TWI401649B - Organic light emitting display device - Google Patents

Description

有機發光顯示器裝置Organic light emitting display device 發明領域Field of invention

本發明係有關一有機發光顯示器裝置。更特定於，本發明係有關具有一增強驅動電流之一有機發光顯示器裝置。The present invention relates to an organic light emitting display device. More specifically, the present invention relates to an organic light emitting display device having an enhanced drive current.

發明背景Background of the invention

一般而言，一有機發光顯示器裝置(“OLED”)為響應來自該OLED外部之一驅動電流，而使用一螢光有機複合物來產生光，並藉由驅動NxM個有機發光電池來顯示一影像。該有機發光電池包括一有機發光電極與一切換裝置。該有機發光電極具有一陽極層、一有機發光薄層、以及一陰極層。該切換裝置施加該驅動電流至該有機發光電極。In general, an organic light emitting display device ("OLED") uses a fluorescent organic composite to generate light in response to driving current from one of the OLEDs, and displays an image by driving NxM organic light emitting cells. . The organic light emitting battery includes an organic light emitting electrode and a switching device. The organic light emitting electrode has an anode layer, an organic light emitting layer, and a cathode layer. The switching device applies the drive current to the organic light emitting electrode.

該OLED包括具有該有機發光電池之一顯示器面板、施加一閘極信號與一共同電壓Vcom至該顯示器面板之一閘極驅動部分、以及施加一資料信號與一電源電壓Vdd至該顯示器面板之一資料驅動部分。The OLED includes a display panel having one of the organic light emitting cells, applying a gate signal and a common voltage Vcom to one of the gate driving portions of the display panel, and applying a data signal and a power voltage Vdd to the display panel. Data driven part.

該閘極驅動部分包括一閘極驅動晶片與一閘極印刷電路板(“PCB”)。該資料驅動部分具有一資料驅動晶片與一資料PCB。該閘極PCB透過一閘極膠帶承載封裝(“TCP”)來電氣連接至該顯示器面板。該資料PCB透過一資料TCP來電氣連接至該顯示器面板。The gate drive portion includes a gate drive chip and a gate printed circuit board ("PCB"). The data driving part has a data driving chip and a data PCB. The gate PCB is electrically connected to the display panel through a gate tape carrying package ("TCP"). The data PCB is electrically connected to the display panel via a data TCP.

再者，該共同電壓Vcom透過於該閘極TCP上形成之一電壓供應線來施加至該顯示器面板。該電源電壓Vdd透過於該資料TCP上形成之一電壓供應線來施加至該顯示器面板。Furthermore, the common voltage Vcom is applied to the display panel via a voltage supply line formed on the gate TCP. The power supply voltage Vdd is applied to the display panel via a voltage supply line formed on the data TCP.

當該顯示器面板之大小增加時，該OLED需要較大的共同電壓Vcom與電源電壓Vdd之電壓準位。When the size of the display panel is increased, the OLED requires a large common voltage Vcom and a voltage level of the power supply voltage Vdd.

因此，由該共同電壓Vcom與該電源電壓Vdd形成，並透過於該閘極TCP與該資料TCP上形成之電壓供應線來施加至該顯示器面板之電流總量會受限制，而具有不足電壓準位之共同電壓Vcom與電源電壓Vdd會施加至該顯示器面板。Therefore, the total amount of current applied to the display panel by the common voltage Vcom and the power supply voltage Vdd and transmitted through the gate TCP and the voltage supply line formed on the data TCP is limited, and has a shortage of voltage The common voltage Vcom and the power supply voltage Vdd are applied to the display panel.

發明概要Summary of invention

本發明提供一有機發光顯示器裝置(“OLED”)，以便更有效律施加一驅動電流至一有機發光元件。The present invention provides an organic light emitting display device ("OLED") for more efficient application of a drive current to an organic light emitting device.

一示範實施例中，一OLED包括一顯示器面板、一第一印刷電路板、多個第一信號傳輸構件、以及一第一電壓傳輸構件。該顯示器面板具有一顯示器區域與多個週邊區域。該顯示器面板於該顯示器區域中，顯示由一有機發光元件產生之一影像。該第一印刷電路板施加一第一驅動信號與一電壓至該顯示器面板。該等第一信號傳輸構件將該第一印刷電路板電氣連接至該顯示器面板，以傳送該第一驅動信號與電壓至該顯示器面板。該第一電壓傳輸構件傳送該電壓至該顯示器面板。In an exemplary embodiment, an OLED includes a display panel, a first printed circuit board, a plurality of first signal transmission members, and a first voltage transmission member. The display panel has a display area and a plurality of peripheral areas. The display panel displays an image generated by an organic light emitting element in the display area. The first printed circuit board applies a first drive signal and a voltage to the display panel. The first signal transmitting members electrically connect the first printed circuit board to the display panel to transmit the first drive signal and voltage to the display panel. The first voltage transmitting member transmits the voltage to the display panel.

另一示範實施例中，一OLED包括一顯示器面板、一第一印刷電路板、以及一第一電壓傳輸構件。該顯示器面板具有一顯示器區域、一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域。該第一至第四週邊區域皆與該顯示器區域相鄰。該顯示器面板於該顯示器區域中，顯示由一有機發光元件產生之一影像。該第一印刷電路板與該第一、第二、第三、與第四週邊區域其中之一相鄰。該第一印刷電路板施加一第一驅動信號至該顯示器面板。該第一電壓傳輸構件位於該第一、第二、第三、與第四週邊區域之另一個。該第一電壓傳輸構件施加一電壓至該顯示器面板。In another exemplary embodiment, an OLED includes a display panel, a first printed circuit board, and a first voltage transmitting member. The display panel has a display area, a first peripheral area, a second peripheral area, a third peripheral area, and a fourth peripheral area. The first to fourth peripheral regions are all adjacent to the display region. The display panel displays an image generated by an organic light emitting element in the display area. The first printed circuit board is adjacent one of the first, second, third, and fourth peripheral regions. The first printed circuit board applies a first drive signal to the display panel. The first voltage transmitting member is located at the other of the first, second, third, and fourth peripheral regions. The first voltage transmitting member applies a voltage to the display panel.

仍有另一示範實施例中，一OLED包括一顯示器面板、一第一印刷電路板、以及一第一電壓傳輸構件。該顯示器面板具有一顯示器區域、一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域。該第一至第四週邊區域皆與該顯示器區域相鄰。該顯示器面板顯示由一有機發光元件產生之一影像。該第一印刷電路板與該第一週邊區域相鄰。該第一印刷電路板施加一第一驅動信號與一第一電壓至該顯示器面板。該第二印刷電路板與該第二週邊區域相鄰。該第二印刷電路板施加一第二驅動信號與一第二電壓至該顯示器面板。該等第一信號傳輸構件彼此間相隔一第一距離。該等第一信號傳輸構件將該第一印刷電路板電氣連接至該顯示器面板。該等第二信號傳輸構件彼此間相隔一第二距離。該等第二信號傳輸構件將該第二印刷電路板電氣連接至該顯示器面板。該第一電壓傳輸構件放置於該等第一信號傳輸構件之間。該第一電壓傳輸構件施加該第一電壓至該顯示器面板。該第二電壓傳輸構件放置於該等第二信號傳輸構件之間。該第二電壓傳輸構件施加該第二電壓至該顯示器面板。In still another exemplary embodiment, an OLED includes a display panel, a first printed circuit board, and a first voltage transmitting member. The display panel has a display area, a first peripheral area, a second peripheral area, a third peripheral area, and a fourth peripheral area. The first to fourth peripheral regions are all adjacent to the display region. The display panel displays an image produced by an organic light emitting element. The first printed circuit board is adjacent to the first peripheral area. The first printed circuit board applies a first driving signal and a first voltage to the display panel. The second printed circuit board is adjacent to the second peripheral region. The second printed circuit board applies a second driving signal and a second voltage to the display panel. The first signal transmission members are spaced apart from each other by a first distance. The first signal transmission members electrically connect the first printed circuit board to the display panel. The second signal transmission members are spaced apart from each other by a second distance. The second signal transmitting members electrically connect the second printed circuit board to the display panel. The first voltage transmitting member is placed between the first signal transmission members. The first voltage transmitting member applies the first voltage to the display panel. The second voltage transmitting member is placed between the second signal transmitting members. The second voltage transmitting member applies the second voltage to the display panel.

