CN1331237C - Active organic light-emitting diode display and method for making same - Google Patents

Active organic light-emitting diode display and method for making same Download PDF

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CN1331237C
CN1331237C CNB021536775A CN02153677A CN1331237C CN 1331237 C CN1331237 C CN 1331237C CN B021536775 A CNB021536775 A CN B021536775A CN 02153677 A CN02153677 A CN 02153677A CN 1331237 C CN1331237 C CN 1331237C
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substrate
display
emitting diode
organic light
light emitting
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CN1505165A (en
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利锦洲
宋志峯
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友达光电股份有限公司
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Abstract

一种有源式有机发光二极管显示器及其制造方法,此方法首先提供一基板,其中基板具有一显示区以及一非显示区,且基板的显示区中已形成有数个像素结构。 An active matrix organic light emitting diode display and a manufacturing method, this method first providing a substrate, wherein the substrate has a display area and a non-display area and the display region of the substrate formed with several pixel structure. 接着在基板上形成与像素结构电性连接的数条透明导线,其中透明导线是由显示区向非显示区延伸。 Then the number of forming a transparent conductor structure electrically connected to the pixels on a substrate, wherein the transparent conductors are extended from the display area to a non-display area. 之后在基板上的显示区周围形成一感光式胶体,并且在基板的上方设置一封装盖,覆盖住基板的显示区,其中封装盖是通过感光式胶体而与基板黏合。 After forming around the display area on the photosensitive substrate a colloidal type, and a package cover disposed over the substrate, covering the display region of the substrate to live, and wherein the package lid is bonding to the substrate by the photosensitive GEL. 接着由基板的背面进行一照光步骤,以使感光式胶体固化。 Followed by a step illuminated by the back surface of the substrate to cure the photosensitive GEL. 最后在基板上的非显示区中形成一驱动芯片,其中驱动芯片通过透明导线而与像素结构电性连接。 Finally, a driver chip formed in the non-display region on the substrate, wherein the driver chip is electrically connected to the pixel structure through the transparent conductor.

Description

有源式有机发光二极管显示器及其制造方法 The active matrix organic light emitting diode display and a manufacturing method

技术领域 FIELD

本发明是有关于一种平面显示器及其制造方法,且特别是有关于一种有源式有机发光二极管(Active Matrix Organic Light Emitting Diode,AMOLED)显示器及其制造方法。 The present invention relates to a flat panel display and a manufacturing method, and more particularly relates to an active matrix organic light emitting diode (Active Matrix Organic Light Emitting Diode, AMOLED) display and a manufacturing method thereof.

背景技术 Background technique

有机发光二极管是一种可将电能转换成光能且具有高转换效率的半导体元件,常见的用途为指示灯、显示面板以及光学读写头之发光元件等等。 The organic light emitting diode is a light energy into electrical energy can be converted to a semiconductor element and having a high conversion efficiency, the use of a common indicator, the display panel and the light emitting element of the optical pickup and the like. 由于有机发光二极管元件具备一些特性,如无视角、工艺简易、低成本、高应答速度、使用温度范围广泛与全彩化等,符合多媒体时代显示器特性的要求,近年来已成为研究的热潮。 Since the organic light emitting diode device includes a number of features such as no perspective, simple process, low cost, high response speed, wide temperature range and the full-color and the like, satisfactory display characteristics of the multimedia era, research in recent years has become a craze.

现今一种有源式有机发光二极管已在积极的发展中,其是在形成有薄膜晶体管阵列的一基板上形成一有机发光层以及一阴极层,而构成一有源式有机发光二极管。 Today an active organic light emitting diode has been actively developed, it is in forming an organic light emitting layer and a cathode layer on a substrate a thin film transistor array to form an active matrix organic light emitting diode. 因此有源式有机发光二极管利用薄膜晶体管以驱动发光二极管元件。 Thus the active organic light emitting diode using a thin film transistor for driving the light emitting diode element. 而关于公知有源式有机发光二极管显示器的制造方法如下所述。 In regard to the known method of manufacturing an active matrix organic light emitting diode display as follows.

