201120719 六、發明說明: 【發明所屬之技術領域】 本發明實施例涉及電容式觸控螢幕面板。 【先前技術】 隨著電子行業的發展,具有反應速度快、低功耗及良好色彩重現率的 顯示器’比如液晶顯示器、電致發光顯示器及電漿顯示面板,已成為熱門 焦點。顯示器已用在各種電子產品’如電視,電腦、筆記本電腦、手機的 顯示幕,冰箱、掌上電腦、自動提款機的顯示單元。總體說來,顯示器係 與各種輸入裝置連接’如鍵盤’滑鼠及數位手寫輸入板。然而,當使用如 鍵盤’滑鼠及數位手寫輸入板的獨立輸入裝置時,使用者須知道怎樣使用 獨立的輸入裝置,且由於獨立的輸入裝置佔據空間,所以考慮到消費者的 滿意度,顯示器的使用是不方便的。因此,可減少錯誤操作的方便及簡單 的輸入裝置的需求逐漸增多。根據上述需求’推薦一種使用者可直接用手 指或筆接觸螢幕而輸入資訊的觸控螢幕面板。 由於觸控螢幕面板結構簡單,當發生小或無錯誤操作時,沒有獨立的 輸入裝置可執行輸入動作,同時觸控螢幕面板方便,使用者可通過螢幕上 顯示的内容快速,容易操作,各種顯示器已應用觸控螢幕面板。 根據觸摸部分的檢測方法,觸控螢幕面板分為電阻式、電容式、電磁 式等。根據將DC電壓加至在上板或下板上形成之金屬電極的狀態之電阻, 電阻式觸控螢幕面板通過電壓梯度以決定觸摸位置。當使用者與在上板或 下板上形成的導電膜物理地接觸時,電容式觸控螢幕面板根據上板或下板 所產生的電谷之不同而感測出觸摸位置。電磁式觸控螢幕面板通過讀取由 電磁筆接觸導電膜時所引起的LC值而偵測觸摸部分。 以下’參考第1圖及第2圖將描述現有技術的電容式觸控螢幕面板。 第1圖為說明現有技術電容式觸控螢幕面板—部分的透視圖,第2圖為說 明第1圖的觸控螢幕面板的剖面圖。 參照第1圖及第2® ’現有技術的電容式觸控榮幕面板包括基板1〇、 第-電極串及第二電極卜第-電極串包括複數個第—電極圖案4〇及將第 201120719 電第-連接圖案2〇。第二電極串包括複數個第二 串及第二電極串無接—觸相交圖案5G相互連接的第二連接圖案6g。第-電極 絕綾轉幕面板巾,第—連接圖案2G在基板1G场成。第-30且拉蛾第—連接圖帛2〇的基板1〇的整個表面形成。第一絕緣声 緣片、30上固觸孔3U及31b ’曝露出第一連接圖案20的部分。在第-^ 炻α ’形成第—電極串的第—電極圖案4G以及第二電極串的第-電 ri^5::rf 6〇0"^7〇 4_案50及第二連接圖案6〇的第一絕緣層%的整個表面 —ίΪ緣UKW ° ^獅案4G祕帽3G上形成的第 2〇;^ """"1〇 3〇 — 圖幸馳螢幕面板巾,第—電極串的第—電極®案4G與第—連接 電材料—Γ電極㈣第二電極圖案5G及第二連接圖案6㈣由透明導 (姻錫氧化物)。此外,第一絕緣層30及第二絕緣層 係由錄化物、魏化物或有機樹脂製成。 如上,述,在電容式觸控螢幕面板中,第-電極圖案40通過第-接觸 孔31a及第二接觸孔31b,而由第一連接圖帛%相互連接。 然而’電容式觸控勞幕面板的接觸孔31aA31b的直徑非常小,因為 第電極圖案4G及第二電極圖案5Q也製作的較小以便提高觸摸準確性。 因為物質的電阻與其橫截面成反比,所以填充在接觸孔3U及3ib的導電 材料,電畴常大。因此,如果捕容式雜螢幕面板生產過程中產生靜 ,電间,流突然流至填充在接觸孔31amb中具有高電阻的導電材料, 從而損壞接觸孔31a及31b,或與填充在接觸孔31a及31b内之導電材料相 連接的第一連接圖案20。 此外’在電谷式觸控螢幕面板中,與第_連接圖案2Q重疊的第一電極 圖案40及第―連翻案6〇的部分向上突起,因為其與在基板1()及絕緣層 3〇之間形成的第-連接圖案2〇的步驟不同。因此,如果在製作電容式觸 控螢幕面板過程中產生靜電,高電流沿著第一電極圖案4〇及第二電極圖案 5〇的表面以及第二連賴案60而流動,從而匯集至第—電極圖案40及第 201120719 圖案50的突起部分。尤其,因為第—電極圖案4 場。因此’第-電極圖案4。及第二連接_的突起 【發明内容】 製作在於Ϊ供—種電容式觸控勞幕面板,其可防止或減少在 製作觸控螢幕面板過程中,由靜電引起的觸控螢幕面板的損壞。^ 對=本發明額外的優點、目的及特點,將在隨後的描述中 述中顯而易見,或者可以通過實施本發明瞭解到。本發明 =====述,·的結構及在此的_請專 基本的目的_'"致,具趙继現及 m 螢幕板包括—基板;複數個第—電極串,形成在其 層上’第方=列’複數個第二1:極串,與複數個第—電極串在相同 個第-第二方向排列;-絕緣層,形成在基板與複數 第接二=間’該絕緣層包括至少兩個第-接觸孔及至少兩個 第—連接職,形餘基缺輯層之間,其相 第-電極圖案,複數個第一連接難^ , :/匕括相互獨立的複數個 :孔;=广以及通過至少_第二二 =:第 通過 =第上= 兩個第二接觸孔而連接。 I、第連接圖案的苐二部分通過至少 上,幕面她括一基板;一串複數個第一電極,形成在基板 同平面上,以與第㈣方列,複數個第—電極在相 該串複數個第一及第二雷極24 ° ,絕緣層,形成在基板與 少兩個第-接館 一 ° θ1 ’该絕緣層包括至少兩個第-接觸孔及至 在立:複,一連接圖案,形成在基板及絕緣層之間, 在第方向相互獨立制,財,鱗複觸—電極的其中之一包括相 5 201120719 互獨立的複數個第-電極圖案,該 括通過至少兩個第-接觸孔接觸的Π二=的至少其中之-包 接觸的第二部分,以及該紐個 心以及通過至少兩個第二接觸孔 連接圖案的至少其中之—的第:電極圖案的其中之—與該複數個第-及該複數個第::二分通過至少兩個第-接觸孔而連接,以 一的第二部分通過至少兩個第二接觸孔連接圖案的至少其中之 【實施方式】 電極圖案及連接 本發日㈣實施例係從認知如觸控螢幕面板的接觸孔、 圖案的特別部分而開始。 研 究結控螢幕面板損壞現象 幸由it減量,可降低接觸孔及連接圖 ==== :增加接觸孔的數量’則填人接觸孔内的電極圖 “〜# 0大因此’電極圖案本身總雜減小,以及 案接觸時’由於填人接觸孔内的電極圖案之間並聯的影響,產生的 3電阻也減小。因此,通過減小填人接觸孔内的電極_ 二 增加接觸孔臨界崩潰電壓。 % 、第二低電阻率材料,低接觸電阻材料或多層結構金屬 -連接圖案以連接各個第—電_案,可減小接氣及連接圖案的由靜電 引起的損壞。如果低電阻材料用作第—連接圖案,則第—連接圖案的總= 阻降低。如果低接觸電時_作第—連接圖案,#電極圖案與連接^ 接觸時’產生的接觸電阻降低,果多層結構金屬層用作第_連接圖案:、 則第-電極_及第-連接_的總電_低。因此,通過降低第一連 圖案的總電阻,可增加第一連接周案的臨界擊穿電壓。 第三’利用至少兩個第-連接圖案相互連接第一電極圖案,可確 控營幕面板的正常運行。這是因為#—個第—連接_或其中—個接 被損壞時’另-個還可以保持正f 此外,_第—連接圖案為並聯 以施加至每個第一連接圖案的負載減小一半。 最後,通過增加第-電極圖案及第二連接圖案之易於由靜電影響而減 201120719 引刀2的距離’可減小第一電極圖案及第二連接圖案的由靜電 部八之因為通過有效地保持第—電極圖案及第二連接圖案特定 心之間的距離,可減小由靜電引起的特定部分之間產生的電場。 金φ 參考第3圖至第6C圖料細說明本發明實施例。在整個說明 曰宁,本發明使用相似的元件符號以代表相似元件。 圖中說明本發明實施例觸控營幕面板的平面圖,第4a圓為第3 面板實例沿著割線π-π’的剖面圖,以及第4B圖至第4D圖 的平關,說明第3财顯示的觸控螢幕面板的輯“A”,同時顯示 第一電極圖案及接觸孔的各種實例。 參看第3圖,根據本發明實施例,電容式觸控螢幕面板包括基板1〇〇、 複數個第-電極串13〇、複數個第二電極串135、複數個第—佈線ιΐ2、複 數個第二佈線114、複數個第一連接墊116及複數個第二連接墊118。 複數個第-電極串13G·排列在第一方向(如χ·座標轴方向)。複 數個第-電極串130中的每-個包括具有三角形、四邊形、菱形等的第一 電極圖案131,及用於連接相鄰第一電極圖案131的第一連接圖案ιι〇。 複數個第二電極串135並聯排列在第二方向(如γ座標轴方向),及 第一電極串130相交但不彼此接觸。每個複數個第二電極串135包括與第 -電極圖案131相似,具有三角形、四邊形、菱形型等的第二電極圖案Β6 以及用於連接相鄰第二電極圖案136的第二連接圖案137。 複數個第一佈線112形成在基板1〇〇上’分別與複數個第一電極串13〇 連接。複數個第二佈線114形成在基板1〇〇上,分別與複數個第二電極串 135連接。 複數個第一連接墊116分別經由複數個第一佈線112而與複數個第一 電極串130連接,以及複數個第二連接墊118分別經由複數個第二佈線ιΐ4 而與複數個第二電極串135連接。 參考第4Α圖及第4Β圖,絕緣層120形成在基板1〇〇的整個表面上, 其中第一連接圖案110、第一佈線112及第二佈線114是在基板10〇上形 成。絕緣層120包括曝露出第一連接圖案110之第一部分的複數個第一接 觸孔120a、120b及120c,以及曝露出第一連接圖案11〇之第二部分的複數 個第二接觸孔120d、120e及120f。在本發明實施例中,第一或第二接觸孔 201120719 的數目為3個’但不限於此。根據第-及第二電極圖案或接觸孔的大小或 位置’可設置第一或第二接觸孔的數目為兩個或兩個以上。 第一連接圖案110與第一電極圖案131相互獨立,第二連接圖案137 及第二電極圖案136整體形成。反之’在其他實施例中,第—連接圖案及 第一電極圖案整體形成,第二連接圖案可在基板及絕緣層上形成,與第二 電極圖案相互獨立。在此情況下,第二電極圖案可通過接觸孔經由第二連 接圖案而相互連接。 第4C圖為說明觸摸板的平面圖,其中第一電極圖案131經由兩個第 一連接圖案111a及111b相互連接。在第4C圖的觸控螢幕面板中,第—連 接圖案111a經由第一接觸孔121a、121b、121c、121d、121e及121f以連 接相鄰的第一電極圖案131,同時第二連接圖案mb經由第二接觸孔 122a、122b、122c、122d、122e及122f以連接相鄰的第一電極圖案13卜 因此,由靜電引起而施加至二個第一連接圖案llla及lllb中的每一個的 負載可減小約一半。此外,當兩個第一連接圖案llla及lllb中任何一個 第一連接圖案被損壞時,而另一個第一連接圖案可維持正常。因此,可正 常操作觸控螢幕面板。 第一連接圖案110的材料可為透明導電材料,如銦錫氧化物(ITO)、 銦鋅氧化物(IZO)等,Cu、Mo或Al/Ni合金。可較佳使用Cu,但不是 必需的,因為Cu的電阻率及成本都很低。可更佳使用他或八!/^合金, 但不是必需的,因為當其及ITO或IZO接觸用作第一電極圖案131時,其 具有非常低的接觸電阻。絕緣層120的材料可為石夕氮化物、石夕氧化物、有 機材料等。 在第4B圖及第4C圖的觸控螢幕面板中’第一連接圖案no、1113及 lllb係以直線形成’但不限於此。第一連接圖案no、iua及11化具有中 間部分以及第一及第二部分,第一及第二部分係分別從中間部分的兩端延 伸’然後相對於中間部分以預定的角度形成。此外,至少一個接觸孔具有 與其他接觸孔不同的尺寸大小。 第4D圖疋說明觸控螢幕面板的平面圖’該觸控螢幕面板中第一與第 二部分以及第一連接圖案的中間部分係垂直相交形成。 參考第4D圖’第一連接圖案11〇具有_間部分110m、從中間部分110m 8 201120719 兩端延伸出的第-部分llOi及第二部分ll〇j。