還有另一示範實施例中，一有機發光顯示器裝置包括一顯示器面板、傳送一驅動信號至該顯示器面板之一信號傳輸構件、以及與該信號傳輸構件分離並只傳送一電壓至該顯示器面板之一電壓傳輸構件。In still another exemplary embodiment, an organic light emitting display device includes a display panel, transmits a driving signal to a signal transmission member of the display panel, and is separated from the signal transmission member and transmits only a voltage to the display panel. A voltage transmitting member.

因此，該OLED包括介於該等信號傳輸構件間，或介於該第三與第四週邊區域間之電壓傳輸構件，藉此由施加至該顯示器面板之電壓形成的電流總量會增加。此外，施加至該顯示器面板之電壓準位會增加。再者，可改善該顯示器面板之可靠性。Accordingly, the OLED includes a voltage transfer member interposed between the signal transmission members or between the third and fourth peripheral regions, whereby the total amount of current formed by the voltage applied to the display panel increases. In addition, the voltage level applied to the display panel will increase. Furthermore, the reliability of the display panel can be improved.

圖式簡單說明Simple illustration

本發明之上述及其他特徵與優點，將藉由參照伴隨圖式來詳述其示範實施例而變得更加明顯，其中：第1圖是一有機發光顯示器裝置(“OLED”)之一示範實施例的平面圖；第2圖是第1圖所示之OLED的一橫截面圖；第3圖是第1圖中沿著線段I－I’之一橫截面圖；第4圖是一顯示第1圖之顯示器面板的一示範第二週邊區域之平面圖；第5圖是第4圖中沿著線段II－II’之一橫截面圖；第6圖是一顯示一OLED之另一示範實施例的平面圖；第7圖是一顯示第6圖之顯示器面板的一示範第三週邊區域與一示範第四週邊區域之平面圖；以及第8圖是一顯示一OLED之另一示範實施例的平面圖。The above and other features and advantages of the present invention will become more apparent from the detailed description of the exemplary embodiments of the accompanying drawings in which: FIG. 1 is an exemplary implementation of an organic light emitting display device ("OLED") A plan view of an example; FIG. 2 is a cross-sectional view of the OLED shown in FIG. 1; FIG. 3 is a cross-sectional view along line I-I' in FIG. 1; A plan view of an exemplary second peripheral region of the display panel; FIG. 5 is a cross-sectional view along line II-II' in FIG. 4; and FIG. 6 is a view showing another exemplary embodiment of an OLED Fig. 7 is a plan view showing an exemplary third peripheral area and an exemplary fourth peripheral area of the display panel of Fig. 6; and Fig. 8 is a plan view showing another exemplary embodiment of an OLED.

較佳實施例之詳細說明Detailed description of the preferred embodiment

下文中，本發明之較佳實施例將參照伴隨圖式來詳加敘述。圖式中，層次、薄膜、與區域之厚度會擴大以便清晰呈現。所有圖式中，相同數字代表相同元件。需了解當諸如一層次、薄膜、區域、或基體之元件參照為在另一元件“上”時，其可直接於其他元件上或可出現***元件。Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the thickness of the layers, films, and regions will be enlarged for clarity. In all figures, the same numbers represent the same elements. It is understood that when an element such as a layer, a film, a region, or a substrate is referred to as being "on" another element, it may be directly on the other element or the intervening element may be present.

第1圖是一有機發光顯示器裝置(“OLED”)之一示範實施例的平面圖。1 is a plan view of an exemplary embodiment of an organic light emitting display device ("OLED").

參照第1圖，一OLED包括顯示影像之一顯示器面板100、施加一資料信號與一電源電壓Vdd至該顯示器面板100以顯示該影像之一資料驅動部分200、施加一閘極信號與一共同電壓Vcom至該顯示器面板100以顯示該影像之一閘極驅動部分300、施加該電源電壓Vdd至該資料驅動部分200之一第一可撓印刷電路板400、以及施加該共同電壓Vcom至該閘極驅動部分300之一第二可撓印刷電路板500。需了解可以有多個個別與該資料驅動部分200與該閘極驅動部分300相關連之可撓印刷電路板400與500。Referring to FIG. 1 , an OLED includes a display panel 100 for displaying an image, applying a data signal and a power voltage Vdd to the display panel 100 to display a data driving portion 200 of the image, applying a gate signal and a common voltage. Vcom to the display panel 100 to display one gate driving portion 300 of the image, apply the power voltage Vdd to one of the first flexible printed circuit boards 400 of the data driving portion 200, and apply the common voltage Vcom to the gate One of the driving portions 300 is a second flexible printed circuit board 500. It will be appreciated that there may be a plurality of flexible printed circuit boards 400 and 500 associated with the data drive portion 200 and the gate drive portion 300.

該顯示器面板100包括一顯示器區域DA、與該顯示器區域DA之第一側相鄰之一第一週邊區域PA1、與該顯示器區域DA之第二側相鄰並與該第一週邊區域PA1之一側相鄰的一第二週邊區域PA2、與該顯示器區域DA之第三側相鄰並與該第一週邊區域PA1之另一側相鄰的一第三週邊區域PA3、以及與該顯示器區域DA之第四側相鄰之一第四週邊區域PA4。該顯示器區域DA之第一與第四側可彼此平行，而該顯示器區域DA之第二與第三側可彼此平行。該第四週邊區域PA4介於該第二與第三週邊區域PA2與PA3間。該第三週邊區域PA3實質與該第二週邊區域PA2平行。同樣地，該第四週邊區域PA4實質與該第一週邊區域PA1平行。The display panel 100 includes a display area DA, a first peripheral area PA1 adjacent to a first side of the display area DA, and a second side adjacent to the display area DA and one of the first peripheral areas PA1 a second peripheral area PA2 adjacent to the side, a third peripheral area PA3 adjacent to the third side of the display area DA and adjacent to the other side of the first peripheral area PA1, and the display area DA The fourth side is adjacent to one of the fourth peripheral areas PA4. The first and fourth sides of the display area DA may be parallel to each other, and the second and third sides of the display area DA may be parallel to each other. The fourth peripheral area PA4 is interposed between the second and third peripheral areas PA2 and PA3. The third peripheral area PA3 is substantially parallel to the second peripheral area PA2. Similarly, the fourth peripheral area PA4 is substantially parallel to the first peripheral area PA1.

