56 are electrically non-identical to the same as the first-real one, and therefore will not be further described herein. In the second embodiment, the potential of the second-pixel electrode in the halogen structure 5 may be different from that in the second book, so that the liquid distributed in the electrode of the m-electrode is 0. There are two different intensity electric field effects in the sundial, which are not arranged in the m-day. The electrodes of the two-dimensional electrodes have four age domains, so the sputum can greatly reduce the domain. Because of the increase in the number of sub-domains, the large-color enamel case is further provided by the first connection portion milk of the first halogen electrode 53 and the second connection portion 545 of the first-electrode electrode 54 and The sub-passage is in the order of the rules, and the color saturation is insufficient and the large color is biased. The second embodiment is only used to illustrate one aspect of the invention. In other embodiments, 200819876 = help ^ branch 11 - the connection portion and all the plurality of branches of the second electrode from the second connection portion may also be "one and the first:: === the auxiliary connection portion may be a straight strip, and the extension thereof may be extended by the second auxiliary connection portion. =ΐί: The pole and the plural book of the gentleman broadcast. 筮-βπ + brother /, with the electrode, one for two common electricity, and the plural one set = two poles and the second common electrode are located on the substrate is 6 And in Fig. 7, wherein the top view of the hexadecimal structure of Fig. 6 is closed to the halogen electrode 64. The first genus of the genus is once the element electrode 63 and the second branch 633, i The first intermediate portion 631 and the first mat: / 631 of a second pixel electrode 63 are vertically connected. The first stack, and the first - 昼fHi if - common electrode 65 is at least partially reused - the edge of the phase G to 4 ^. 3 width boat extends in the first total 643, the first 1 2 5 dipole 64, a second intermediate portion 641 and a second branch 64 of the second ^ 6443 ^ _ ^ The portions 641 are vertically connected. The second pixel electrode 64i is at least partially overlapped with the first electrode 66 and has a width of about 0 to 1 outside the second minor side; the width extends from the second common electrode 66 to 64 independently of each other. ": the liquid crystal layer 6 of the halogen electrode 63 and the second halogen electrode is affected by two kinds of distributions in the corresponding two crystal arrangements 'and thus the respective dioxad electrodes; four; field "to 200819876 f area. In the invention, the common electrode is covered by the branch of the halogen, and the light leakage of the halogen structure 6 is avoided in a 敝 manner. The intermediate array substrate 'is used in a thin film transistor liquid crystal display. The array substrate comprises a substrate, a first-common electrode, and a second structure. The first common _ and the second common electrode are both located on the 395 material, and the plurality of pixel structures are also disposed on the substrate. Four and four real f, for example, shown in Fig. 8 is a top view of the first non-alloy structure 8 of the present invention. In this embodiment, a book, a scan line 81, a data line 82, a "first pixel electrode.": ϋί=: Γ first shield, a second shield, - first switch: upper line The 81 series is used to transmit-scan signals, and the data line 82 is Jin Xinleihu. The first shield is a first-conductor 85, and the -th Λ ΐ ΐ ;; the second shield is a second conductor 86, and the first guide is the same as the first embodiment. No longer 83 has a first intermediate portion 83, a first branch, a portion 839, a first, an iifi, a first connecting portion 837 "and a first auxiliary connection t" and a first or second connection The first branch-system and the electrode J are ί==38^τ. The width of the branch 833 is greater than the first shared plurality of first-sub-branch 835 connected to the first intermediate portion 83, and the first first sub-segment 13 200819876 The branch 835 is preferably connected to the first intermediate portion 220. 〜230° and 31〇.