第一部分l1〇i與第一至第六 接觸孔 123a、123b、123c、123d、123e、123f 接觸,第二接觸部分 ii〇ji201120719 VI. Description of the Invention: [Technical Field] The present invention relates to a capacitive touch screen panel. [Prior Art] With the development of the electronics industry, displays such as liquid crystal displays, electroluminescent displays, and plasma display panels, which have fast response speeds, low power consumption, and good color reproduction rates, have become popular hot spots. The display has been used in display screens of various electronic products such as televisions, computers, notebook computers, mobile phones, refrigerators, PDAs, and cash dispensers. In general, the display is connected to various input devices such as a keyboard 'snake' and a digital handwriting input pad. However, when using a separate input device such as a keyboard 'mouse and digital tablet, the user must know how to use a separate input device, and since the independent input device occupies space, the consumer's satisfaction is taken into account. The use is inconvenient. Therefore, the convenience of erroneous operation and the demand for a simple input device are gradually increasing. According to the above requirements, a touch screen panel that allows users to input information by directly touching the screen with a finger or a pen is recommended. Since the touch screen panel has a simple structure, when there is little or no error operation, there is no independent input device to perform an input action, and the touch screen panel is convenient, and the user can quickly and easily operate the content displayed on the screen, and various displays. The touch screen panel has been applied. According to the detection method of the touch part, the touch screen panel is divided into a resistive type, a capacitive type, an electromagnetic type, and the like. The resistive touch screen panel passes a voltage gradient to determine the touch position according to the resistance of the state in which the DC voltage is applied to the metal electrode formed on the upper or lower plate. When the user physically contacts the conductive film formed on the upper or lower panel, the capacitive touch panel senses the touch position depending on the electric valley generated by the upper or lower panel. The electromagnetic touch screen panel detects the touch portion by reading the LC value caused by the electromagnetic pen contacting the conductive film. The prior art capacitive touch screen panel will be described below with reference to Figs. 1 and 2. 1 is a perspective view showing a portion of a conventional capacitive touch screen panel, and FIG. 2 is a cross-sectional view showing the touch screen panel of FIG. 1. Referring to FIG. 1 and the second embodiment, the prior art capacitive touch panel includes a substrate 1 , a first electrode string, and a second electrode. The first electrode string includes a plurality of first electrode patterns 4 and will be 201120719. Electric first-connection pattern 2〇. The second electrode string includes a plurality of second strings and a second connection pattern 6g in which the second electrode string connectionless contact patterns 5G are connected to each other. The first electrode is a curtain panel towel, and the first connection pattern 2G is formed on the substrate 1G. The entire surface of the substrate 1〇 of the -30th and the moth-connecting pattern 帛2〇 is formed. The first insulating sound edge piece, the 30 upper solid contact holes 3U and 31b' expose portions of the first connection pattern 20. Forming the first electrode pattern 4G of the first electrode string and the first electric ri^5::rf 6〇0"^7〇4_ case 50 and the second connection pattern 6 of the second electrode string The entire surface of the first insulating layer of 〇 — UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK UK The first electrode of the first electrode string 4G and the first connecting electrical material - the electrode (four) of the second electrode pattern 5G and the second connecting pattern 6 (four) are made of transparent conductive (sand tin oxide). Further, the first insulating layer 30 and the second insulating layer are made of a recording material, a derivative or an organic resin. As described above, in the capacitive touch panel, the first electrode pattern 40 is connected to each other by the first connection pattern 帛% through the first contact hole 31a and the second contact hole 31b. However, the diameter of the contact hole 31aA31b of the capacitive touch panel is very small because the first electrode pattern 4G and the second electrode pattern 5Q are also made smaller in order to improve the touch accuracy. Since the electrical resistance of the substance is inversely proportional to its cross section, the conductive material filled in the contact holes 3U and 3ib has a large electrical domain. Therefore, if static electricity is generated during the production process of the capacitive screen, the flow suddenly flows to the conductive material having high resistance filled in the contact hole 31amb, thereby damaging the contact holes 31a and 31b, or filling the contact hole 31a. And a first connection pattern 20 connected to the conductive material in 31b. In addition, in the electric valley type touch screen panel, the first electrode pattern 40 overlapping the first connection pattern 2Q and the portion of the first opening pattern 6 are protruded upward because they are on the substrate 1 () and the insulating layer 3 The steps of forming the first connection pattern 2〇 are different. Therefore, if static electricity is generated during the process of fabricating the capacitive touch screen panel, a high current flows along the surface of the first electrode pattern 4 and the second electrode pattern 5A and the second connection 60, thereby collecting the first The electrode pattern 40 and the protruding portion of the pattern 201120719. In particular, because the first electrode pattern is 4 fields. Therefore, the 'first electrode pattern 4'. And the second connection_protrusion [Summary] The invention relates to a capacitive touch screen panel which can prevent or reduce the damage of the touch screen panel caused by static electricity during the process of