多個資料線DL與多個閘極線GL於該顯示器區域DA中形成，其中只繪示一示範資料線DL與閘極線GL以便清晰呈現。該等資料線DL於一第一方向延伸，而該等閘極線GL於實質與該第一方向垂直之一第二方向延伸。該等資料線DL可與該顯示器區域DA之第一與第四側平行，而該等閘極線GL可與該顯示器區域DA之第二與第三側平行。一像素區域於一矩陣形狀中定義，該矩陣形狀位於由彼此相鄰之資料線DL與閘極線GL定義之區域中。本文僅敘述一像素區域，需了解該顯示器區域DA包括多個像素區域。A plurality of data lines DL and a plurality of gate lines GL are formed in the display area DA, wherein only an exemplary data line DL and a gate line GL are shown for clear presentation. The data lines DL extend in a first direction, and the gate lines GL extend in a second direction substantially perpendicular to the first direction. The data lines DL may be parallel to the first and fourth sides of the display area DA, and the gate lines GL may be parallel to the second and third sides of the display area DA. A pixel region is defined in a matrix shape located in a region defined by the data lines DL and the gate lines GL adjacent to each other. Only one pixel area is described herein, and it is to be understood that the display area DA includes a plurality of pixel areas.

一有機發光元件位於每一像素區域中。該有機發光元件包括一第一薄膜電晶體(“TFT”)110，其響應來自該閘極線GL之閘極信號而導通或截止、置於該第一TFT 110與一電源電壓線間之一儲存電容器Cst、為響應一驅動電流而發射光線之一有機發光(“有機EL”)二極體120、以及置於該電源電壓線與儲存電容器Cst間之一第二TFT 130，以便控制施加至該有機EL二極體120之驅動電流。一示範實施例中，該有機EL二極體120透過其陰極124(第2圖)來接收該共同電壓Vcom。An organic light emitting element is located in each pixel region. The organic light emitting device includes a first thin film transistor ("TFT") 110 that is turned on or off in response to a gate signal from the gate line GL, and is disposed between the first TFT 110 and a power voltage line. a storage capacitor Cst, an organic light-emitting ("organic EL") diode 120 that emits light in response to a driving current, and a second TFT 130 disposed between the power supply voltage line and the storage capacitor Cst for control application to The driving current of the organic EL diode 120. In an exemplary embodiment, the organic EL diode 120 receives the common voltage Vcom through its cathode 124 (Fig. 2).

當該第一TFT 110導通時，該第二TFT 130為響應來自該資料線DL之資料信號而導通，藉此該第二TFT 130提供該驅動電流至該有機EL二極體120。另外，該有機EL二極體120透過該第二TFT 130，發射對應施加至該有機EL二極體120之驅動電流的光線。When the first TFT 110 is turned on, the second TFT 130 is turned on in response to a data signal from the data line DL, whereby the second TFT 130 supplies the driving current to the organic EL diode 120. In addition, the organic EL diode 120 transmits light corresponding to a driving current applied to the organic EL diode 120 through the second TFT 130.

亦即，當一正向電流施加至該有機EL二極體120時，置於一陽極122與一陰極124間之一冷光層123，如第2圖所示，會接收來自該陽極122之正電荷與來自該陰極124之電子，而該正電荷與電子組合一起。當該正電荷與電子組合時，該有機EL二極體120發射光線。該第一與第二TFT 110與130個別作為一切換裝置與一電流控制裝置。該第一TFT 110與第二TFT 130可以是一N型金氧半導體(“MOS”)電晶體或一P型MOS電晶體，其中一N型包括電子濃度高於電洞濃度，而一P型包括電洞濃度高於電子濃度。That is, when a forward current is applied to the organic EL diode 120, a luminescent layer 123 disposed between an anode 122 and a cathode 124, as shown in FIG. 2, receives positive from the anode 122. The charge is associated with electrons from the cathode 124, and the positive charge is combined with the electrons. When the positive charge is combined with electrons, the organic EL diode 120 emits light. The first and second TFTs 110 and 130 are individually used as a switching device and a current control device. The first TFT 110 and the second TFT 130 may be an N-type metal oxide semiconductor ("MOS") transistor or a P-type MOS transistor, wherein an N-type includes an electron concentration higher than a hole concentration, and a P-type Including the hole concentration is higher than the electron concentration.

第2圖是第1圖所示之OLED的一橫截面圖。Fig. 2 is a cross-sectional view of the OLED shown in Fig. 1.

參照第2圖，該第一TFT 110包括一第一閘極電極111、一第一半導體型樣C1、一第一蝕刻停止型樣112、一第一源極電極113、以及一第一汲極電極114。Referring to FIG. 2, the first TFT 110 includes a first gate electrode 111, a first semiconductor pattern C1, a first etch stop pattern 112, a first source electrode 113, and a first drain. Electrode 114.

該第一半導體型樣C1是該第一TFT 110之一部分，位於該第一閘極電極111上，並由具有絕緣材料之一絕緣層140從該第一閘極電極111來電氣絕緣。如下更進一步所述，該絕緣層140位於該第一TFT 110之第一閘極電極111、該第二TFT 130之第二閘極電極131、以及該儲存電容器Cst之第一電極150上。此外，該第一半導體型樣C1包括一第一非晶矽型樣115、一第一n^＋ 非晶矽型樣116、以及一第二n^＋ 非晶矽型樣117。The first semiconductor pattern C1 is a portion of the first TFT 110, is located on the first gate electrode 111, and is electrically insulated from the first gate electrode 111 by an insulating layer 140 having an insulating material. As described further below, the insulating layer 140 is located on the first gate electrode 111 of the first TFT 110, the second gate electrode 131 of the second TFT 130, and the first electrode 150 of the storage capacitor Cst. In addition, the first semiconductor pattern C1 includes a first amorphous germanium pattern 115, a first n ⁺ amorphous germanium pattern 116, and a second n ⁺ amorphous germanium pattern 117.

一示範實施例中，該第一非晶矽型樣115藉由圖型化一非晶矽層來形成。此外，該第一n^＋ 非晶矽型樣116與該第二n^＋ 非晶矽型樣117藉由圖型化以摻雜物摻雜之一非晶矽層來形成。或者，該非晶矽層可被摻雜與圖型化來形成該第一非晶矽型樣115、該第一n^＋ 非晶矽型樣116、以及該第二n^＋ 非晶矽型樣117。In an exemplary embodiment, the first amorphous germanium pattern 115 is formed by patterning an amorphous germanium layer. In addition, the first n ⁺ amorphous germanium pattern 116 and the second n ⁺ amorphous germanium pattern 117 are formed by doping a dopant layer with one of the amorphous germanium layers. Alternatively, the amorphous germanium layer may be doped and patterned to form the first amorphous germanium pattern 115, the first n ⁺ amorphous germanium pattern 116, and the second n ⁺ amorphous germanium pattern 117 .