图1所示,其为公知一有源式有机发光二极管显示器的俯视示意图;图2为图1由I-I'的剖面示意图。 As shown in FIG. 1, which is a schematic top view of a known active matrix organic light emitting diode display; Figure 2 is a schematic view of I-I 'cross section of FIG.

请同时参照图1与图2,公知有源式有机发光二极管显示器的制造方法首先提供一基板100,其中基板100具有一显示区120以及一非显示区122,且基板100的显示区120中已形成有数个阵列排列的像素结构107,其中每一像素结构107包括一有源元件(薄膜晶体管)与一阳极层102、一发光层104以及一阴极层106。 Please refer to FIGS. 1 and 2, a known method of manufacturing an active matrix organic light emitting diode display is first provided a substrate 100, where substrate 100 has a display area 120 and a non-display region 122, and the substrate of the display region 100 120 already forming several array structure arranged in a pixel 107, wherein each pixel structure 107 includes an active element (thin film transistor) 102 and an anode layer, a light emitting layer 104 and a cathode layer 106.

其中,每一像素结构107是由一扫描配线(未绘示)以及一数据配线(未绘示)所控制,而位于显示区120二边缘处的扫描配线与数据配线会继续向非显示区120延伸,而形成数条向外延伸的金属导线(fan-out)108,其系用来与后续装设在非显示区122中的驱动芯片电性连接。 Wherein each pixel structure 107 (not shown) by a scanning line and a data line (not shown) controlled by the scanning lines and the data lines at the edge of the display area 120 will continue to be two non-display region 120 extends to form a number of metal wires (fan-out) 108 extending outwardly which is used to train the subsequent driving chip is electrically mounted in a non-display area 122 is connected.

之后,在基板100的显示区120周围形成一紫外光胶体112,并且在基板100的上方设置一封装盖114,通过紫外光胶体112而使基板100与封装盖114黏合。 Thereafter, the substrate is formed around the display region 120 of a UV colloid 100 112, a package lid 114 and disposed above the substrate 100, the substrate 112 and the encapsulation cover 114 100 adhesive by UV colloid. 接着,对基板100进行一紫外光照射步骤116,以使紫外光胶体112固化。 Next, a substrate 100 is irradiated with ultraviolet light step 116, body 112 so that UV curing. 最后,于基板100上的非显示区122中装设一驱动芯片110,而驱动芯片110与像素结构107之间通过金属导线108而电性连接。 Finally, a driving chip 110 mounted on the non-display region 122 on the substrate 100, and between the driver chips 110 and 108 of the pixel structure 107 is electrically connected by a metal wire.

在公知方法中,用来使像素结构107与驱动芯片110电性连接的金属导线108为与扫描配线以及数据配线相同材质的金属材料。 In the known methods, for the pixel structure 107 and the metal wire 110 driver chip 108 is electrically connected to the scanning lines and data lines of the same material as a metal material. 因此,后续在紫外光照射步骤116中,配置有金属导线108处的紫外光胶体112会被金属导线108遮蔽住,而使得此处的紫外光胶体112无法充分的吸收到紫外光,以致此处的紫外光胶体112无法完全的固化。 Thus, in the subsequent step 116 the ultraviolet light, the ultraviolet light is disposed at a colloidal metal wiring 108 112 108 will be concealed under the metal wire, so that the ultraviolet light 112 can not be sufficiently colloidal herein to absorb ultraviolet light, so that here UV body 112 can not be completely cured. 如此,将直接对封装效果有负面影响,意即水气将容易经由未固化完全之处而渗入显示器内部,进而破坏显示器内部的元件。 Thus, a direct negative impact on the effect of the package, which means that moisture will readily via the uncured and completely into the interior of the display, thereby destroying the inside of the display element.

发明内容 SUMMARY

因此,本发明的目的就是在提供一种有源式有机发光二极管显示器及其制造方法,以改善公知方法与结构中会有封装不完全的问题。 Accordingly, the object of the present invention is to provide an active matrix organic light emitting diode display and a manufacturing method to improve the known methods and structures have a problem of incomplete package.

