200521588 玫、發明說明: 【發明所屬之技術領域】 本發明係關於一種平面顯示面板,尤指一種具導線封 裝結構之平面顯示面板。 【先前技術】 平面顯示面板諸如有機電激發光顯示面板(〇LED) 或液晶顯示面板為目前最有潛力之平面顯示裝置之一。而 有機電激發光顯示面板(〇LED)或液晶顯示面板因為具 10 2輕、薄、短、小之特點’並兼具美觀之佈局,已成為目 前發展顯示面板之焦點。 〃、平面顯7F面板上多具有—顯示區域,顯示區域之導線 係以導引線傳導電流。而目前 又^不區導引線為加強電流 之傳以及製程之簡化,多使用一 15 夕使用透明電極材料以及一疊 置於透明電極上之輔助導電全屬 上之壤㈣夕h左 例如絡)材料構成面板 上之引線0然而,隨菩gg +二〆 以⑸w 板所輸出資訊容量的高度 成長,V引線所而承載與傳輸的产旦 ,、 致僂矫導弓丨蜱夕么、+、田 ’丨L里也大幅增增加’導 致傅、、先V引、、泉之則述s層結構經 田 、曾+ u ㊉因為核境中水及氧之作 用、導電材料在雷媒π ^ η · · 下的電致遷移作用 (electroimgration)、或是因為 杪作用 .Α , 馬頻繁之電流驅動導茲次仆 70毀、短路或造成4層結構部分剝 、,' 、 上接續顯示區電極線之導引綠 ’ 以平面顯示面板 形,並因而導致平面顯示面板之燒毁或短路之情 之顯不區顯示不正常,發生 20 200521588 諸如不正常聽或不正常暗線之情形,因而縮短平面顯示 面板之使用壽命,惡化顯示品f以及降低生產良率 雨 加以改善。 而 、曾本發明爰因於此,亟思、一種可以解決上述問題之厂具 導線封裝結構之平面顯示面板」,幾經研究實驗終至完成 此項嘉惠世人之發明。 【發明内容】 10 15 本發明之目的係在提供一種具導線封裝結構之平面顯 示面板,俾能降低或避免面板導引線因為環境中水及氧導 致劣化、減少、導引線因材料的電致遷移(electr〇mi⑽⑽) 而燒毀或短路、提高顯示品質、延長使用壽命、提高面板 之生產良率、降低不良品損失之成本。 本發明之另-目的係在提供一種具導線封裝結構之有 機電激發光顯示面板,俾能降低或避免面板導引線因為環 境中水及氧導致劣]匕、減少導引線因材料的電致遷移 ⑷ectromigration)而燒毁或短路、提高顯示品質、延長使 用壽命、提高面板之生產良率、降低不良品損失之成本。 本發明具導線封裝結構之平面顯示面板,於一基板上 至少包含-顯示區、一連接導線區、一第一引線區與一第 二引線區;顯示區具有複數晝素,晝素依序包含一第一電 極、-顯示作動區與-第二電極;連接導㈣具有複數連 接導線與第-電極相連接;第一引線區具有複數第一導引 線;以及第二引線區具有複數第二導引線,第一導引線或 20 200521588 第二導引線與第二電極相連接,且顯示區係分別鄰接於第 一引線區、第二引線區以及連接導線區;其中連接導線、 第一導引線及/或第二導引線依序包含一第一導電層、一第 二導電層與一封裝保護層,且封裝保護層係包覆第二導電 5層表面以及第一導電層與第二導電層側邊。 本發明具導線封裝結構之平面顯示面板,於一基板上 至少包含一顯示區、一連接導線區、一第一引線區與一第 一引線區’顯示區具有複數畫素,晝素依序包含一第一電 極、一顯不作動區與一第二電極;連接導線區具有複數連 10接導線與第一電極相連接;第一引線區具有複數第一導引 線;以及第二引線區具有複數第二導引線,第一導引線或 第二導引線與第二電極相連接,且顯示區係分別鄰接於第 一引線區、第二引線區以及連接導線區;其中連接導線、 第一導引線及/或第二導引線依序包含一導電層與一封裝 15保護層,且封裝保護層係包覆導電層表面以及側邊。. 本發明具導線封裝結構之有機電激發光顯示面板,於 一基板上至少包含一顯示區、一連接導線區、一第一引線 區與一第二引線區;顯示區具有複數晝素,晝素依序包含 一第一電極、一有機電激發光區與一第二電極;連接導線 20區具有複數連接導線與第一電極相連接;第一引線區具有 複數第一導引線;以及第二引線區具有複數第二導引線, 第一導引線或第二導引線與第二電極相連接,且顯示區係 分別鄰接於第一引線區、第二引線區以及連接導線區;其 中連接導線、第一導引線及/或第二導引線依序包含一第一 200521588 導電層、-第二導電層與一封裝保護層,且封裝保護層係 包覆第二導電層表面以及第一導電層與第二導電層側邊。 本發明具導線封裝結構之有機電激發光顯示面板,於 -基板t至少包含—顯示區、—連接導線區、—第一引線 5區第二引線區;顯示區具有複數晝素,畫素依序包含 第電極 有機電激發光區與一第二電極;連接導線 區具有複數連接導線與第一電極相連接;第一引線區具有 複數第一導引線;以及第二引線區具有複數第二導引線, 第-導引線或第二導引線與第二電極相連接,且顯示區係 10分別鄰接於第-引線區、第二引線區以及連接導線區;其 中連接導線、第-導引線及/或第二導引線依序包含一導電 層與-封裝保護層’且封裝保護層係包覆導電層表面以及 側邊。 由於本發明結構新穎,能提供產業上利用,且確有增 15進功效,故依法申請發明專利。 曰 【實施方式】 本發明具導線封裝結構之平面顯示面板,係利用一隔 離水氣或氧氣渗人導電層之封裝㈣層,將平面顯示面板 用之導線於侧面以及頂部完全密封,以阻播導線在電場下 的電致遷移作用並隔絕水氣或氧氣對導線之表面接觸,避 免金屬層受到水氣或氧氣之侵m防止或抑制導致導 線劣化、短路或燒毀,或造成顯示品質之降低或使用,命 之縮短。本發明之導線封裝結構可以為任何具有第―:電 20 200521588 ίο 15 曰、第-導電層與封裝保護層之導線,或是導線封裝結構 可以為任何具有導電層與封裝保護層之導線。本發明第二 導電層材料之導電率大於第一導電層材料之導電率。本發 第-導電層無特殊之限制,可為任何習用之金屬或非 金屬材料,較佳為任何習用之透明電極材料,更佳為姻錫 ,化物στο)、_氧化物(AZ0)、姻辞氧化物(ιζ〇)或録錫 乳化物(CdSn〇)。本發明之導電層或第二導電層無特殊之 限制可為任何習用之金屬或非金屬材料,較佳為銘、絡、 銅、銀、鎮銀合金、銀鋼合金、銀合金及其組合。本發明 之封裝保護層無特殊之限制,可為任何習用隔絕水氣、氧 氣或大氣广不導電材質,較佳為氧化石夕(Si〇2)、氧化欽 (02)氮化石夕(SlNx)及氮氧化石夕⑸〇xNy)、環氧樹脂、 ^飽和聚θ旨樹脂、鐵弗龍樹脂、㈣樹脂、聚亞酿胺 polynmde)及其組合。本發明封裝保護層之覆蓋方法可 為習用之覆蓋方法’較佳為封裝保護層以蒸鑛、濺鍍、浸 鍍或噴霧方法形成。本發明所適用之平面顯示面板盔限 制’可為任何習用之平面顯示面板,較佳為液晶顯示面板、200521588 Description of the invention: [Technical field to which the invention belongs] The present invention relates to a flat display panel, especially a flat display panel with a wire packaging structure. [Prior art] Flat display panels such as organic electroluminescent display panels (oLEDs) or liquid crystal display panels are one of the most promising flat display devices. The organic electroluminescent display panel (〇LED) or liquid crystal display panel has become the focus of the development of display panels because of its light, thin, short, and small features.