該第一蝕刻停止型樣112於該第一非晶矽型樣115上形成，而該第一蝕刻停止型樣112之相反端會由該第一n^＋ 非晶矽型樣116與該第二n^＋ 非晶矽型樣117所部分覆蓋。因此，該第一蝕刻停止型樣112之末端會***該第一n^＋ 非晶矽型樣116與117以及該第一非晶矽型樣115之間。除了部分於該第一蝕刻停止型樣112之末端部位上之外，該第一n^＋ 非晶矽型樣116與該第二n^＋ 非晶矽型樣117於該第一非晶矽型樣115上形成。該第一蝕刻停止型樣112可保護該第一非晶矽型樣115免受圖型化該第一n^＋ 非晶矽型樣116與該第二n^＋ 非晶矽型樣117之蝕刻劑蝕刻。The first etch stop pattern 112 is formed on the first amorphous germanium pattern 115, and the opposite end of the first etch stop pattern 112 is formed by the first n ⁺ amorphous germanium pattern 116 and the second The n ⁺ amorphous 矽 pattern 117 is partially covered. Therefore, the end of the first etch stop pattern 112 is inserted between the first n ⁺ amorphous germanium patterns 116 and 117 and the first amorphous germanium pattern 115. The first n ⁺ amorphous germanium pattern 116 and the second n ⁺ amorphous germanium pattern 117 are in the first amorphous germanium pattern except for a portion of the end portion of the first etch stop pattern 112. Formed on 115. The first etch stop pattern 112 can protect the first amorphous germanium pattern 115 from etchants that pattern the first n ⁺ amorphous germanium pattern 116 and the second n ⁺ amorphous germanium pattern 117 Etching.

該第二TFT 130包括一第二閘極電極131、一第二半導體型樣C2、一第二蝕刻停止型樣132、一第二源極電極133、以及一第二汲極電極134。該第二閘極電極131經由該連接電極121電氣連接至該第一TFT 110之第一汲極電極114，現將更進一步敘述如下。The second TFT 130 includes a second gate electrode 131, a second semiconductor pattern C2, a second etch stop pattern 132, a second source electrode 133, and a second drain electrode 134. The second gate electrode 131 is electrically connected to the first drain electrode 114 of the first TFT 110 via the connection electrode 121, which will be further described below.

該第二TFT 130之第二半導體型樣C2位於該第二閘極電極131上，並由該絕緣層140從該第二閘極電極131來電氣絕緣。此外，該第二半導體型樣C2包括一第二非晶矽型樣135、一第三n^＋ 非晶矽型樣136、以及一第四n^＋ 非晶矽型樣137。The second semiconductor pattern C2 of the second TFT 130 is located on the second gate electrode 131 and is electrically insulated from the second gate electrode 131 by the insulating layer 140. In addition, the second semiconductor pattern C2 includes a second amorphous germanium pattern 135, a third n ⁺ amorphous germanium pattern 136, and a fourth n ⁺ amorphous germanium pattern 137.

一示範實施例中，該第二非晶矽型樣135藉由圖型化一非晶矽層來形成，其可以與圖型化該第一非晶矽型樣115使用之非晶矽層相同。該第三n^＋ 非晶矽型樣136與該第四n^＋ 非晶矽型樣137藉由圖型化以傳導摻雜物摻雜之一非晶矽層來形成，其可以與形成該第一n^＋ 非晶矽型樣116、117使用之層次相同。該第二半導體型樣C2由與該第一半導體型樣C1相同之層次來形成。該第二蝕刻停止型樣132於該第二非晶矽型樣135上形成，而該第二蝕刻停止型樣132之相反端會由該第三n^＋ 非晶矽型樣136與該第四n^＋ 非晶矽型樣137所覆蓋。換言之，該第二蝕刻停止型樣132之末端部位會***該第三與第四n^＋ 非晶矽型樣136、137以及該第二非晶矽型樣135之間。該第三n^＋ 非晶矽型樣136與該第四n^＋ 非晶矽型樣137於該第二非晶矽型樣135上形成。此外，該第二蝕刻停止型樣132可保護該第二非晶矽型樣135免受圖型化該第三n^＋ 非晶矽型樣136與該第四n^＋ 非晶矽型樣137之蝕刻劑蝕刻。In an exemplary embodiment, the second amorphous germanium pattern 135 is formed by patterning an amorphous germanium layer, which may be the same as the amorphous germanium layer used to pattern the first amorphous germanium pattern 115. . The third n ⁺ amorphous germanium pattern 136 and the fourth n ⁺ amorphous germanium pattern 137 are formed by patterning a conductive dopant doped with an amorphous germanium layer, which can form the first An n ⁺ amorphous germanium pattern 116, 117 is used in the same level. The second semiconductor pattern C2 is formed by the same level as the first semiconductor pattern C1. The second etch stop pattern 132 is formed on the second amorphous germanium pattern 135, and the opposite end of the second etch stop pattern 132 is formed by the third n ⁺ amorphous germanium pattern 136 and the fourth Covered by n ⁺ amorphous germanium type 137. In other words, the end portion of the second etch stop pattern 132 is interposed between the third and fourth n ⁺ amorphous germanium patterns 136, 137 and the second amorphous germanium pattern 135. The third n ⁺ amorphous germanium pattern 136 and the fourth n ⁺ amorphous germanium pattern 137 are formed on the second amorphous germanium pattern 135. In addition, the second etch stop pattern 132 can protect the second amorphous germanium pattern 135 from patterning the third n ⁺ amorphous germanium pattern 136 and the fourth n ⁺ amorphous germanium pattern 137 Etchant etching.

該儲存電容器Cst包括一電氣連接至該第二閘極電極131之第一電極150，以及一電氣連接至該電源電壓線之第二電極151。該絕緣層140介於該第一電極150與該第二電極151之間。The storage capacitor Cst includes a first electrode 150 electrically connected to the second gate electrode 131, and a second electrode 151 electrically connected to the power supply voltage line. The insulating layer 140 is interposed between the first electrode 150 and the second electrode 151.

再者，該有機EL二極體120包括一連接電極121、一陽極122、一有機冷光層123、以及一陰極124。該顯示器面板100更包括一第一絕緣中間層160與一第二絕緣中間層170。該第一絕緣中間層160位於該第一TFT 110、第二TFT 130、以及該儲存電容器Cst之暴露表面上。該第二絕緣中間層170位於該連接電極121、陽極122、以及該第一絕緣中間層160之暴露表面上。Furthermore, the organic EL diode 120 includes a connection electrode 121, an anode 122, an organic luminescent layer 123, and a cathode 124. The display panel 100 further includes a first insulating interlayer 160 and a second insulating interlayer 170. The first insulating interlayer 160 is located on the exposed surfaces of the first TFT 110, the second TFT 130, and the storage capacitor Cst. The second insulating interlayer 170 is located on the exposed surface of the connection electrode 121, the anode 122, and the first insulating interlayer 160.

該連接電極121將該第一TFT 110之第一汲極電極114連接至該第二TFT 130之第二閘極電極131，其經由該第一汲極電極114之第一絕緣中間層160中形成的一連接孔，以及於該第一絕緣中間層160與該第二閘極電極131之絕緣層140中形成的一連接孔來完成。該連接電極121包括一實質與該陽極122之材料相同的材料。The connection electrode 121 connects the first drain electrode 114 of the first TFT 110 to the second gate electrode 131 of the second TFT 130, and is formed in the first insulating interlayer 160 of the first drain electrode 114. A connection hole is formed in the first insulating interlayer 160 and a connection hole formed in the insulating layer 140 of the second gate electrode 131. The connection electrode 121 includes a material substantially the same as that of the anode 122.