本发明提出一种有源式有机发光二极管显示器的制造方法,此方法首先提供一基板,其中基板具有一显示区以及一非显示区,且基板的显示区中已形成有数个阵列排列的像素结构,而每一像素结构包括一有源元件(薄膜晶体管)与一阳极层、一发光层以及一阴极层。 The present invention provides a method for producing an active matrix organic light emitting diode display, the method providing a first substrate, wherein the substrate has a display area and a non-display region, the display region of the substrate and has a pixel array structure arranged in several , and each pixel structure includes an active element (thin film transistor) and an anode layer, a light emitting layer and a cathode layer. 接着在基板上的非显示区中形成数条透明导线,其与像素结构电性连接。 Then the number of transparent conductors formed in a non-display area on the substrate, which is electrically connected to the pixel structure. 其中,此数条透明导线可以是在形成像素结构的阳极层时所同时定义出的。 Wherein, the number of conductors may be a transparent anode layer structure is formed as the pixel out simultaneously defined. 在本发明中,透明导线的材质例如是铟锡氧化物或是铟锌氧化物等透明导电材质。 In the present invention, the transparent conductor material such as indium tin oxide or indium zinc oxide transparent conductive material. 继之,在基板的显示区周围涂布一感光式胶体,并且在基板上设置一封装盖,其中封装盖系将基板的显示区覆盖住,且封装盖与基板之间通过感光式胶体而彼此黏合。 Followed, in the display region of the substrate around a coating type photosensitive colloid, and a substrate disposed on the package cover, wherein the display area of ​​the package cap to cover the substrate, the lid and between the package and the substrate to each other through the photosensitive colloid of formula bonding. 接着,对基板进行一照光步骤,以使感光式胶体固化。 Next, the substrate is an illumination step, to cure the photosensitive GEL. 最后,再于基板上的非显示区中装设一驱动芯片,其中驱动芯片与像素结构之间通过透明导线而电性连接。 Finally, a driving chip mounted on the non-display region on the substrate, wherein the pixel structure between the driver chip and electrically connected through the transparent conductor.

本发明提出一种有源式有机发光二极管显示器,其包括一基板、一驱动芯片、数条透明导线、一封装盖以及一感光式胶体。 The present invention provides an active matrix organic light emitting diode display, which includes a substrate, a driver chip, the number of transparent conductor, a package lid and a photosensitive GEL. 其中,此基板具有一显示区以及一非显示区,且此基板的显示区中配置有数个阵列排列的像素结构,而每一像素结构包括一有源元件(薄膜晶体管)与一阳极层、一发光层以及一阴极层。 Wherein, the substrate having a display region and a non-display area and the display area This substrate structure array arranged several pixels arranged, and each pixel structure includes an active element (thin film transistor) and an anode layer, a light emitting layer and a cathode layer. 驱动芯片配置在基板的非显示区中。 Driving chip disposed on the non-display region of the substrate. 而数条透明导线配置在基板上,其中透明导线是由显示区向非显示区延伸,且透明导线与驱动芯片以及像素结构电性连接,而透明导线的材质例如是铟锡氧化物或是铟锌氧化物等透明导电材质。 While the number of conductors disposed on a transparent substrate, wherein the transparent conductors are extended from the display area to the non-display region, and the transparent conductor and the driver chip and electrically connected to the pixel structure, and a transparent conductor material such as indium tin oxide or indium zinc oxide transparent conductive material. 另外,封装盖配置在基板的上方,并覆盖住基板的显示区。 Further, the package cover disposed above the substrate and covering the display area of ​​the substrate to live. 而感光式胶体则是配置在基板上的显示区周围,用以黏合封装盖与基板。 The photosensitive GEL is disposed around the display area on the substrate, and the substrate for bonding the package lid.

由于本发明用来使像素结构与驱动芯片电性连接的导线为透明导线,而并非如公知方法利用金属导线,因此本发明的有源式有机发光二极管显示器以及其制造方法可以避免公知因金属导线的遮蔽而使胶体无法完全固化的问题。 Since the present invention for the wire and a pixel driving chip structure electrically connected to a transparent conductor, rather than using a known method such as a metal wire, and therefore the active matrix organic light emitting diode display according to the present invention and a manufacturing method thereof can be avoided due to well-known metal wires shielding colloid can not be completely cured of the problem.