多 Most of the 7F panel of the flat display has a display area, and the wires in the display area conduct current with guide wires. At present, in order to strengthen the transmission of current and simplify the manufacturing process, the use of transparent electrode materials and a stack of auxiliary conductive materials placed on transparent electrodes are commonly used. ) The material constitutes the lead 0 on the panel. However, with the increase of the output capacity of the gg + 〆 and 〆 w boards, the V-bearing carries and transmits the product. , Tian '丨 L also increased sharply in L', which led to Fu, Xian, Vian, and Quan Zhizhang's s-layer structure Jing Tian, Zeng + u ㊉ Because of the role of water and oxygen in the nuclear environment, conductive materials in thunder media π ^ η · · under electroimgration, or because of the 杪 effect. Α, the frequent current driving the driver 70 times to destroy, short-circuit or cause partial peeling of the 4-layer structure, ', the next display area The electrode line guide green 'is shaped as a flat display panel, and as a result, the display area of the flat display panel is burned out or short-circuited. The display is abnormal. 20 200521588 Such as abnormal listening or abnormal dark lines, which shortens Flat display panel Life, deterioration of display products and lower production yields of rain f be improved. Because of this, the present invention has been eagerly considered, a flat display panel of a factory wire packaging structure that can solve the above problems. "After several research experiments, this invention that has benefited the world has been completed. [Summary of the invention] 10 15 The purpose of the present invention is to provide a flat display panel with a wire packaging structure, which can reduce or avoid the deterioration of the guide wires of the panel due to water and oxygen in the environment, and reduce the electricity of the guide wires due to the material. Causes migration (electromi) to burn or short circuit, improve display quality, extend service life, increase the production yield of panels, and reduce the cost of defective products. Another object of the present invention is to provide an organic electroluminescent display panel with a wire packaging structure, which can reduce or avoid panel guide wires being inferior due to water and oxygen in the environment. Causes migration (ectromigration) and burns or short circuit, improves display quality, prolongs service life, improves panel production yield, and reduces the cost of defective products. The flat display panel with a wire packaging structure of the present invention includes at least a display area, a connection wire area, a first lead area, and a second lead area on a substrate; the display area has a plurality of day elements, and the day elements sequentially include A first electrode, a display operating region, and a second electrode; the connection guide has a plurality of connection wires connected to the first electrode; the first lead region has a plurality of first guide wires; and the second lead region has a plurality of second The guide wire, the first guide wire or 20 200521588 The second guide wire is connected to the second electrode, and the display area is adjacent to the first lead area, the second lead area, and the connection lead area; A guide line and / or a second guide line sequentially includes a first conductive layer, a second conductive layer, and a package protective layer, and the package protective layer covers the surface of the second conductive 5 layer and the first conductive layer. And the side of the second conductive layer. The flat display panel with a wire packaging structure of the present invention includes at least a display area, a connection wire area, a first lead area, and a first lead area on a substrate. The display area has a plurality of pixels, and the day element sequentially includes A first electrode, a display inactive area and a second electrode; a connecting lead area having a plurality of 10 lead wires