該陽極122電氣連接至該第二TFT 130之第二汲極電極134，以接收來自該電源電壓線之驅動電壓。該陽極122經由從該第一絕緣中間層160至該第二汲極電極134形成之一連接孔，電氣連接至該第二汲極電極134。該陽極122亦包括諸如，但不侷限於氧化銦錫(“ITO”)、氧化銦鋅(“IZO”)，等等之一選擇性透通與導電材料。The anode 122 is electrically connected to the second drain electrode 134 of the second TFT 130 to receive a driving voltage from the power voltage line. The anode 122 is electrically connected to the second drain electrode 134 via a connection hole formed from the first insulating interlayer 160 to the second drain electrode 134. The anode 122 also includes a selectively permeable and electrically conductive material such as, but not limited to, indium tin oxide ("ITO"), indium zinc oxide ("IZO"), and the like.

該有機冷光層123包括一紅色有機冷光材料、一綠色有機冷光材料、或一藍色有機冷光材料。該有機冷光層123置於該陽極122與該陰極124之間。該有機冷光層123經由於該第二絕緣中間層170中形成之一連接孔，連接至該陽極122。The organic luminescent layer 123 comprises a red organic luminescent material, a green organic luminescent material, or a blue organic luminescent material. The organic luminescent layer 123 is disposed between the anode 122 and the cathode 124. The organic luminescent layer 123 is connected to the anode 122 via a connection hole formed in the second insulating interlayer 170.

該陰極124位於該第二絕緣中間層170與該有機冷光層123上。該陰極124面對該陽極122並包括具有低電阻之鋁Al或鋁合金。The cathode 124 is located on the second insulating interlayer 170 and the organic luminescent layer 123. The cathode 124 faces the anode 122 and includes aluminum Al or an aluminum alloy having a low electrical resistance.

雖然未繪示來清晰呈現，但一負電荷注入層、一負電荷傳送層、一正電荷傳送層、以及一正電荷載體注入層是置於該陰極124與該陽極122之間。或者，一彩色濾光鏡(未顯示)可於該陰極124上方形成。Although not shown for clarity, a negative charge injection layer, a negative charge transport layer, a positive charge transport layer, and a positive charge carrier injection layer are disposed between the cathode 124 and the anode 122. Alternatively, a color filter (not shown) can be formed over the cathode 124.

再次參照第1圖，該資料驅動部分200包括多個資料驅動晶片210與一資料印刷電路板220。該資料印刷電路板220透過多個資料膠帶承載封裝(“TCP”)230電氣連接至該顯示器面板100。每一資料驅動晶片210可於一資料TCP 230上形成。Referring again to FIG. 1, the data driving portion 200 includes a plurality of data driving chips 210 and a data printed circuit board 220. The data printed circuit board 220 is electrically coupled to the display panel 100 via a plurality of data tape carrying packages ("TCP") 230. Each data drive wafer 210 can be formed on a data TCP 230.

該資料TCP 230沿著該顯示器面板100之第一週邊區域PA1彼此分離。每一資料TCP 230之第一端部位後附於該第一週邊區域PA1。每一資料TCP 230之第二端部位後附於該資料印刷電路板220。該資料TCP 230之第一端部位與第二端部位，透過各向異性導電薄膜(“ACF”)個別後附於該顯示器面板100與該資料印刷電路板220。一示範實施例中，該等資料驅動晶片210個別置於該等資料TCP 230上。每一資料TCP 230包括一電源電壓供應線240，來從該資料印刷電路板220施加該電源電壓Vdd至該顯示器面板100。該電源電壓供應線240可置於面向該ACF之資料TCP 230的表面，以透過該ACF將該電源電壓供應線240電氣連接至該顯示器面板100。The data TCP 230 is separated from each other along the first peripheral area PA1 of the display panel 100. The first end portion of each of the data TCPs 230 is attached to the first peripheral area PA1. The second end of each data TCP 230 is attached to the data printed circuit board 220. The first end portion and the second end portion of the data TCP 230 are individually attached to the display panel 100 and the data printed circuit board 220 through an anisotropic conductive film ("ACF"). In an exemplary embodiment, the data drive wafers 210 are individually placed on the data TCP 230. Each data TCP 230 includes a power voltage supply line 240 for applying the power voltage Vdd from the data printed circuit board 220 to the display panel 100. The supply voltage supply line 240 can be placed on the surface of the data TCP 230 facing the ACF to electrically connect the supply voltage supply line 240 to the display panel 100 through the ACF.

該第一可撓印刷電路板400置於相鄰的資料TCP 230之間。亦即，該第一可撓印刷電路板400之第一部位後附於置於相鄰的資料TCP 230間之第一週邊區域PA1，而該第一可撓印刷電路板400之第二部位後附於該資料印刷電路板220。該第一可撓印刷電路板400之第一端與第二端部位透過ACF，個別後附於該顯示器面板100與該資料印刷電路板220。當資料TCP 230、第一可撓印刷電路板400之一交替型樣、資料TCP 230、第一可撓印刷電路板400、等等受判定時，應了解放置關於該資料TCP 230之第一可撓印刷電路板400的替代型樣，亦於該等實施例之範疇內。The first flexible printed circuit board 400 is placed between adjacent data TCPs 230. That is, the first portion of the first flexible printed circuit board 400 is attached to the first peripheral area PA1 disposed between the adjacent data TCPs 230, and the second portion of the first flexible printed circuit board 400 is Attached to the data printed circuit board 220. The first end and the second end of the first flexible printed circuit board 400 are transmitted through the ACF, and are individually attached to the display panel 100 and the data printed circuit board 220. When the data TCP 230, the alternate pattern of the first flexible printed circuit board 400, the data TCP 230, the first flexible printed circuit board 400, and the like are judged, it should be understood that the first can be placed on the data TCP 230. Alternative versions of the flexible printed circuit board 400 are also within the scope of the embodiments.

一ACF包括黏附兩元件間之一樹脂以及多個分佈於該樹脂中之傳導球。當設定該樹脂時，該等傳導球會彼此電氣連接，因此於黏附一起之兩元件間提供一電氣連接。An ACF includes a resin adhered between two elements and a plurality of conductive balls distributed in the resin. When the resin is set, the conductive balls are electrically connected to each other, thereby providing an electrical connection between the two components that are bonded together.

一示範實施例中，該第一可撓印刷電路板400包括多個電源電壓供應線(未顯示)，其施加來自該資料印刷電路板220之電源電壓Vdd至該顯示器面板100。或者，該第一可撓印刷電路板400可僅包括一電源電壓供應線。當該第一可撓印刷電路板400僅包括一電源電壓供應線時，該第一可撓印刷電路板400中之電源電壓供應線的寬度會較設於該OLED中之每一其他電源電壓供應線的寬度寬，諸如該電源電壓供應線240。或者，該第一可撓印刷電路板400中之電源電壓供應線的寬度可實質等於每一該等電源電壓供應線寬度之總和。In an exemplary embodiment, the first flexible printed circuit board 400 includes a plurality of supply voltage supply lines (not shown) that apply a supply voltage Vdd from the data printed circuit board 220 to the display panel 100. Alternatively, the first flexible printed circuit board 400 may include only one power supply voltage supply line. When the first flexible printed circuit board 400 includes only one power supply voltage supply line, the width of the power supply voltage supply line in the first flexible printed circuit board 400 is greater than the supply of each of the other power supply voltages in the OLED. The width of the line is wide, such as the supply voltage supply line 240. Alternatively, the width of the supply voltage supply line in the first flexible printed circuit board 400 may be substantially equal to the sum of the widths of each of the supply voltage supply lines.