~32〇. The angle '°, 130°~140°, the angle of the plurality of sub-divisions = the level and the middle portion; The coffee forms the same coolness and is divided into four things: guide r: :35'- - ί-ΐ-ί! Branch 835 overlaps. /, 邛 831 and part of the first number of sub-branch ??: 接:=ΪΪ At least two adjacent sub-portions 831 of the first sub-branch 835 are connected to the first auxiliary connection portion 839 of the first elemental electrode 83, and the first auxiliary connection portion 839 of the first halogen element 83 is connected to the first auxiliary connection portion 839. One pixel r is not perpendicular 'this is actually two = two, only two mountains, water shape 'the extension of one end of the fold line and the first intermediate portion 831 substantially 饤々鳊 is substantially at an acute angle with the first intermediate portion 831. The reservoir electrode 84 has a second intermediate portion 84, a second branch 843, an if ft± branch 845, a second connecting portion 847, and a second auxiliary connecting portion 2, the second branch 843 of the second pixel electrode 84. The visibility is greater than the width of the second common electrode 802 by about 微米 to 4 μm. # The first branch 845 is connected to the second intermediate portion 841, and the plurality of branches are two: 7. The middle portion 841 is 40 to 50. , 13 〇. ~ 140., 220. ~ 230. and ~ 2 ^) extending in the direction of the angle, the better is 45 〇, 135., 225 〇 and 315 〇 direction # ' and with the second intermediate part 841 The plurality of knives or the knuckles wj forming the same angle are parallel to each other, so that the second pixel electrode 84 can be divided into the second conductor 86 and the second intermediate portion 841 and the ίί sub-branch portion 845 according to the branching direction. Overlap; in this embodiment, the first wire 85 can be made of a metal material. 200819876 At least two adjacent sub-portions of the two sub-branches 845 are substantially vertical. The second auxiliary connection = the first mid-end of the second disc, wherein the second auxiliary connecting portion _ the middle intermediate portion 841 is substantially non-perpendicular, at 49 邛The 849 is a fold line shape. The fold line is 7 and parallel. Another: (4) The side: the upper body 87 and the first-key 瞪 曰舻 曰舻 怂 & & 丈 丈 丈 T T T T T T T T - Real tf film!! This body == electric_connected, its strip_mode can be set up, 第 结 结 第 第 昼 昼 电极 电极 电极 与 与 与 83 83 83 84 84 84 84 84 84 84 84 84 84 84 84 84 84 84 84 84 The different denier electrodes each have four sub-domains, so the monomorph structure 8 has eight liquid crystal domains. Pq plus this? Alum extends the middle part of each elementary electrode by the shield to shield the middle helper Ιιί先's gift (four). Further, the present invention further avoids problems such as insufficient color saturation and bias of large-view characters by the connection portion and the auxiliary adjustment 'the regular arrangement of the liquid crystal molecules between the two pixel electrodes'. The above example is only used for the secret of the present invention. In other embodiments, the s-electrode can be different. The principle and spirit of the above-mentioned embodiment are modified. The rights of Rabbit Ming should be listed in the patent scope as described later. 200819876 f simple description of the figure] The second item: ί: to, : f pole display map; , is the second figure; electric ===: J 4A ^· ί ' poor Α ^ is the first t - The upper view of the halogen electrode of the embodiment; Ϊ = ίίί; the upper view of the elemental electrode of the third embodiment; and the figure 7 of the line of 6a~6a' of the halogen electrode of Fig. 6; 8 is a top view of a halogen electrode of a fourth embodiment of the present invention. [Description of main component symbols] 1 : Alizarin 2: Alizarin structure 20 Common electrode 21 Scanning line 22 Data line 23 First halogen electrode 231: First intermediate portion 233: plural branches 24: Second halogen electrode 241: Second intermediate portion 243: a plurality of branches 25 · · first wire 26 : second wire 27 : first thin film transistor 28 : second thin film transistor 29 : liquid crystal layer 5 · halogen structure 51 : scan line 52 · poor Feed line 53: first halogen electrode 531 ··first intermediate portion 533: plural branches 535: first connection portion 537: first auxiliary connection portion 537': first auxiliary connection portion 54: second halogen electrode 541 The second intermediate portion 543: a plurality of branches 545: the second connecting portion 547: the second auxiliary connecting portion 16 200819876 547': the second auxiliary connecting portion 843: the second main branch 55: the first thin film transistor 845: a plurality of Second sub-section 56: second thin film transistor 847: second connection portion 6: halogen structure 849: second auxiliary connection portion 60: substrate 85: first wire 61: scan line 86: second wire 62: data Line 87: first thin film transistor 63: first pixel electrode 88: second thin film electrocrystal 631: first intermediate portion 633: first branch 64: second halogen electrode 641: second intermediate portion 643: second branch 65 · first common electrode 66: second common electrode 69: liquid crystal layer 8: pixel Structure 801 ··First common electrode 802: Second common electrode 81: Scanning line 82: Data line 83 · First pixel electrode 831: First intermediate portion 833: First main branch 835: plural first sub-branch 837: first connection portion 839: first auxiliary connection portion 84: second halogen electrode 841 · second intermediate portion 17