connected to the first electrode; a first lead area having a plurality of first guide lines; and a second lead area having The plurality of second guide lines, the first guide line or the second guide line is connected to the second electrode, and the display area is adjacent to the first lead area, the second lead area, and the connection lead area; The first guide line and / or the second guide line sequentially include a conductive layer and a protective layer of the package 15, and the package protective layer covers the surface and sides of the conductive layer. The organic electroluminescent display panel with a wire package structure of the present invention includes at least a display area, a connection wire area, a first lead area and a second lead area on a substrate; the display area has a plurality of daylight, daylight The element sequentially includes a first electrode, an organic electro-optic excitation region, and a second electrode; the connection lead 20 region has a plurality of connection leads connected to the first electrode; the first lead region has a plurality of first guide lines; and The two lead areas have a plurality of second guide lines, the first or second guide lines are connected to the second electrode, and the display area is adjacent to the first lead area, the second lead area, and the connection lead area, respectively; The connection wire, the first guide wire, and / or the second guide wire sequentially include a first 200521588 conductive layer, a second conductive layer, and a package protective layer, and the package protective layer covers the surface of the second conductive layer. And sides of the first conductive layer and the second conductive layer. The organic electroluminescent display panel with a wire packaging structure of the present invention includes at least a display area, a connecting wire area, and a first lead 5 area and a second lead area on the substrate t; the display area has a plurality of day elements, and the pixel element is The sequence includes a first electrode organic electroluminescent region and a second electrode; a connecting lead region having a plurality of connecting leads connected to the first electrode; a first lead region having a plurality of first guide lines; and a second lead region having a plurality of second The guide wire, the first guide wire or the second guide wire is connected to the second electrode, and the display area 10 is adjacent to the first lead region, the second lead region, and the connection lead region; The guide line and / or the second guide line sequentially include a conductive layer and an encapsulating protective layer ', and the encapsulating protective layer covers the surface and sides of the conductive layer. Since the present invention has a novel structure, can provide industrial use, and indeed has an increased efficiency, it has applied for an invention patent in accordance with the law. [Embodiment] The flat display panel with a wire packaging structure of the present invention uses a packaging layer that isolates water or oxygen from penetrating the conductive layer, and completely seals the wires used for the flat display panel on the sides and top to prevent broadcasting. The electromigration of the wire under the electric field and isolate the water or oxygen from contacting the surface of the wire, prevent the metal layer from being invaded by water or oxygen, prevent or inhibit the degradation, short circuit or burn of the wire, or cause the degradation of display quality or Use, life is shortened. The conductive wire packaging structure of the present invention may be any conductive wire having the first conductive layer and the protective