由透過該第一可撓印刷電路板400與該資料TCP 230兩者，施加至該顯示器面板100之電源電壓Vdd形成的電流總量，會大於由單獨透過該資料TCP 230施加至該顯示器面板100之電源電壓Vdd的電流總量。一示範實施例中，來自該資料TCP 230與該第一可撓印刷電路板400之電源電壓Vdd會施加至第2圖所示之顯示器面板100中的第二TFT 130之源極電極133。The total amount of current formed by the power supply voltage Vdd applied to the display panel 100 through both the first flexible printed circuit board 400 and the data TCP 230 may be greater than the amount of current applied to the display panel 100 through the data TCP 230 alone. The total amount of current of the power supply voltage Vdd. In an exemplary embodiment, the power supply voltage Vdd from the data TCP 230 and the first flexible printed circuit board 400 is applied to the source electrode 133 of the second TFT 130 in the display panel 100 shown in FIG.

該閘極驅動部分300包括多個閘極驅動晶片310與一閘極印刷電路板320。該閘極印刷電路板320透過多個閘極TCP 330電氣連接至該顯示器面板100。每一閘極驅動晶片310可位於一閘極TCP 330上。The gate driving portion 300 includes a plurality of gate driving chips 310 and a gate printed circuit board 320. The gate printed circuit board 320 is electrically connected to the display panel 100 through a plurality of gates TCP 330. Each gate drive wafer 310 can be located on a gate TCP 330.

該等閘極TCP 330沿著該顯示器面板100之第二週邊區域PA2彼此分離。每一閘極TCP 330之第一端部位後附於該第二週邊區域PA2。每一閘極TCP 330之第二端部位後附於該閘極印刷電路板320。該閘極TCP 330之第一端部位與第二端部位，透過ACF個別後附於該顯示器面板100與該閘極印刷電路板320。一示範實施例中，該等閘極驅動晶片310個別置於該等閘極TCP 330上。The gates TCP 330 are separated from each other along the second peripheral area PA2 of the display panel 100. The first end portion of each gate TCP 330 is attached to the second peripheral area PA2. The second end portion of each gate TCP 330 is attached to the gate printed circuit board 320. The first end portion and the second end portion of the gate TCP 330 are individually attached to the display panel 100 and the gate printed circuit board 320 through the ACF. In an exemplary embodiment, the gate drive wafers 310 are individually placed on the gates TCP 330.

每一閘極TCP 330包括一共同電壓供應線340，來從該閘極印刷電路板320透過一ACF施加該共同電壓Vcom至該顯示器面板100。Each gate TCP 330 includes a common voltage supply line 340 for applying the common voltage Vcom from the gate printed circuit board 320 through an ACF to the display panel 100.

該第二可撓印刷電路板500置於相鄰的閘極TCP 330之間。亦即，該第二可撓印刷電路板500之第一部位後附於置於相鄰的閘極TCP 330間之第二週邊區域PA2，而該第二可撓印刷電路板500之第二部位後附於該閘極印刷電路板320。該第二可撓印刷電路板500之第一端與第二端部位透過ACF，個別後附於該顯示器面板100與該閘極印刷電路板320。當閘極TCP 330、第二可撓印刷電路板500之一交替型樣、閘極TCP 330、第二可撓印刷電路板500、等等受判定時，應了解放置相關該閘極TCP 330之第二可撓印刷電路板500的替代型樣，亦於該等實施例之範疇內。The second flexible printed circuit board 500 is placed between adjacent gates TCP 330. That is, the first portion of the second flexible printed circuit board 500 is attached to the second peripheral area PA2 disposed between the adjacent gates TCP 330, and the second portion of the second flexible printed circuit board 500 Attached to the gate printed circuit board 320. The first end and the second end of the second flexible printed circuit board 500 are transmitted through the ACF, and are individually attached to the display panel 100 and the gate printed circuit board 320. When the gate TCP 330, the alternate pattern of the second flexible printed circuit board 500, the gate TCP 330, the second flexible printed circuit board 500, and the like are judged, it should be understood that the gate TCP 330 is placed. Alternative versions of the second flexible printed circuit board 500 are also within the scope of the embodiments.

一示範實施例中，該第二可撓印刷電路板500包括多個電源電壓供應線(未顯示)，其施加來自該閘極印刷電路板320之共同電壓Vcom至該顯示器面板100。該第二可撓印刷電路板500反而可包括一共同電壓供應線。當該第二可撓印刷電路板500僅包括一共同電壓供應線時，該第二可撓印刷電路板500中之共同電壓供應線的寬度會較設於該OLED中之每一共同電壓供應線的寬度寬，諸如該共同電壓供應線340。或者，該第二可撓印刷電路板500中之共同電壓供應線的寬度可實質等於每一該等共同電壓供應線340之總和。In an exemplary embodiment, the second flexible printed circuit board 500 includes a plurality of supply voltage supply lines (not shown) that apply a common voltage Vcom from the gate printed circuit board 320 to the display panel 100. The second flexible printed circuit board 500 can instead include a common voltage supply line. When the second flexible printed circuit board 500 includes only a common voltage supply line, the width of the common voltage supply line in the second flexible printed circuit board 500 is greater than the common voltage supply line in the OLED. The width is wide, such as the common voltage supply line 340. Alternatively, the width of the common voltage supply line in the second flexible printed circuit board 500 may be substantially equal to the sum of each of the common voltage supply lines 340.

由透過該第二可撓印刷電路板500與該閘極TCP 330兩者，施加至該顯示器面板100之共同電壓Vcom形成的電流總量，會大於由單獨透過該閘極TCP 330施加至該顯示器面板之共同電壓Vcom的電流總量。該共同電壓Vcom會施加至第2圖所示之有機EL二極體120之陰極124。The total amount of current formed by the common voltage Vcom applied to the display panel 100 through both the second flexible printed circuit board 500 and the gate TCP 330 may be greater than the total amount of current applied to the display through the gate TCP 330 alone. The total current of the common voltage of the panel Vcom. This common voltage Vcom is applied to the cathode 124 of the organic EL diode 120 shown in FIG.

每一該等第一與第二可撓印刷電路板400與500具有各種特性，諸如相較於TCP 230、330具有較高導電性、較寬電流路徑，等等，因此可比單獨使用TCP 230、330施加更多電流。亦即，當該等第一與第二可撓印刷電路板400與500連同該等TCP 230、330使用時，更多電流可施加至該顯示器面板100。Each of the first and second flexible printed circuit boards 400 and 500 has various characteristics, such as a higher conductivity than the TCP 230, 330, a wider current path, and the like, and thus can be compared to the TCP 230 alone. 330 applies more current. That is, when the first and second flexible printed circuit boards 400 and 500 are used in conjunction with the TCPs 230, 330, more current can be applied to the display panel 100.

第3圖是第1圖中沿著線段I－I’之一橫截面圖。Fig. 3 is a cross-sectional view taken along line I-I' in Fig. 1.