manufacturing the touch screen panel. Additional advantages, objects, and features of the invention will become apparent in the description which follows. The present invention ===== the structure of the description, and the specific purpose of the _ '", with Zhao Jixian and m screen board including - substrate; a plurality of first-electrode strings formed in it On the layer, 'the first side = the column', the plurality of second ones: the pole series, and the plurality of first electrode strings are arranged in the same first-second direction; the insulating layer is formed on the substrate and the plurality of first and second= The insulating layer comprises at least two first-contact holes and at least two first-connecting positions, between the missing layers of the residual base, the phase-electrode pattern of the phase, and the plurality of first connections are difficult to be: A plurality of: holes; = wide and connected by at least _ second two =: first pass = first upper = two second contact holes. I. The second part of the connection pattern passes through at least the upper surface, and the substrate comprises a substrate; a plurality of first electrodes are formed on the same plane of the substrate to form a plurality of first electrodes in the (fourth) column. a plurality of first and second lightning poles 24 °, an insulating layer formed on the substrate and less than two first-connected halls θ1 '' the insulating layer includes at least two first-contact holes and to the vertical: complex, one connection The pattern is formed between the substrate and the insulating layer, and is independent of each other in the first direction. One of the financial and scale contact-electrodes comprises a plurality of first-electrode patterns of phase 5 201120719, which are passed through at least two - at least one of the contacts of the contact hole contact = the second portion of the package contact, and the first core and the at least one of the at least two of the second contact holes connecting the pattern: And the plurality of the first and the plurality of:: two points are connected by at least two first contact holes, and the second portion of the first portion is connected to at least two of the patterns by the at least two second contact holes. Pattern and connection (Iv) from Example lines such as in particular cognitive touch screen panel portion of the contact hole, and the pattern is started. Studying the damage of the junction control panel is fortunately reduced by it, can reduce the contact hole and connection diagram ==== : increase the number of contact holes' then fill the electrode diagram inside the contact hole "~# 0 large so the electrode pattern itself total The impurity is reduced, and the contact resistance is reduced due to the parallel connection between the electrode patterns in the filling contact hole. Therefore, the contact hole is increased by reducing the electrode in the filling contact hole. Crash voltage. %, second low-resistivity material, low contact resistance material or multi-layer structure metal-connection pattern to connect each of the first-electric cases, can reduce the static-induced damage of the air connection and connection pattern. If low resistance When the material is used as the first connection pattern, the total resistance of the first connection pattern is reduced. If the contact pattern is low when the contact is made, the contact resistance generated when the #electrode pattern is in contact with the connection ^ is reduced, and the multilayered metal is reduced. The layer is used as the first connection pattern: then the total electric_low of the first electrode_and the first connection_ is low. Therefore, by lowering the total resistance of the first connection pattern, the critical breakdown voltage of the first connection case can be increased. third 'Using at least two first-connection patterns to connect the first electrode patterns to each other, the normal operation of the camping panel can be controlled. This is because #一第第连接_ or one of them is damaged when the other one is In addition, the _th-connection pattern is connected in parallel to reduce the load applied to each of the first connection patterns by half. Finally, by adding the first electrode pattern and the second connection pattern, it is easy to be affected by static electricity to reduce the 201120719 The distance ' of 2' can reduce the electrostatic discharge portion of the first electrode pattern and the second connection pattern by reducing the distance between the specific center of the first electrode pattern and the second connection pattern by effectively maintaining the static electricity. The electric field generated between the specific portions. Gold φ The embodiments of the present invention are described in detail with reference to Figures 3 through 6C. Throughout the description, the same reference numerals are used to designate similar elements. For example, the plan view of the touch screen panel, the 4th circle is a cross-sectional view of the 3rd panel example along the secant line π-π′, and the 4B to 4D diagrams, indicating the touch screen surface of the 3rd financial display. The series "A" simultaneously displays various examples of the first electrode pattern and the contact hole. Referring to FIG. 3, the capacitive touch screen panel includes a substrate 1 〇〇 and a plurality of first electrode strings 13 根据 according to an embodiment of the invention. a plurality of second electrode strings 135, a plurality of first wirings 