layer, or the conductive wire packaging structure may be any conductive wire having a conductive layer and a protective layer for packaging. The conductivity of the second conductive layer material of the present invention is greater than that of the first conductive layer material. The conductive layer of the present invention is not particularly limited, and may be any conventional metal or non-metal material, preferably any conventional transparent electrode material, more preferably indium tin, compound στο), _ oxide (AZ0), Either oxide (ιζ〇) or tin emulsion (CdSn〇). The conductive layer or the second conductive layer of the present invention may be any conventional metal or non-metallic material, and is preferably a metal, a copper, a silver, a silver alloy, a silver steel alloy, a silver alloy, or a combination thereof. The packaging and protective layer of the present invention is not particularly limited, and can be any conventional material that blocks water, oxygen, or atmospheric non-conductive materials, and is preferably oxidized stone (Si〇2), oxidized oxide (02), nitrided stone (SlNx) And oxynitride (xoxy), epoxy resin, saturated polytheta resin, Teflon resin, rhenium resin, polynmde) and combinations thereof. The covering method of the encapsulating protective layer of the present invention may be a conventional covering method. It is preferable that the encapsulating protective layer is formed by a method such as vapor deposition, sputtering, dipping or spraying. The limitation of the helmet of a flat display panel to which the present invention is applied can be any conventional flat display panel, preferably a liquid crystal display panel,
電激發光顯示面板、有機雷激恭也S ^ 3械电/敦^先顯不面板或電漿顯示面 板等。 本發明之導線封裝結構特別適用於平面顯示面板之 顯示區以外之引線區與連接導線區。本發明導線封裝結構 之形成方法,係於面板上依序形成第一導電層,第二導電 θ後利用塗覆、洛鑛或濺鑛之方法,再將封褒保護層形 20 200521588 導電層之上及導電層之間。如此,便可以免除水氣或 氧氣之仏蝕’進而造成顯示品質之降低或使用壽命之縮短。 適用本發明導線之平面顯示面板的顯示作動區之作 動,制無限制,可以視需要為液晶顯示、電致發光顯示、 5電水』不、真空螢光顯示、場發射顯示、電氣泳動顯示、 電氣著色顯示、變形鏡片顯示、聚合物散佈液晶顯示或有 機電激發光顯示。適用本發明導線之平面顯示面板 電,發光顯示面板)之顯示區内之顯示機制無限制,可以 視而要地為被動行列式顯示面板或主動矩陣式顯示面板。 1〇本發明平面顯示面板(例如電激發光顯示面板)之引線區 分佈無限制,可為習用之χ_γ型分佈於顯示區之周緣,習 用之h下型分佈於顯示區之上下周緣,或左右相互對稱, 鄰接亚夾置顯示區周緣。本發明平面顯示面板(例如電激 發光顯示面板)之顯示區電極線’或顯示區外導引線與連 15接導線具有一第一導電層,以導通電流信號,並可以選擇 性地具有至少-第二導電層以增加導電性。本發明電激發 光顯示面板顯示區之電極線可為任何習用之電極材料1 佳為銦錫氧化物(ITO)、銘鋅氧化物(Az〇)、銦辞氧化物 (IZO)或錫錫氧化物(CdSn〇)、在呂、鉻、銅、銀、鎮銀合金、 20銀銅合金、銀合金及其組合。本發明電激發光顯示面板之 電極線排列無限制,較佳為電極線為相互平行。本發明第 -引線區、第二引線d及/或連接導線區㈣導線互不交錯 連接。 曰 200521588 本發明之導線可以適用於諸種平面顯示面板,其可應 用於任何影像、圖片、符號及文字顯示之用途或設備,較 佳為電視、電腦、印表機、螢幕、運輸載具(vehicle)之顯 不板、信號機器、通訊設備、電話、燈具、車燈、交談式 電子書、微顯示器(microdisplay)、釣魚(fishing)設備之顯 不、個人數位助理(pers〇nal digital assistam)、遊戲機 (game)、飛機(airplane)設備之顯示及遊戲眼罩之顯示等。 為能讓貴審查委員能更瞭解本發明之技術内容,特 舉電激發光顯示裝置較佳具體實施例說明如下。 實施例1 15 20Electrically excited light display panels, organic light-emitting diodes, etc. S ^ 3 mechanical electrical / electronic display panel or plasma display panel. The lead package structure of the present invention is particularly suitable for lead areas and connection lead areas outside the display area of a flat display panel. The method for forming the wire packaging structure of the present invention is to sequentially form a first conductive layer on a panel, and then use a method of coating, Luo ore, or splatter after the second conductive θ, and then seal the protective layer into a shape. 