本发明的有源式有机发光二极管显示器以及其制造方法可以改善显示器之封装效果,而使显示器内部的元件不会受到外界水气的侵蚀。 The active matrix organic light emitting diode display and a manufacturing method of the present invention can improve the sealing effectiveness of the display, the display elements inside will not be eroded ambient moisture.

由于本发明可以有效改善有源式有机发光二极管显示器封装工艺的缺陷,因此能提升显示器整体的可靠度。 Since the present invention can effectively improve the defects in an active matrix organic light emitting diode display packaging process, it is possible to improve the reliability of the overall display.

附图说明 BRIEF DESCRIPTION

图1为公知一有源式有机发光二极管显示器的俯视示意图;图2为图1由I-I'的剖面示意图;图3是依照本发明一较佳实施例的有源式有机发光二极管显示器的俯视示意图;以及图4为图3由II-II'的剖面示意图。 Figure 1 is a well known active matrix organic light emitting diode display is a schematic plan view; FIG. 2 is a cross-sectional view of FIG. 1 I-I '; and active matrix organic light emitting diode display of FIG. 3 is a preferred embodiment according to the present embodiment of the invention. a schematic plan view; FIG. 3 and FIG. 4 is a schematic cross-sectional view of II-II 'of.

100:基板102:有源元件与阳极层104:发光层106:阴极层107:像素结构108:金属导线110:驱动芯片112:胶体114:封装盖116:紫外光照射120:显示区122:非显示区300:透明导线 100: substrate 102: anode layer 104 and the active element: emitting layer 106: a cathode layer 107: pixel structure 108: metal wiring 110: Driver chip 112: Colloid 114: package lid 116: ultraviolet light 120: display region 122: a non- display area 300: transparent conductors

具体实施方式 detailed description

图3是依照本发明一较佳实施例的有源式有机发光二极管显示器的俯视示意图;图4为图3由II-II'的剖面示意图。 FIG 3 is a schematic plan view of the active matrix organic light emitting diode display according to a preferred embodiment of the present invention; FIG. 4 is a schematic cross-sectional view of FIG. 3 II-II 'of.

请同时参照图3与图4,本发明的有源式有机发光二极管显示器的制造方法首先提供一基板100,其中基板100具有一显示区120以及一非显示区122,且基板100的显示区120中已形成有数个阵列排列的像素结构107,其中每一像素结构107包括一有源元件(薄膜晶体管)与一阳极层102、一发光层104以及一阴极层106。 Referring to FIG. 3 and FIG. 4, a method of manufacturing an active matrix organic light emitting diode display according to the present invention, a substrate 100 is first provided, wherein the substrate 100 has a display area 120 and a non-display area 122 and display area 120 of the substrate 100 107 has a pixel array structure arranged in several, wherein each pixel structure 107 includes an active element (thin film transistor) 102 and an anode layer, a light emitting layer 104 and a cathode layer 106.

特别是,在形成像素结构107的阳极层102的时候,更同时定义出数条透明导线300,其中透明导线300是由显示区120的二边缘处向非显示区120延伸,而形成数条向外延伸的导线(fan-out)。 In particular, when the pixel structure of the anode layer 102 and 107, but also define a number of transparent conductors 300, wherein the transparent conductor 300 extending from the display region 120 of the two edges of the non-display region 120 to form the number of the an outer conductor extending (fan-out). 其中透明导线300的长度约为2厘米至4厘米左右,其是用来与后续装设在非显示区122中的驱动芯片电性连接,以使驱动芯片中的信号可以传递至像素结构107中。 Wherein the length of the transparent conductor 300 is about 2-4 cm, which is used for the subsequent driving chip mounted on electrically non-display area 122 is connected to a signal driver IC can be transmitted to the pixel structure 107 .

而由于透明导线300与阳极层同时定义出的,因此透明导线300的材质与阳极层的材质相同,此材质例如是铟锡氧化物或是铟锌氧化物等透明导电材质。 And because the anode layer 300 also defines out, so the same material and the anode material layer 300 transparent transparent conductor wire, for example, this material is indium tin oxide or indium zinc oxide transparent conductive material.