2, a plurality of second wirings 114, a plurality of first connection pads 116, and a plurality of second connection pads 118. The plurality of first electrode strings 13G are arranged in the first One direction (such as a coordinate axis direction). Each of the plurality of first electrode strings 130 includes a first electrode pattern 131 having a triangle, a quadrangle, a diamond shape, and the like, and a connection for connecting the adjacent first electrode patterns 131. The first connection pattern ιι. The plurality of second electrode strings 135 are arranged in parallel in the second direction (such as the γ-coordinate axis direction), and the first electrode strings 130 intersect but do not contact each other. Each of the plurality of second electrode strings 135 includes a second electrode pattern Β6 having a triangular shape, a quadrangular shape, a diamond shape, and the like, and a second connection pattern 137 for connecting adjacent second electrode patterns 136, similar to the first electrode pattern 131. A plurality of first wirings 112 are formed on the substrate 1' to be respectively connected to the plurality of first electrode strings 13A. A plurality of second wirings 114 are formed on the substrate 1A, and are respectively connected to the plurality of second electrode strings 135. The plurality of first connection pads 116 are respectively connected to the plurality of first electrode strings 130 via the plurality of first wires 112, and the plurality of second connection pads 118 are respectively connected to the plurality of second electrode strings via the plurality of second wires ι4 135 connections. Referring to Figures 4 and 4, an insulating layer 120 is formed on the entire surface of the substrate 1B, wherein the first connection pattern 110, the first wiring 112, and the second wiring 114 are formed on the substrate 10A. The insulating layer 120 includes a plurality of first contact holes 120a, 120b, and 120c exposing the first portion of the first connection pattern 110, and a plurality of second contact holes 120d, 120e exposing the second portion of the first connection pattern 11? And 120f. In the embodiment of the present invention, the number of the first or second contact holes 201120719 is three 'but not limited thereto. The number of the first or second contact holes may be two or more depending on the size and position of the first and second electrode patterns or contact holes. The first connection pattern 110 and the first electrode pattern 131 are independent of each other, and the second connection pattern 137 and the second electrode pattern 136 are integrally formed. On the other hand, in other embodiments, the first connection pattern and the first electrode pattern are integrally formed, and the second connection pattern is formed on the substrate and the insulating layer, and is independent of the second electrode pattern. In this case, the second electrode patterns may be connected to each other through the contact holes via the second connection pattern. Fig. 4C is a plan view illustrating the touch panel in which the first electrode patterns 131 are connected to each other via the two first connection patterns 111a and 111b. In the touch screen panel of FIG. 4C, the first connection pattern 111a connects the adjacent first electrode patterns 131 via the first contact holes 121a, 121b, 121c, 121d, 121e, and 121f, while the second connection patterns mb are The second contact holes 122a, 122b, 122c, 122d, 122e, and 122f are connected to the adjacent first electrode patterns 13 so that the load applied to each of the two first connection patterns 111a and 11b can be caused by static electricity. Reduce it by about half. Further, when any one of the two first connection patterns 111a and 11b is damaged, the other first connection pattern can be maintained normal. Therefore, the touch screen panel can be operated normally. The material of the first connection pattern 110 may be a transparent conductive material such as indium tin oxide (ITO), indium zinc oxide (IZO), or the like, Cu, Mo, or Al/Ni alloy. Cu can be preferably used, but it is not necessary because the resistivity and cost of Cu are low. It is preferable to use him or an alloy, but it is not necessary because it has a very low contact resistance when it is used as the first electrode pattern 131 in contact with ITO or IZO. The material of the insulating layer 120 may be a stone nitride, a stone oxide, an organic material or the like. In the touch screen panels of Figs. 4B and 4C, the first connection patterns no, 1113, and 11b are formed in a straight line, but are not limited thereto. The first connection patterns no, iua, and 11 have intermediate portions and first and second portions, the first and second portions respectively extending from both ends of the intermediate portion and then formed at a predetermined angle with respect to the intermediate portion. Further, at least one of the contact holes has a different size from the other contact holes. 4D illustrates a plan view of the touch screen panel. The first and second portions of the touch screen panel and the intermediate portion of the first connection pattern are perpendicularly intersected. Referring to Fig. 4D, the first connection pattern 11'' has a _-intersection portion 110m, a first portion 11Oi and a second portion llj extending from both ends of the intermediate portion 110m 8 201120719. The first portion l1〇i is in contact with the first to sixth contact holes 123a, 123b, 123c, 123d, 123e, 123f, and the second contact portion ii〇ji