20 200521588 Above and between conductive layers. In this way, the corrosion of water vapor or oxygen can be avoided 'and the display quality is reduced or the service life is shortened. The operation of the display operating area of the flat display panel to which the wire of the present invention is applied is unlimited, and can be liquid crystal display, electroluminescence display, 5 electro-hydraulic display, vacuum fluorescent display, field emission display, electrical swimming display, Electrically colored display, deformed lens display, polymer dispersed liquid crystal display or organic electroluminescent display. The flat display panel (electrical, light-emitting display panel) to which the wire of the present invention is applied has no limitation on the display mechanism in the display area, and may be a passive determinant display panel or an active matrix display panel. 10. The lead area of the flat display panel (such as an electro-excitation light display panel) of the present invention is not limited in distribution, and may be a conventional χ_γ distribution on the periphery of the display area, and a conventional h-type distribution on the upper and lower periphery of the display area, or left and right They are symmetrical to each other and adjacent to the periphery of the sub-clamped display area. The display area electrode line of the flat display panel (such as an electro-excitation light display panel) or the guide wire outside the display area and the connecting lead 15 have a first conductive layer for conducting a current signal, and may optionally have at least -A second conductive layer to increase conductivity. The electrode wire of the display area of the electroluminescent display panel of the present invention can be any conventional electrode material. 1 It is preferably indium tin oxide (ITO), indium zinc oxide (Az〇), indium oxide (IZO), or tin tin oxide. (CdSn0), chromium, copper, silver, silver alloy, 20 silver copper alloy, silver alloy and combinations thereof. The electrode lines of the electroluminescent display panel of the present invention are not limited in arrangement, and it is preferable that the electrode lines are parallel to each other. According to the present invention, the first lead region, the second lead d, and / or the connecting lead region ㈣ are not connected to each other in a staggered manner. 200521588 The wire of the present invention can be applied to various flat display panels, which can be used for any purpose or equipment for displaying images, pictures, symbols and text, preferably televisions, computers, printers, screens, and transportation vehicles. ) Display boards, signal equipment, communication equipment, telephones, lamps, car lights, chat e-books, microdisplays, fishing equipment display, personal digital assistant (personal digital assistam), Game machine (airplane) equipment display and game eye mask display. In order to make your reviewing committee better understand the technical content of the present invention, the preferred embodiments of the electro-luminescent display device are described below. Example 1 15 20
請參照本發明之第2圖。第2圖為本發明導線之橫截己 不忍圖。本發明具有封裝保護層之導線係位於基板之表3 上,係形成一具有圖樣之IT〇第一導電層1〇42,再於其」 形成具有圖樣之銀或銀合金導電層1 〇41。且銀或銀合^ 導電層1041之圖樣與ΙΤ0第一導電層1042圖樣相同,於痛 =銀合金導電層之表面及其側邊,則形成一氧化矽封裝右 護層1043。氧化矽封裝保護層1〇43並填充銀或銀合金導^ =與ιτο第一導電層1〇42間之間隙。其所應用之^ =,可為任何平面顯示面板諸如有機電激發光面板、液差 =面板等。以下將以本發明導線結構應用於—有機^ ‘光面板為例加以說明,如第la及lb圖所示。第ia及lbg :一電激發光顯示面板之較佳例俯視圖,第lail為表示* 電激务光顯示面板之俯視圖,第lb圖為未形# 、恥層,以及圖素之第二電極層之電激發光顯示面板之你 11 25 200521588 視圖。但為說明之方便,於第la及lb圖中未覆有上蓋體。 於本發明具導線封裝結構之平面顯示面板上分為二個引線 區(即第一引線區HH與第二引線區102)以及一顯示區 103。在本實施例中顯示區103之顯示機制為被動式電激發 5光顯示機制。於第一引線區ιοί及第二引線區1〇2内分別有 第一導引線1011以及第二導引線1〇21。在本實施例中第一 引線區101及第一引線區1 之分佈位置係相互對稱,鄰接 並夾置顯不區1〇3。本實施例中之第一引線區1〇1及第二引 線區102個別對應之第一導引線1〇11以及第二導引線⑺以 馨 ίο係用以連接顯示區103之電極線與相對應之驅動電路丨〇5接 腳或其他接線(例如排線之連接端)。面板上每一第一導 引線1011間或每一第二導引線1〇21間不交錯連接。在第一 引線區101上佈有複數倒L方向,且相互平行的第一導引線 1011 ,在第二引線區102上亦佈有複數倒乙方向,且相互平 15行的第二導引線1021,其中在第一引線區1〇1上的複數第一 導引線1011數目與在第二引線區1〇2上的複數第二導引線 1021數目相同。顯示區1〇3之外,於面板之下方,佈有連接 導線1〇4以連接顯示區I3之電極線,且連接導線1〇4間不交春 2連接。於本實施例中,連接導線1〇4係連接顯示區1〇3之 2〇第一電極線1031 (即陽極線),且連接導線104也連接至相 對應之驅動電路105接腳或其他接線(例如排線之連接 端)。