參照第3圖，一電源電壓電極襯墊260位於該顯示器面板100之第一週邊區域PA1上，並可置於對應該第一可撓印刷電路板400之位置的區域，亦可放置來電氣連接至設置於該等資料TCP 230之電源電壓供應線240。因此，當只繪示一電源電壓電極襯墊260時，可有多個電源電壓電極襯墊260在該週邊區域PA1中。一襯墊鈍化層250位於該電源電壓電極襯墊260上。該襯墊鈍化層250透過一第一接觸孔280電氣連接至該電源電壓電極襯墊260，該第一接觸孔280藉由消除該電源電壓電極襯墊260上之第一絕緣中間層160的一部位與該第二絕緣中間層170的一部位來形成。Referring to FIG. 3, a power supply voltage electrode pad 260 is located on the first peripheral area PA1 of the display panel 100 and can be placed in an area corresponding to the position of the first flexible printed circuit board 400, or can be placed for electrical connection. The power supply voltage supply line 240 is provided to the data TCP 230. Therefore, when only one power supply voltage electrode pad 260 is shown, a plurality of power supply voltage electrode pads 260 may be present in the peripheral area PA1. A pad passivation layer 250 is located on the supply voltage electrode pad 260. The pad passivation layer 250 is electrically connected to the power supply voltage electrode pad 260 through a first contact hole 280. The first contact hole 280 removes one of the first insulating interlayers 160 on the power supply voltage electrode pad 260. The portion is formed with a portion of the second insulating interlayer 170.

該電源電壓電極襯墊260於第1圖之顯示器面板100中，電氣連接至該電源電壓線，並包括一實質與該電源電壓線之材料相同的材料。該電源電壓電極襯墊260可與該電源電壓線相同之層次中形成。同樣地，該電源電壓線包括一實質與該第二TFT 130之第二源極電極133的材料相同之材料。該電源電壓線可與該第二源極電極133相同之層次中形成。因此，該電源電壓電極襯墊260包括一實質與該第二TFT 130之第二源極電極133相同的材料，諸如一金屬。該電源電壓電極襯墊260可與該第二源極電極133相同之層次中形成。或者，該電源電壓電極襯墊260可包括一實質與該第二TFT 130之第二閘極電極131或第二汲極電極134相同的材料，諸如一金屬。該電源電壓電極襯墊260可與該第二閘極電極131及/或第二汲極電極134相同之層次中形成。The power supply voltage electrode pad 260 is electrically connected to the power supply voltage line in the display panel 100 of FIG. 1 and includes a material substantially the same as the material of the power supply voltage line. The power supply voltage electrode pad 260 can be formed in the same level as the power supply voltage line. Similarly, the power supply voltage line includes a material substantially the same as that of the second source electrode 133 of the second TFT 130. The power supply voltage line can be formed in the same level as the second source electrode 133. Therefore, the power supply voltage electrode pad 260 includes a material substantially the same as the second source electrode 133 of the second TFT 130, such as a metal. The power supply voltage electrode pad 260 can be formed in the same level as the second source electrode 133. Alternatively, the power supply voltage electrode pad 260 may comprise a material substantially the same as the second gate electrode 131 or the second drain electrode 134 of the second TFT 130, such as a metal. The power supply voltage electrode pad 260 can be formed in the same level as the second gate electrode 131 and/or the second drain electrode 134.

該襯墊鈍化層250包括實質與該有機EL二極體120之陽極122使用的材料相同的ITO或IZO。該襯墊鈍化層250可與該陽極122相同之層次中形成。The pad passivation layer 250 includes ITO or IZO which is substantially the same material as that used for the anode 122 of the organic EL diode 120. The pad passivation layer 250 can be formed in the same level as the anode 122.

既然該絕緣層140位於該第一與第二閘極電極111、113上並將其絕緣，故可視為一閘極絕緣層。Since the insulating layer 140 is located on the first and second gate electrodes 111, 113 and is insulated, it can be regarded as a gate insulating layer.

該第一可撓印刷電路板400包括一第一基礎薄膜410與至少一電源電壓供應線420。一示範實施例中，該第一可撓印刷電路板400透過一ACF，電氣連接至該電源電壓電極襯墊260。該ACF 600具有多個傳導球610，用於提供介於該電源電壓電極襯墊260與該至少一電源電壓供應線420間之電氣連接。The first flexible printed circuit board 400 includes a first base film 410 and at least one power supply voltage supply line 420. In an exemplary embodiment, the first flexible printed circuit board 400 is electrically connected to the power supply voltage electrode pad 260 through an ACF. The ACF 600 has a plurality of conductive balls 610 for providing an electrical connection between the supply voltage electrode pad 260 and the at least one supply voltage supply line 420.

亦即，該電源電壓供應線420透過該ACF 600之襯墊鈍化層250與傳導球610，電氣連接至該電源電壓電極襯墊260。That is, the power supply voltage supply line 420 is electrically connected to the power supply voltage electrode pad 260 through the pad passivation layer 250 of the ACF 600 and the conductive ball 610.

因此，來自該資料印刷電路板220之電源電壓Vdd會透過該第一可撓印刷電路板400之電源電壓供應線420，施加至該襯墊鈍化層250。施加至該襯墊鈍化層250之電源電壓Vdd會施加至該電源電壓電極襯墊260。施加至該電極襯墊260之電源電壓會透過該電源電壓線，施加至該第二TFT 130之第二閘極電極131。電源電壓Vdd亦可類似透過該電源電壓供應線240來施加。Therefore, the power supply voltage Vdd from the data printed circuit board 220 is applied to the pad passivation layer 250 through the power supply voltage supply line 420 of the first flexible printed circuit board 400. A power supply voltage Vdd applied to the pad passivation layer 250 is applied to the power supply voltage electrode pad 260. A power supply voltage applied to the electrode pad 260 is applied to the second gate electrode 131 of the second TFT 130 through the power supply voltage line. The power supply voltage Vdd can also be applied similarly through the supply voltage supply line 240.

第4圖是一顯示第1圖之顯示器面板100的一示範第二週邊區域PA2之平面圖。第5圖是第4圖中沿著線段II－II’之一橫截面圖。Figure 4 is a plan view showing an exemplary second peripheral area PA2 of the display panel 100 of Figure 1. Fig. 5 is a cross-sectional view taken along line II-II' in Fig. 4.

參照第4圖與第5圖，多個共同電極襯墊550置於該顯示器面板100之第二週邊區域PA2上。該共同電極襯墊550透過一第二接觸孔560a、一第三接觸孔560b、一第四接觸孔560c、以及一第五接觸孔560d，電氣連接至該陰極124，其中該等第二、第三、第四、與第五接觸孔560a－560d置於與該共同電極襯墊550之第一側相鄰。Referring to FIGS. 4 and 5, a plurality of common electrode pads 550 are placed on the second peripheral area PA2 of the display panel 100. The common electrode pad 550 is electrically connected to the cathode 124 through a second contact hole 560a, a third contact hole 560b, a fourth contact hole 560c, and a fifth contact hole 560d, wherein the second electrode The third, fourth, and fifth contact holes 560a-560d are disposed adjacent to the first side of the common electrode pad 550.

該共同電極襯墊550包括一個別實質與該第一與第二TFT 110與130之閘極電極111、131相同的材料。該共同電極襯墊550可額外與該第一及第二TFT 110及130之閘極電極111、131相同的層次中形成。The common electrode pad 550 includes a material substantially identical to the gate electrodes 111, 131 of the first and second TFTs 110 and 130. The common electrode pad 550 can be additionally formed in the same level as the gate electrodes 111, 131 of the first and second TFTs 110 and 130.