第七至第十二接觸孔123g、融、123i、123j、123k、1231接觸。在第4D 圖,控螢幕面板中,第一部分函及第二部分mj與t _分n〇m垂直 相交形成,但不限於此。第一部分麗及第二部分u〇j可以預定角度相交 至中間部分110m。 根據本發_上述實施例,第—電極__電阻減小,因為第一連 接圖案經由複數健觸孔與第—電極_而連接,以增加填人接觸孔的第 -電極圖輯㈣積。因此’通過增加在絕緣層上形成的細孔的數量, 即可降低输止接觸孔及第—連接__騎引起的損壞。 “本發明的另—實施例將參考第5 _詳細制。第5圖為第3圖中觸 控螢幕面板又—實例沿線n-n,的剖面圖; 一第5圖所示的觸控螢幕面板的元件及第4A圖中所示的相同,除了第 -連接圖案不同。因此,相似的耕符號代表相似的元件,為了簡化說明, 將省略詳細說明。 參看第5圖’第-連接圖案110包括依次在基板1〇〇上形成的第一金 屬層ll〇a、第二金屬層腿及第三金屬層·。優選的但不是必需的, 或齡金如删作為第一金屬層11〇a的材料,因為銘或銘合金的 =率較低。優選的但不是必需的,使_ (M。)或齡金作為第二金屬 層·的材料’因為當鋪第一電極圖案131如透㈣極接觸時,m〇或 銷合金的接觸電阻非常低。透明電極實例包括IT〇或IZ〇。此外,優選的 但不是必需的,使用與第1極圖案131相同的材料(如ιτ〇或ιζ〇)作 ^第三金屬層110c的材料。此外,第一金屬層_及第二金屬層·的 材料可為A1、Nd、AINd、M。、Tl、祕、Cu、&或上述合金其中任何一 個。也可使用其他金屬,合金或材料。 根據第5圖所示的觸控螢幕面板,由於第二金屬層脑與第 110c並聯’可減小具有多層結構的第—連接圖案11G的總電阻。二 接觸孔在絕緣層120形成時,由於Μ。的硬度非常低,Mq層作 二 板_及絕緣層12〇之間的第二金屬層·可被儀刻継刻,而,在^ 圖的觸控螢幕面板中,Mo層未難刻’因為在用作第二金屬層·的 201120719The seventh to twelfth contact holes 123g, fused, 123i, 123j, 123k, and 1231 are in contact. In the 4D figure, in the control panel, the first partial function and the second portion mj are formed perpendicularly intersecting with t_minute n〇m, but are not limited thereto. The first part and the second part u〇j may intersect at a predetermined angle to the intermediate portion 110m. According to the above embodiment, the first electrode__ resistance is reduced because the first connection pattern is connected to the first electrode via the plurality of contact holes to increase the first electrode pattern (4) product of the filling contact hole. Therefore, by increasing the number of pores formed on the insulating layer, the damage caused by the contact hole and the first connection can be reduced. "The other embodiment of the present invention will refer to the fifth-detail system. Figure 5 is a cross-sectional view of the touch screen panel in Fig. 3, along with an example of the line nn, and the touch screen panel shown in Fig. 5. The elements are the same as those shown in Fig. 4A except that the first-connection pattern is different. Therefore, similar pitch symbols represent similar elements, and detailed description will be omitted for simplicity of explanation. Referring to Fig. 5, the -th connection pattern 110 includes The first metal layer 11a, the second metal layer leg, and the third metal layer formed on the substrate 1 are preferably, but not necessarily, or the same as the material of the first metal layer 11A. Because the lower rate of the Ming or Ming alloy is lower. It is preferred but not necessary to make _ (M.) or gold as the material of the second metal layer' because the first electrode pattern 131 is in contact with the (four) pole. The contact resistance of the m〇 or pin alloy is very low. Examples of the transparent electrode include IT〇 or IZ〇. Further, it is preferable, but not necessary, to use the same material as the first pole pattern 131 (such as ιτ〇 or ιζ〇). ^The material of the third metal layer 110c. In addition, the first metal The material of the _ and the second metal layer may be A1, Nd, AINd, M., Tl, Mi, Cu, & or any of the above alloys. Other metals, alloys or materials may also be used. The touch screen panel of the present invention can reduce the total resistance of the first connection pattern 11G having a multi-layer structure because the second metal layer brain is connected in parallel with the 110c. When the two contact holes are formed in the insulating layer 120, the hardness is very high. Low, the Mq layer is used as the second metal layer between the two plates _ and the insulating layer 12 · can be engraved, and in the touch screen panel of the figure, the Mo layer is not difficult to 'because it is used as Second metal layer·201120719
Mo層上形成第三金屬層ll〇c’用作第三金屬層11〇c的IT〇或IZ〇的硬度 較大。因此,由於連接圖案110的總電阻減小,可防止或降低第一連接圖 案110因靜電所引起的損壞。在第5圖所示的觸控螢幕面板中,第一連接 圖案110由三層組成,但不限於此。根據用作第一連接圖案U0材料的物 理特性,可設置第一連接圖案110的層數為兩層或兩層以上。 以下將詳細描述本發明的其他實施例,參看第6A圖至第6C圖。第6A 圖至第6C圖為說明第一電極圖案、第二連接圖案及接觸孔的改變實例的 平面圖。 第6A圖至第6C圖所示的觸控螢幕面板的元件及第3圖至第5圖中所 示的相同,除了第一電極圖案及第一連接圖案不同。因此,相似的元件符 说代表相似的元件’為了簡化說明,將省略詳細說明。 參看第6A圖’觸控螢幕面板的第一電極圖案131包括第一凹面部分 131a及第二凹面部分131b,第一凹面部分i31a及第二凹面部分131b是在 與第一連接圖案110重疊部分的兩端形成。第二連接圖案137包括第三凹 面部分137a及第四凹面部分137b,第三凹面部分i37a及第四凹面部分i37b 是在與第一連接圖案lio重疊部分的兩端形成。第三凹面部分137a與第一 凹面部分131a相對,第四凹面部分137b與第二凹面部分i3ib相對。由於 與在基板100及絕緣層120之間形成的第一連接圖案no步驟不同,所以 與第一連接圖案110重疊的第一電極圖案131及第二連接圖案〗37的部分 會向上突起。 根據第6A圖顯示的觸控螢幕面板實施例,通過第一凹面部分13丨3及 第二凹面部分13*7a及/或第二凹面部分131b及第四凹面部分137b,第一電 極圖案131突出部分及第二連接圖案137突出部分之間的距離會延長。因 此’儘管在觸控螢幕面板的生產過程中產生靜電,但是在第一電極圖案131 及第二連接圖案137突起部分之間僅形成弱電場。因此,可防止或減少第 一電極圖案131及第二連接圖案137被損壞。 參看第6B圖,觸控螢幕面板的第一電極圖案131包括用於連接第一 電極圖案131及另一個相鄰第一電極圖案131的兩個第一連接圖案111&及 111b。由於在基板100及絕緣層120之間形成的第一連接圖案丨ila及 步驟不同,所以與第一連接圖案111a及nib重疊的第一電極圖案131及 201120719 第二連接圖案137部分會向上突起。在第6B圖的觸控螢幕面板中,第一 連接圖案數為兩個,但不限於此。可設置第一連接圖案數為兩個或兩個以 第一電極圖案131包括在與第一連接圖案111a重疊部分的兩端上所形 成的第一凹面部分131a及第二凹面部分131b。此外,第一電極圖案 包括在與第一連接圖案111b重疊部分的兩端上所形成的第一凸面部分 131c及第二凸面部分I31d。 第二連接圖案137包括在與第一連接圖案llla重疊部分的兩端上所形 成的第二凹面部分137a及第四凹面部分137b。第三凹面部分137a與第一 凹面部分131a相對,第四凹面部分1371)與第二凹面部分13比相對。此外, 第二連接圖案137包括在與第一連接圖案1111}重疊部分的兩端上所形成的 第三凸面部分137c及第四凸面部分i37d。第三凸面部分137c與第一凸面 部分131c相對,以及第四凸面部分137d與第二凸面部分131d相對。 根據第6B圖顯示的觸控螢幕面板,在第一電極圖案η〗及第二連接 圖案137與第一連接圖案llla的重疊處’通過第一凹面部分13la及第三 凹面13%及/或第二凹面部分131b及第四凹面137b,延長第一電極圖案 131的大出部分及第二連接圖案137的突出部分之間的距離。因此,儘管 在觸控螢幕面板生產過程中產生靜電,但是在第—電極圖案131及第二連 接圖案137突出部分之間僅形成弱電場。因此,可防止或減少第一電極圖 案131及第一連接圖案137被損壞。 反之在第電極圖案131及第二連接圖案13與第一連接圖案mb _疊處,由於第-凸面部分咖及第三凸面部分.及/或第二凸面部 为131d及第四凸面部分137d,第一電極圖案131的突出部分及第二連接 圖案137的大出σ卩分之間的距離被縮短。因此,如果在製作觸控勞幕面板 在第—電極圖案131及第二連接圖案137與第一連接圖 ^ lllb的重疊處’第一電極圖案131突出部分及第二連接圖案⑶ 分之間形成強電場。 =,儘管第-電極圖案131及第二連接圖1137的突出部分在強電 ,產生處會她I ’但是第一電極圖案131及第二連接圖案137的突出部分 疋維持在產生弱電場結果’可確保驗螢幕面板的正常運行。 201120719 參考第6C圖,觸控螢幕面板的第一電極圖案131包括第一凹面部分 131a及第二凹面部分131b,其在與第一連接圖案11〇的重疊處的兩端二 成。第二連接圖案137包括第三及第四凹面部分137a及137b,其在與第 一連接圖案110的重疊處的兩端形成。第三凹面部分137&與第一凹面部分 131a相對,第四凸面部分137b與第二凹面部分i31b相對。因此,由於與 在基板100及絕緣層120之間形成的第一連接圖案110的步驟不同,所以 與第一連接圖案110重疊的第一電極圖案131及第二連接圖案137的部分 會向上突起。 在第6C圖中顯示的觸控螢幕面板的第一連接圖案110具有中間部分 110m、第一部分u〇i及第二部分11〇j ’且第一部分11〇i及第二部分11〇j 是從中間部分ll〇m的兩端延伸,而與第4D圖所示的觸控螢幕面板相似。 在第6C圖顯示的觸控螢幕面板的絕緣層120包括曝露出第一部分ii〇i的 第一至第六接觸孔123a、123b、123c、123d、123e及123f,以及曝露出第 二部分llOj的第七至第十二接觸孔123g、123h、123i、123j、123k及123卜 在第6C圖的觸控螢幕面板中,接觸孔的數量設置為12,且第一部分110i 及第二部分110j是與中間部分ll〇m垂直相交,但不限於此。接觸孔的數 量可適當地調整。此外,第一部分ll〇i及第二部分ll〇j可與中間部分UOm 以直線或預定角度相交形成。 根據第6C圖顯示的觸控螢幕面板,憑藉第一凹面部分131a及第三凹 面部分137a及/或第二凹面部分131b及第四凹面部分137b,第一電極圖案 131突出部分及第二連接圖案137突出部分之間的距離被延長。因此,儘 管在製作觸控螢幕面板過程中產生靜電,在第一電極圖案131及第二連接 圖案137的突出部分之間僅形成弱電場。因此’可防止或減少第一電極圖 案131及第二連接圖案137被損壞。 表1顯示根據現有技術觸控螢幕面板對比實例與本發明實施例1至3 的靜電放電(ESD)測試結果。在測試中’發明人利用空氣中ESD放電搶 將靜電施加至觸控螢幕面板部分,同時逐漸地增加電壓位準,然後測量當 觸控螢幕面板損壞時的崩潰電壓。 12 201120719 表1 對比實例 實例The hardness of the IT 〇 or IZ 用作 which is formed as the third metal layer 11 〇 c on the Mo layer is large. Therefore, since the total resistance of the connection pattern 110 is reduced, damage of the first connection pattern 110 due to static electricity can be prevented or reduced. In the touch screen panel shown in Fig. 5, the first connection pattern 110 is composed of three layers, but is not limited thereto. The number of layers of the first connection pattern 110 may be two or more layers depending on the physical properties of the material used as the first connection pattern U0. Other embodiments of the present invention will be described in detail below, with reference to Figures 6A through 6C. 6A to 6C are plan views illustrating modified examples of the first electrode pattern, the second connection pattern, and the contact hole. The elements of the touch screen panel shown in Figs. 6A to 6C are the same as those shown in Figs. 3 to 5 except that the first electrode pattern and the first connection pattern are different. Therefore, similar elements are referred to as like elements. The detailed description will be omitted for simplicity of explanation. Referring to FIG. 6A, the first electrode pattern 131 of the touch screen panel includes a first concave portion 131a and a second concave portion 131b. The first concave portion i31a and the second concave portion 131b are overlapped with the first connection pattern 110. Both ends are formed. The second connection pattern 137 includes a third concave portion 137a and a fourth concave portion 137b, and the third concave portion i37a and the fourth concave portion i37b are formed at both ends of the overlapping portion with the first connection pattern lio. The third concave portion 137a is opposed to the first concave portion 131a, and the fourth concave portion 137b is opposed to the second concave portion i3ib. Since the steps of the first connection pattern no formed between the substrate 100 and the insulating layer 120 are different, portions of the first electrode pattern 131 and the second connection pattern 37 overlapping the first connection pattern 110 are protruded upward. According to the touch screen panel embodiment shown in FIG. 6A, the first electrode pattern 131 protrudes through the first concave portion 13丨3 and the second concave portion 13*7a and/or the second concave portion 131b and the fourth concave portion 137b. The distance between the protruding portions of the portion and the second connecting pattern 137 may be extended. Therefore, although static electricity is generated during the production of the touch panel, only a weak electric field is formed between the protruding portions of the first electrode pattern 131 and the second connection pattern 137. Therefore, the first electrode pattern 131 and the second connection pattern 137 can be prevented or reduced from being damaged. Referring to FIG. 6B, the first electrode pattern 131 of the touch screen panel includes two first connection patterns 111 & and 111b for connecting the first electrode pattern 131 and another adjacent first electrode pattern 131. Since the first connection patterns 丨 ila and the steps formed between the substrate 100 and the insulating layer 120 are different, the first electrode patterns 131 and the 201120719 second connection patterns 137 portions overlapping the first connection patterns 111a and nib are protruded upward. In the touch screen panel of Fig. 6B, the number of the first connection patterns is two, but is not limited thereto. The first connection pattern number may be two or two, and the first electrode pattern 131 may include the first concave portion 131a and the second concave portion 131b formed on both ends of the portion overlapping the first connection pattern 111a. Further, the first electrode pattern includes a first convex portion 131c and a second convex portion I31d formed on both ends of the portion overlapping the first connection pattern 111b. The second connection pattern 137 includes a second concave portion 137a and a fourth concave portion 137b formed on both ends of the portion overlapping the first connection pattern 111a. The third concave portion 137a is opposed to the first concave portion 131a, and the fourth concave portion 1371) is opposed to the second concave portion 13. Further, the second connection pattern 137 includes a third convex portion 137c and a fourth convex portion i37d formed on both ends of the portion overlapping the first connection pattern 1111}. The third