之后,在基板100上的显示区120周围处形成一感光式胶体112,并且于基板100的上方设置一封装盖114,通过感光式胶体112而使基板100与封装盖114黏合。 Thereafter, at the periphery of the display region 120 on the substrate 100 is formed a photosensitive colloid of Formula 112, and 100 above the substrate 114 is provided with a package lid 112 so that the substrate 100 and the package cover 114 by bonding the photosensitive GEL. 其中,封装盖114将基板100的显示区120覆盖住,用以保护显示区120内的元件免于受到外界水气的侵蚀。 Wherein the package cover 114 will display region 100 of the substrate 120 is covered to protect the elements in the display region 120 from external moisture erosion. 而封装盖114的材质例如是一金属材质或是一玻璃材质,在本实施例中,较佳的是金属材质,这是因为金属封装盖的制作成本较低,且目前工艺上大多是使用金属封装盖。 And the material of the package lid 114, for example, a metal material or a glass material, in the present embodiment, the metal material is preferred because of lower production costs of the metal package lid, and the current process is mostly a metal package lid. 另外,感光式胶体112例如是一紫外光胶体。 Further, the photosensitive body 112, for example, a formula ultraviolet colloid.

在将封装盖114以及基板100黏合之后,接着对基板100进行一紫外光照射步骤116,以使感光式胶体112固化。 After the package lid 114 and bonding the substrate 100, the substrate 100 and then a step 116 irradiated with ultraviolet light to cure the photosensitive body 112 formula. 此时,由于从像素结构107向外延伸的透明导线300为一透光材质,因此在紫外光照射步骤116过程中,被透明导线116遮盖住的感光式胶体112仍可以充分的吸收到紫外光而完全固化。 At this time, since the transparent conductor 300 extending outwardly of the pixel structure 107 is a transparent material, so the UV irradiation process step 116, the wire 116 cover the transparent photosensitive colloid of Formula 112 can still sufficient to absorb ultraviolet light The fully cured. 因此,固化后的感光式胶体112可以提供甚佳的封装效果。 Thus, after curing the photosensitive GEL package 112 may provide very good results.

最后,于基板100上的非显示区122中装设一驱动芯片110,其中驱动芯片110与像素结构107之间是通过透明导线108而电性连接。 Finally, a driving chip 110 mounted on the non-display region 122 on the substrate 100, where 108 is electrically connected between the driver IC through the transparent conductor 110 and the pixel structure 107.

因此,本发明的有源式有机发光二极管显示器包括一基板100、一驱动芯片110、数条透明导线300、一封装盖114以及一感光式胶体112。 Thus, the active matrix organic light emitting diode display according to the present invention comprises a substrate 100, a driving chip 110, the number of transparent conductor 300, a cover 114, and a package type photosensitive body 112.

其中,基板100具有一显示区120以及一非显示区122,且此基板100的显示区120中配置有数个阵列排列的像素结构107,而每一像素结构107包括一有源元件(薄膜晶体管)与一阳极层102、一发光层104以及一阴极层106。 Wherein the substrate 100 has a display area 120 and a non-display area 122 and display area 120 of the substrate 100 in this configuration several pixels arranged in an array structure 107, and each pixel structure 107 includes an active element (thin film transistor) and 102, a light emitting layer, a cathode layer 104 and anode layer 106 a. 驱动芯片110配置在基板100的非显示区122中。 Driving chip 110 arranged on the non-display region 122 of the substrate 100. 而数条透明导线300配置在基板100上,其中透明导线300是由显示区120向非显示区122延伸,且透明导线300是与驱动芯片110以及像素结构107电性连接,而透明导线300的材质例如是铟锡氧化物或是铟锌氧化物等透明导电材质。 While the number of the transparent conductor 300 disposed on the substrate 100, wherein the transparent conductor 300 extending from the display region 120 to the non-display area 122, and a transparent conductor 300 and the driver chip 110 and the pixel structure 107 is electrically connected to transparent conductor 300 materials such as indium tin oxide or indium zinc oxide transparent conductive material.