第一電極線1〇31為透明電極線或具有輔助導電線之 透明電極線,於本實施例中,第一電極線1〇31材料為ιτ〇。 12 200521588 第一電極線1031之ITO上並佈有條狀銀或銀合金輔助電極 線以增加導電電流。 第一導引線1 〇 11及第二導引線1021係連接至顯示區 10 3之第二電極線(即陰極線),在本實施例中第二電極線 5 (即陰極線)為銀線或銀合金線。面板上之顯示區1 〇 3外 圍,係以一封膠層1032封閉顯示區1〇3,並以之與上蓋體1〇6 相結合(請參照第3圖)。 顯示區10 3為具有第二電極線(陰極),第一電極線 103 1 (陽極)以及發光官能層組成圖素(pixei)之顯示區域, 10第一電極線1031 (陽極)與第二電極線(陰極)不直接連 接導通;且第二電極線(陰極)與一第一導引線1〇11或一 第二導引線1021相連接。 面板上封膠層1032外之第一導引線1011,第二導引線 1021與連接導線1〇4為具有第一導電層以及第二導電層之 15導線,其中第二導電層係設置於第一導電層上。在本實施 例中,第一導引線1011,第二導引線1〇21及連接導線1〇4 之第二導電層材料為銀或銀合金。 本貫施例具有封裝保護層之導線於形成過程中,有機 電激t光面板之顯不區之陽極線與本發明之導線之第一導 20電層y以同時進行。先於一已經洗乾淨之覆有銀合金層及 钔錫氧化物(ITQ )之玻璃基板上進行黃光蝕刻製程。其 中銦錫氧化物OT0)係夾置於玻璃基板以及銀合金層之 間。之後藉黃光蝕刻製程將銀合金及銦錫氧化物(IT0) -人形成顯示區之條狀排列之陽極圖樣、第一引線區之第 13 200521588 一導引線、弟一引線區之第二導引線以及連接導線之圖 樣,黃光蝕刻可使用一般之銦錫氧化物蝕刻液及銀合金蝕 刻液。第一引線區101之第一導引線1〇11,第二引線區1〇2 之第二導引線1021以及連接導線104具有銦錫氧化物 5 ( ITO )層1042 (凊參照第2圖)及銀合金層1 〇41。之後以 化學蒸鍍或濺鍍之方法於顯示區1〇3外形成— si〇2封裝保 護層1043以覆蓋第一引線區1〇1之第一導引線1〇1丨,第二引 線區102之第二導引線1〇2i以及連接導線1〇4 (請參照第2 圖)。Si02封裝保護層1043形成之步驟也可以於顯示區1〇3 1〇内之導線完成後進行,端視製程之方便而定。待封裝保護 層1043完成後,可以繼續進行顯示區1〇3之發光機制之後續 形成製程。 其係接著於基板上依序形成有機發光層與陰極層,J 罩上上蓋並封膠,如此而形成電激發光顯示裝置。 15 20Please refer to FIG. 2 of the present invention. Figure 2 is a diagram of the cross-section of the wire of the present invention. The conductive wire with a package protection layer according to the present invention is located on Table 3 of the substrate, and an IT0 first conductive layer 1042 having a pattern is formed, and a silver or silver alloy conductive layer 1041 having a pattern is formed thereon. And the pattern of the silver or silver-alloyed conductive layer 1041 is the same as the pattern of the ITO first conductive layer 1042. On the surface of the conductive layer of silver alloy and its sides, a silicon oxide package right protective layer 1043 is formed. The silicon oxide encapsulates the protective layer 1043 and fills the gap between the silver or silver alloy conductive layer and the first conductive layer 1042. The application of ^ = can be any flat display panel such as organic electroluminescent panel, liquid-difference panel, etc. The following will take the application of the lead structure of the present invention to an organic light-emitting panel as an example, as shown in FIGS. 1a and 1b. Ia and lbg: a top view of a preferred example of an electrically excited light display panel, the first lail is a top view showing the * electrical excitation light display panel, and the lb is an unshaped #, a shading layer, and a second electrode layer of a pixel View of your electric excitation light display panel 11 25 200521588. However, for convenience of explanation, the upper cover body is not covered in the la and lb diagrams. The flat display panel with a wire packaging structure of the present invention is divided into two lead areas (ie, the first lead area HH and the second lead area 102) and a display area 103. In this embodiment, the display mechanism of the display area 103 is a passive electric excitation 5-light display mechanism. There are a first guide line 1011 and a second guide line 1021 in the first and second lead areas 102 and 102, respectively. In this embodiment, the distribution positions of the first lead region 101 and the first lead region 1 are symmetrical to each other, and the display region 103 is adjacent to and sandwiched. In this embodiment, the first and second guide lines 1011 and 102 respectively corresponding to the first and second lead areas 101 and 102 are connected to the electrode wires of the display area 103 and Corresponding drive circuit 丨 05 pin or other wiring (such as the connection end of the cable). Each of the first lead wires 1011 or each of the second lead wires 1021 on the panel is not staggered. On the first lead region 