convex portion 137c is opposed to the first convex portion 131c, and the fourth convex portion 137d is opposed to the second convex portion 131d. According to the touch screen panel shown in FIG. 6B, the first concave portion 13la and the third concave surface 13% and/or the first concave portion 13la and the third concave surface 13% and/or the first electrode pattern n and the second connection pattern 137 overlap with the first connection pattern 111a The two concave portions 131b and the fourth concave surface 137b extend the distance between the large portion of the first electrode pattern 131 and the protruding portion of the second connection pattern 137. Therefore, although static electricity is generated during the production of the touch panel, only a weak electric field is formed between the protruding portions of the first electrode pattern 131 and the second connection pattern 137. Therefore, the first electrode pattern 131 and the first connection pattern 137 can be prevented or reduced from being damaged. On the contrary, in the overlap of the first electrode pattern 131 and the second connection pattern 13 and the first connection pattern mb _, since the first convex portion and the third convex portion and/or the second convex portion are 131d and the fourth convex portion 137d, The distance between the protruding portion of the first electrode pattern 131 and the large σ minute of the second connection pattern 137 is shortened. Therefore, if the touch screen panel is formed, the first electrode pattern 131 and the second connection pattern (3) are formed at the overlap of the first electrode pattern 131 and the second connection pattern 137 with the first connection pattern 111b. Strong electric field. =, although the protruding portions of the first electrode pattern 131 and the second connection pattern 1137 are in a strong electric power, the generation of the first electrode pattern 131 and the protruding portion of the second connection pattern 137 are maintained at a weak electric field result. Ensure the normal operation of the inspection panel. 201120719 Referring to FIG. 6C, the first electrode pattern 131 of the touch screen panel includes a first concave portion 131a and a second concave portion 131b which are formed at both ends of the overlap with the first connection pattern 11A. The second connection pattern 137 includes third and fourth concave portions 137a and 137b formed at both ends of the overlap with the first connection pattern 110. The third concave portion 137 & is opposite to the first concave portion 131a, and the fourth convex portion 137b is opposed to the second concave portion i31b. Therefore, since the steps of the first connection pattern 110 formed between the substrate 100 and the insulating layer 120 are different, portions of the first electrode pattern 131 and the second connection pattern 137 overlapping the first connection pattern 110 are protruded upward. The first connection pattern 110 of the touch screen panel shown in FIG. 6C has an intermediate portion 110m, a first portion u〇i and a second portion 11〇j' and the first portion 11〇i and the second portion 11〇j are The ends of the middle portion ll〇m extend, similar to the touch screen panel shown in FIG. 4D. The insulating layer 120 of the touch screen panel shown in FIG. 6C includes first to sixth contact holes 123a, 123b, 123c, 123d, 123e and 123f exposing the first portion ii〇i, and exposing the second portion 110j The seventh to twelfth contact holes 123g, 123h, 123i, 123j, 123k, and 123 are in the touch screen panel of FIG. 6C, the number of contact holes is set to 12, and the first portion 110i and the second portion 110j are The middle portion ll 〇 m intersects vertically, but is not limited thereto. The number of contact holes can be adjusted as appropriate. Further, the first portion 11〇i and the second portion 11〇j may be formed to intersect the intermediate portion UOm at a straight line or a predetermined angle. According to the touch screen panel shown in FIG. 6C, the first electrode pattern 131 protrudes and the second connection pattern by the first concave portion 131a and the third concave portion 137a and/or the second concave portion 131b and the fourth concave portion 137b The distance between the protruding portions of 137 is extended. Therefore, although static electricity is generated during the process of fabricating the touch screen panel, only a weak electric field is formed between the protruding portions of the first electrode pattern 131 and the second connection pattern 137. Therefore, the first electrode pattern 131 and the second connection pattern 137 can be prevented or reduced from being damaged. Table 1 shows the results of electrostatic discharge (ESD) testing of the touch screen panel according to the prior art and the inventive examples 1 to 3. In the test, the inventor used ESD discharge in the air to apply static electricity to the touch panel portion while gradually increasing the voltage level, and then measuring the breakdown voltage when the touch panel was damaged. 12 201120719 Table 1 Comparative examples
---------- --- 黏接偏光鏡 2kV 實例2 實例 3 71Λ, ----------- --- Bonding polarizer 2kV Example 2 Example 3 71Λ, -