另外,封装盖114系配置在基板100的上方,并覆盖住基板100的显示区120。 Further, the package cover disposed above the substrate 114 lines 100, and covering the display region 100 of the substrate 120 to live. 而感光式胶体112则是配置在基板上100的显示区120的周围,用以黏合封装盖114与基板100。 And the photosensitive body 112 is of Formula disposed around the display area 120 on the substrate 100, for bonding the substrate 114 and the package lid 100.

特别值得一提的是,本发明亦可以在形成透明导线300的时候,同时在基板100的非显示区122中定义出一电源线(未绘示),此电源线与像素结构107电性连接,其用来使外界的一电源供应器所提供的电源能传递至像素结构107中。 Particularly worth mentioning are also the present invention may be formed of transparent conductor 300 when, at the same time define a power line (not shown) in the non-display region of the substrate 100 is 122, the power supply line and the pixel structure 107 is electrically connected , which is used to supply an external power supply can be supplied to the pixel structure 107 is transmitted.

除此之外,虽然本发明用来使驱动芯片110与像素结构107电性连接的透明导线300(例如是铟锡氧化物或铟锌氧化物材质)的阻抗较金属高一些,但由于一般驱动芯片110鲜少需要大电流流通,而且透明导线300的长度(由像素结构107至驱动芯片110的距离)约仅有2厘米至4厘米左右,因此对于信号衰减所造成的影响非常微小,而且利用提升驱动芯片110的输出信号电压作为补偿就可以克服上述情形。 In addition, although the present invention is used to drive the pixel structure 107 and the chip 110 is electrically connected to the transparent conductor 300 (e.g., indium tin oxide or indium zinc oxide material) higher impedance than the metal, but because of the regular drive rarely chip 110 requires a large current flows, and the length of transparent conductor 300 (the distance from the driver IC 110 to the pixel structure 107), only about about 2-4 cm, so for the signal attenuation caused by the impact is very small, and the use of driver output signal voltage boost compensation chip 110 can overcome the above case.

综合以上所述,本发明具有下列优点:1.由于本发明用来使像素结构与驱动芯片电性连接的导线为透明导线,而并非如公知方法利用金属导线,因此本发明的有源式有机发光二极管显示器以及其制造方法可以避免公知因金属导线的遮蔽而使胶体无法完全固化的问题。 Combining said above, the present invention has the following advantages: 1. Since the present invention for the wire and a pixel driving chip structure electrically connected to a transparent conductor, rather than using a known method such as a metal wire, the present invention is thus an active matrix organic light emitting diode display and a manufacturing method thereof can be avoided by shielding the known colloidal metal wire can not be completely cured problem.

2.本发明的有源式有机发光二极管显示器以及其制造方法可以改善显示器的封装效果,而使显示器内部的元件不会受到外界水气的侵蚀。 The active matrix organic light emitting diode display 2. The present invention and its manufacturing method can improve the effect of the display package, the inside of the display element will not be eroded ambient moisture.

3.由于本发明可以有效改善有源式有机发光二极管显示器封装工艺的缺陷,因此能提升显示器整体的可靠度。 3. Since the present invention can effectively improve the defects in an active matrix organic light emitting diode display packaging process, it is possible to improve the reliability of the overall display.

Claims (11)