101, there are a plurality of first guide lines 1011 parallel to each other in the direction of L, which are parallel to each other, and on the second lead region 102, a plurality of second leads, which are parallel to the direction of B and are parallel to each other in 15 rows. Line 1021, where the number of the plurality of first guide lines 1011 on the first lead region 101 is the same as the number of the plurality of second guide lines 1021 on the second lead region 102. Outside the display area 103, below the panel, a connecting wire 104 is arranged to connect the electrode line of the display area I3, and the connecting wires 104 are not connected at all. In this embodiment, the connecting wire 104 is connected to the first electrode wire 1031 (ie, the anode wire) of the display area 103, and the connecting wire 104 is also connected to the corresponding driving circuit 105 pin or other wiring. (Such as the connection end of the cable). The first electrode line 1031 is a transparent electrode line or a transparent electrode line having an auxiliary conductive line. In this embodiment, the material of the first electrode line 1031 is ιτ〇. 12 200521588 The first electrode wire 1031 is provided with strip-shaped silver or silver alloy auxiliary electrode wires on the ITO to increase the conductive current. The first guide line 1011 and the second guide line 1021 are second electrode lines (ie, cathode lines) connected to the display area 103. In this embodiment, the second electrode lines 5 (ie, cathode lines) are silver wires or Silver alloy wire. The outer area of the display area 103 on the panel is closed by an adhesive layer 1032 and the display area 103 is combined with the upper cover body 106 (refer to FIG. 3). The display area 103 is a display area having a second electrode line (cathode), a first electrode line 103 1 (anode), and a light-emitting functional layer to make up a pixel (pixei). The first electrode line 1031 (anode) and a second electrode The wire (cathode) is not directly connected and conducted; and the second electrode wire (cathode) is connected to a first guide wire 1011 or a second guide wire 1021. The first guide wire 1011, the second guide wire 1021, and the connecting wire 104 are outside the sealant layer 1032 on the panel, and are 15 wires having a first conductive layer and a second conductive layer. The second conductive layer is disposed on On the first conductive layer. In this embodiment, the material of the second conductive layer of the first guide wire 1011, the second guide wire 1021, and the connection wire 104 is silver or a silver alloy. In the present embodiment, in the process of forming the wire with the encapsulation and protection layer, the anode wire of the display region of the organic electroluminescent t-light panel and the first conductive layer y of the wire of the present invention are performed simultaneously. The yellow light etching process is performed on a cleaned glass substrate covered with a silver alloy layer and a tin oxide (ITQ). Among them, indium tin oxide (OT0) is sandwiched between a glass substrate and a silver alloy layer. After that, the silver alloy and indium tin oxide (IT0)-the anode pattern of the stripe arrangement of the display area, the 13th of the first lead area, the second lead area of the first lead area, and the second of the first lead area by the yellow light etching process. For the pattern of the guide wire and the connection wire, the general indium tin oxide etchant and silver alloy etchant can be used for the yellow light etching. The first guide line 1011 of the first lead region 101, the second guide line 1021 of the second lead region 102, and the connection lead 104 