-L~-----__._____20kV 在表1中,對比實例為第i圖所示的現有技術觸控螢幕面板, 為第6A圖所示的觸控螢幕面板,實例2為第6B圖所示的觸栌 以及實例3為第 ----- 工 如表1所示,與現有技術的對比實例相比,在黏接偏光鏡前,本發明 實施例觸控榮幕面板的臨界崩潰電壓增加3至4倍,在黏接偏光鏡後,增 加1.54至1_7倍。因此’可有效地防止或減少觸控螢幕面板由靜電^ 損壞。 可將本發明實施例觸控螢幕面板應肚顯示器,如液晶顯示器、場發 射顯示器、電漿顯示面板、電致發光顯示器、電泳顯示器及軟性顯示器。 在上述情況下,觸控螢幕面板的基板也可用作顯示器的基板。 雖然實例的實施例已經參考一些解釋性實例而說明,但是必須了解的 是,熟知該技領域的人士可設想到的許多修改及改變,會落入本發明的範 圍及原理中。尤其是,在本發明範圍内標的組合配置的元件部分及/或配置 中,以及在圖式與所附申請專利範圍中,不同的變化與修改是可能。除了 元件部分及/或配置的變化與修改以外,其他的使用對熟知該技領域的人士 也將是顯而易見。 【圖式簡單說明】 所附圖式提供了實施例的進一步理解並且結合與構成本說明書的一部 份’說明本發明的實施例並且與說明一起用來解釋本發明。圖式中: 第1圆為說明現有技術電容式觸控螢幕面板一部分的透視圖; 第2圖為說明第1圖顯示的觸控螢幕面板部分的剖面圖; 第3圖為說明本發明實施例觸控螢幕面板平面圖; 第4A圖為第3圖中觸控螢幕面板實例沿線Π-H,的剖面圖; 13 201120719 第4B圖至第4 圖,以及顯示圖為第3圖顯示觸控螢幕面板的“A”區域的放大平面 第5圖為第'、第—連接圖案及接觸孔的各種實例; 第6A圖至第f中觸控營幕面板又一實例沿線E·11’的剖面圖;以及 圖,以及顯示了 ^為第3圖顯示觸控螢幕面板的“A,,區域的放大平面 實例。 冑極圖帛帛及第二連接®案及捿觸孔的各種 ^主要元件符號說明】 10基板 2〇 第一連接圖案 3〇 第一絕緣層 40 第—電極圖案 50 第二電極圖案 60第二連接圖案 70 第二絕緣層 31a第一接觸孔 31b 第二接觸孔 100基板 110 第一連接圖案 112 第一佈線 114 第二佈線 116 第一連接墊 118 第二連接墊 130 第一電極串 131 第一電極圖案 135 第二電極串 136 第二電極圖案 137 第二連接圖案 120 絕緣層 120a、120b、120c 第一接觸孔 \ 201120719 120d、120e、120f 第二接觸孔 111a、111b 第一連接圖案 第一接觸孔 第二接觸孔 121a、121b、121c、121d、121e、121f 122a、122b、122c、122d、122e、122f 123a 第一接觸孔 123b 第二接觸孔 123c 第三接觸孔 123d 第四接觸孔 123e 第五接觸孔 123f 第六接觸孔 123g 第七接觸孔 123h 第八接觸孔 123i 第九接觸孔 123j 第十接觸孔 123k 第十一接觸孔 1231 第十二接觸孔 110m第一連接圖案中間部分 ll〇i 第一連接圖案第一部分 110j 第一連接圖案第二部分 110a 第一金屬層 110b 第二金屬層 110c 第三金屬層 131a 第一電極圖案第一凹面部分 131b 第一電極圖案第二凹面部分 131c 第一電極圖案第一凸面部分 131d 第一電極圖案第二凸面部分 137a 第二連接圖案第三凹面部分 137b 第二連接圖案第四凹面部分 137c 第二連接圖案第三凸面部分 137d 第二連接圖案第四凸面部分 15-L~-----__._____20kV In Table 1, the comparative example is the prior art touch screen panel shown in Figure i, which is the touch screen panel shown in Figure 6A. Example 2 is Figure 6B. The illustrated touch panel and the example 3 are the first-----the work is as shown in Table 1. Compared with the prior art comparative example, the critical collapse of the touch panel of the present invention before the bonding of the polarizer The voltage is increased by 3 to 4 times and increased by 1.54 to 1_7 times after bonding the polarizer. Therefore, the touch screen panel can be effectively prevented or reduced from being damaged by static electricity. The touch screen panel of the embodiment of the invention may be a display such as a liquid crystal display, a field emission display, a plasma display panel, an electroluminescence display, an electrophoretic display, and a flexible display. In the above case, the substrate of the touch screen panel can also be used as the substrate of the display. Although the embodiments of the present invention have been described with reference to a number of illustrative examples, it is to be understood that many modifications and variations may be made by those skilled in the art. In particular, variations and modifications are possible in the component parts and/or configurations of the combination of the subject matter within the scope of the invention and the scope of the drawings and the appended claims. Other uses will be apparent to those skilled in the art, in addition to variations and modifications in the component parts and/or arrangements. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in the claims In the drawings: a first circle is a perspective view illustrating a part of a prior art capacitive touch screen panel; a second drawing is a cross-sectional view illustrating a touch screen panel portion shown in FIG. 1; and FIG. 3 is a view illustrating an embodiment of the present invention. Touch screen panel plan; Figure 4A is a cross-sectional view of the touch screen panel example along line Π-H in Fig. 3; 13 201120719 4B to 4, and the display diagram is 3 shows the touch screen panel The enlarged plane of the "A" region is shown in Fig. 5 as various examples of the 'th, the first-connection pattern and the contact hole; and the cross-sectional view of another example of the touch-screen panel in the sixth to the f-th row along the line E·11'; And the figure, and the display of the "A, the area of the zoom plane of the touch screen panel shown in Fig. 3. The various diagrams of the main components of the bungee map and the second connection ® case and the contact hole] 10 substrate 2 〇 first connection pattern 3 〇 first insulating layer 40 first electrode pattern 50 second electrode pattern 60 second connection pattern 70 second insulating layer 31a first contact hole 31b second contact hole 100 substrate 110 first connection Pattern 112 first wiring 114 second cloth 116 first connection pad 118 second connection pad 130 first electrode string 131 first electrode pattern 135 second electrode string 136 second electrode pattern 137 second connection pattern 120 insulation layer 120a, 120b, 120c first contact hole \ 201120719 120d 120e, 120f second contact hole 111a, 111b first connection pattern first contact hole second contact hole 121a, 121b, 121c, 121d, 121e, 121f 122a, 122b, 122c, 122d, 122e, 122f 123a first contact hole 123b second contact hole 123c third contact hole 123d fourth contact hole 123e fifth contact hole 123f sixth contact hole 123g seventh contact hole 123h eighth contact hole 123i ninth contact hole 123j tenth contact hole 123k eleventh contact Hole 1231 twelfth contact hole 110m first connection pattern intermediate portion 11〇i first connection pattern first portion 110j first connection pattern second portion 110a first metal layer 110b second metal layer 110c third metal layer 131a first electrode Pattern first concave portion 131b first electrode pattern second concave portion 131c first electrode pattern first convex portion 131d first electrode pattern second convex portion 137a second The third ground pattern concave portion 137b of the second connection pattern of the fourth concave portion 137c of the second connection pattern of the third convex portion 137d of the second connection pattern of the fourth convex portion 15