1.一种有源式有机发光二极管显示器的制造方法,其特征是,该方法包括:提供一基板,该基板具有一显示区以及一非显示区,其中该基板的该显示区中已形成有多个像素结构;在该基板上形成与该些像素结构电性连接的多条透明导线,其中该些透明导线由该显示区向该非显示区延伸;在该基板上方设置一封装盖,覆盖住该基板的该显示区;在该基板与该封装盖之间形成一感光式胶体,且该感光式胶体对应形成在该显示区周围,其用以使该封装盖与该基板黏合;对该基板进行一照光步骤,以使该感光式胶体固化;以及在该基板上的该非显示区中形成一驱动芯片,其中该驱动芯片与该些透明导线电性连接。 An active method of manufacturing organic light emitting diode display, characterized in that, the method comprising: providing a substrate, the substrate having a display region and a non-display region, wherein the display region of the substrate has been formed a plurality of pixel structures; formed on the substrate, wherein the plurality of the plurality of transparent conductor extending plurality of transparent conductor electrically connected to the pixel structure of a display area to the non-display area; a packaging cover disposed over the substrate, covering the live display region of the substrate; is formed between the substrate and the encapsulation cover a type photosensitive colloid, and colloids of formula corresponding to the photosensitive formed around the display region, which is used to make the adhesive cover the package with the substrate; the a substrate illumination step, so that the gel is cured photosensitive formula; and the non-display area on the substrate is formed in a driver chip, wherein the driving chip is connected to the plurality of transparent conductor electrically.
2.如权利要求1所述的有源式有机发光二极管显示器的制造方法,其特征是,该透明导线的材质包括铟锡氧化物或是铟锌氧化物。 Active method of manufacturing organic light emitting diode display as claimed in claim 1, characterized in that the transparent conductor material comprises indium tin oxide or indium zinc oxide.
3.如权利要求1所述的有源式有机发光二极管显示器的制造方法,其特征是,该些透明导线的长度介于2厘米至4厘米之间。 Active method of manufacturing organic light emitting diode display as claimed in claim 1, characterized in that the plurality of transparent conductor length between 2-4 cm.
4.如权利要求1所述的有源式有机发光二极管显示器的制造方法,其特征是,该感光式胶体包括一紫外光胶体。 Active method of manufacturing organic light emitting diode display as claimed in claim 1, wherein the colloid comprises a UV-type photosensitive colloid.
5.如权利要求4所述的有源式有机发光二极管显示器的制造方法,其特征是,该照光步骤包括一紫外光照射步骤。 Active method of manufacturing organic light emitting diode display as claimed in claim 4, characterized in that the illumination step comprises a step of UV irradiation.
6.如权利要求1所述的有源式有机发光二极管显示器的制造方法,其特征是,该封装盖为一金属封装盖或是一玻璃封装盖。 Active method of manufacturing organic light emitting diode display as claimed in claim 1, characterized in that the cover is a metal package or a package lid cover glass package.
7.一种有源式有机发光二极管显示器,其特征是,该显示器包括:一基板,该基板具有一显示区以及一非显示区,且该基板的该显示区中配置有多个像素结构;一驱动芯片,配置在该基板的该非显示区中;多条透明导线,配置在该基板上,其中该些透明导线由该显示区向该非显示区延伸,且该些透明导线与该驱动芯片以及该些像素结构电性连接;一封装盖,配置在该基板的上方,并覆盖住该基板的该显示区;以及一感光式胶体,配置在该显示区的周围,其黏合该封装盖与该基板。 An active matrix organic light emitting diode display, wherein the display includes: a substrate, the substrate having a display region and a non-display region, and the display region of the substrate are arranged in a plurality of pixel structure; a driver chip, the non-display region disposed on the substrate; a plurality of transparent conductors disposed on the substrate, wherein the plurality of transparent conductor extending from the display area to the non-display region, and the plurality of transparent conductor and the driving chip and the plurality of pixel structure is electrically connected; a package cover disposed above the substrate and covering the display region of the substrate; and a photosensitive GEL, arranged around the display region, the bonding of the package lid and the substrate.
8.如权利要求7所述的有源式有机发光二极管显示器,其特征是,该透明导线的材质包括铟锡氧化物或是铟锌氧化物。 The active matrix organic light emitting diode display of claim 7 claims, characterized in that the transparent conductor material comprises indium tin oxide or indium zinc oxide.
9.如权利要求7所述的有源式有机发光二极管显示器,其特征是,该些透明导线的长度介于2厘米至4厘米之间。 The active matrix organic light emitting diode display of claim 7 to claim 9, characterized in that the plurality of transparent conductor length between 2-4 cm.
10.如权利要求7所述的有源式有机发光二极管显示器,其特征是,该感光式胶体包括一紫外光胶体。 The active matrix organic light emitting diode display of claim 7 to claim 10, characterized in that the ultraviolet light sensitive colloid comprises a colloid of formula.
11.如权利要求7所述的有源式有机发光二极管显示器,其特征是,该封装盖为一金属封装盖或是一玻璃封装盖。 The active matrix organic light emitting diode display 11. The claim 7, characterized in that the cover is a metal package or a package lid cover glass package.
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