have an indium tin oxide 5 (ITO) layer 1042 (refer to FIG. 2) ) And silver alloy layer 1041. Then, it is formed outside the display area 103 by chemical vapor deposition or sputtering—the SiO 2 package protects the layer 1043 to cover the first lead line 101 of the first lead area 101, and the second lead area. 102 the second guide wire 102i and the connecting wire 104 (refer to FIG. 2). The step of forming the Si02 package protective layer 1043 can also be performed after the wires in the display area 1003-10 are completed, depending on the convenience of the manufacturing process. After the packaging protective layer 1043 is completed, the subsequent formation process of the light emitting mechanism of the display area 103 can be continued. It sequentially forms an organic light emitting layer and a cathode layer on a substrate, and covers and seals the J cover, thereby forming an electro-excitation light display device. 15 20
本發明電激發光顯示面板之導線結構因為將第一 _ 電d /、第一 ‘電層以封裝保護層覆蓋,所以能降低或避負 導引線因為環境中水氣或氧氣導致劣化、減少導引線燒g 或短路、提南顯示品質、延長使用壽命、提高面板之生』 一率P牛低不良品損失之成本。另外,由於本發明係以憑 盖封裝保護層之方式保護導電層,其加工之方法簡單, 連接導線之第二導電層之覆蓋可以_次完成,所c γ間,製程、減少光罩之使用、降低生產成本以及心 表4之時間。 14 200521588 顯干:ίΓ陳’本發明無論就目的、手段及功效,在在均 顯不其迥異於習知技術之特 明,麻您人垂W 只為一極具貫用價值之發 Μ付口專利要件’懇請早日賜准專利 實感德便。惟瘅嚏音沾β 最心社s ’ 准應庄思的疋,上述諸多實施例僅係 說明而舉例而已,太鉻日日1更於 j巳本务明所主張之權利範圍自應以申这直 利範圍所述為準,而非僅限於上述實施例。 -專 【圖式簡單說明】 第_lb圖係本發明具導線封裝結構之平面顯示 10顯示上蓋)之俯視圖; (禾 第2圖係本發明導線封裝結構之示意圖;以及 第3圖係本發明具導線封裝結構之平面顯示面板之立體圖。 【圖號說明】 100 面板 101 第一引線區 1011 102 第二引線區 1021 103 顯示區 103 1 104 連接導線 1041 1043 封裝保護層 105 驅動電路 106 上蓋體 第一導引線 第二導引線The lead structure of the electroluminescent display panel of the present invention can reduce or avoid the negative lead due to the moisture and oxygen in the environment, because the first _ d /, the first ′ electric layer is covered with a protective packaging layer. Guideline burns or short circuit, improves the display quality of the South, prolongs the service life, and improves the life of the panel. ”The rate is low and the cost of defective products is low. In addition, since the present invention protects the conductive layer by encapsulating the protective layer with a cover, the processing method is simple, and the covering of the second conductive layer of the connecting wire can be completed _ times, so the process and the use of the photomask can be reduced. Reduce production costs and time for the watch. 14 200521588 Xiangan: ΓΓ Chen 'No matter the purpose, method and effect of the present invention, it is very different from the conventional technology. It can only be used for a very valuable application.专利 Patent Requirements' I urge you to give your quasi-patent as soon as possible. However, the sneezing sounds are the most social and singular, and the above-mentioned many embodiments are just for illustration and examples, too. The day after day is more than the time limit of the rights claimed by Ben Wuming. This straightforward range prevails, and is not limited to the above embodiment. -[Simplified description of the drawings] Figure _lb is a top view of the present invention with a plane display structure of the wire packaging structure 10 display cover; (Figure 2 is a schematic diagram of the wire packaging structure of the present invention; and Figure 3 is the present invention Three-dimensional view of a flat display panel with a lead package structure. [Illustration of the drawing number] 100 panel 101 first lead area 1011 102 second lead area 1021 103 display area 103 1 104 connecting lead 1041 1043 package protection layer 105 driving circuit 106 upper cover body One guide line second guide line
第一電極線 1 03 2封膠層 第二導電層 1 042第一導電層 15First electrode wire 1 03 2 Sealant layer Second conductive layer 1 042 First conductive layer 15