該第二接觸孔560a、第三接觸孔560b、第四接觸孔560c、以及第五接觸孔560d，藉由移除該第一絕緣中間層160的一部位與該第二絕緣中間層170的一部位來形成，該等部位對應至該共同電極襯墊550之第一端部位。該共同電極襯墊550之第一端部位會暴露遍及該第二接觸孔560a、第三接觸孔560b、第四接觸孔560c以及第五接觸孔560d。該陰極124因此透過該等接觸孔560a、560b、560c、以及560d，於該共同電極襯墊550之第一端部位中形成。The second contact hole 560a, the third contact hole 560b, the fourth contact hole 560c, and the fifth contact hole 560d are removed from a portion of the first insulating interlayer 160 and the second insulating interlayer 170. Portions are formed that correspond to the first end portions of the common electrode pad 550. The first end portion of the common electrode pad 550 is exposed throughout the second contact hole 560a, the third contact hole 560b, the fourth contact hole 560c, and the fifth contact hole 560d. The cathode 124 is thus formed through the contact holes 560a, 560b, 560c, and 560d in the first end portion of the common electrode pad 550.

一第六接觸孔570藉由移除對應該共同電極襯墊550之第二端部位的第一絕緣中間層160的一部位與該第二絕緣中間層170的一部位，於每一該共同電極襯墊550中形成。該共同電極襯墊550之第二端部位可放置於該第二可撓印刷電路板500與該等閘極TCP 330之下。亦即，該第二可撓印刷電路板500與該等閘極TCP 330之側面會與該共同電極襯墊550之第二端部位重疊。該共同電極襯墊550之第二端部位會暴露遍及該第六接觸孔570。一示範實施例中，一共同電極襯墊鈍化層580藉由疊於該第六接觸孔570上，於該共同電極襯墊550之第二端部位上形成。該共同電極襯墊鈍化層580包括實質與第2圖中有機EL二極體120之陽極122相同的ITO或IZO。此外，該共同電極襯墊鈍化層580可與該陽極122相同之層次中形成。a sixth contact hole 570 by removing a portion of the first insulating interlayer 160 corresponding to the second end portion of the common electrode pad 550 and a portion of the second insulating interlayer 170, each of the common electrodes Formed in the liner 550. The second end portion of the common electrode pad 550 can be placed under the second flexible printed circuit board 500 and the gates TCP 330. That is, the sides of the second flexible printed circuit board 500 and the gates TCP 330 overlap with the second end portions of the common electrode pads 550. The second end portion of the common electrode pad 550 is exposed throughout the sixth contact hole 570. In an exemplary embodiment, a common electrode pad passivation layer 580 is formed on the second end portion of the common electrode pad 550 by being stacked on the sixth contact hole 570. The common electrode pad passivation layer 580 includes ITO or IZO which is substantially the same as the anode 122 of the organic EL diode 120 in FIG. Additionally, the common electrode pad passivation layer 580 can be formed in the same level as the anode 122.

該第二可撓印刷電路板500包括一第二基礎薄膜510與至少一共同電壓供應線520。每一第二可撓印刷電路板500透過一ACF 590電氣連接至該等共同電極襯墊550其中之一的第二端部位。The second flexible printed circuit board 500 includes a second base film 510 and at least one common voltage supply line 520. Each of the second flexible printed circuit boards 500 is electrically connected to a second end portion of one of the common electrode pads 550 through an ACF 590.

亦即，每一第二可撓印刷電路板500透過該共同電壓供應線520、共同電極襯墊鈍化層580、與ACF 590，電氣連接至該等共同電極襯墊550其中之一的第二端部位。That is, each second flexible printed circuit board 500 is electrically connected to the second end of one of the common electrode pads 550 through the common voltage supply line 520, the common electrode pad passivation layer 580, and the ACF 590. Part.

因此，來自該閘極印刷電路板320之共同電壓Vcom透過該第二可撓印刷電路板500，施加至該等共同電極襯墊550之第二端部位。施加至該等共同電極襯墊550之共同電壓Vcom，可施加至透過該等接觸孔560而電氣連接至該等共同電極襯墊550之第一端部位的陰極124。此外，來自該閘極印刷電路板320之共同電壓Vcom可類似透過設置於該等閘極TCP 330之共同電壓供應線340，通過至該顯示器面板100。Therefore, the common voltage Vcom from the gate printed circuit board 320 is applied to the second end portions of the common electrode pads 550 through the second flexible printed circuit board 500. A common voltage Vcom applied to the common electrode pads 550 can be applied to the cathodes 124 that are electrically connected to the first end portions of the common electrode pads 550 through the contact holes 560. In addition, the common voltage Vcom from the gate printed circuit board 320 can be similar to the display panel 100 through a common voltage supply line 340 disposed on the gates TCP 330.

一實施例中，多個第六接觸孔570與多個共同電極襯墊鈍化層580於該等閘極TCP 330之共同電壓供應線340與該等共同電極襯墊550之間形成，藉此該等閘極TCP 330之共同電壓供應線340可以類似將該等第二可撓印刷電路板500電氣連接至該等共同電極襯墊550之方式，電氣連接至該等共同電極襯墊550。In one embodiment, a plurality of sixth contact holes 570 and a plurality of common electrode pad passivation layers 580 are formed between the common voltage supply lines 340 of the gates TCP 330 and the common electrode pads 550, whereby the The common voltage supply line 340 of the equal gate TCP 330 can be electrically connected to the common electrode pads 550 in a manner similar to electrically connecting the second flexible printed circuit boards 500 to the common electrode pads 550.

如上所述，與一不具有至少一該等第一可撓印刷電路板400之OLED相比較，包括至少一該等第一可撓印刷電路板400之OLED，藉此由施加至該顯示器面板100之電源電壓Vdd形成的電流總量會增加。As described above, an OLED including at least one of the first flexible printed circuit boards 400 is compared to an OLED that does not have at least one of the first flexible printed circuit boards 400, thereby being applied to the display panel 100 The total amount of current formed by the power supply voltage Vdd increases.

同樣地，與一不具有至少一該等第二可撓印刷電路板500之OLED相比較，包括至少一該等第二可撓印刷電路板500之OLED，藉此由施加至該顯示器面板100之共同電壓Vcom形成的電流總量會增加。Similarly, an OLED including at least one of the second flexible printed circuit boards 500 is compared to an OLED having no at least one of the second flexible printed circuit boards 500, thereby being applied to the display panel 100. The total amount of current formed by the common voltage Vcom increases.

再者，該等共同電極襯墊550可包括一個別實質與該第一或第二TFT 110或130之汲極電極114、134或源極電極113、133的材料相同之材料，諸如一金屬。此外，該等共同電極襯墊550可與該汲極電極114、134及/或源極電極113、133相同之層次來形成。Furthermore, the common electrode pads 550 may comprise a material substantially identical to the material of the drain electrodes 114, 134 or the source electrodes 113, 133 of the first or second TFT 110 or 130, such as a metal. Further, the common electrode pads 550 may be formed in the same level as the gate electrodes 114, 134 and/or the source electrodes 113, 133.

第6圖是一顯示一OLED之另一示範實施例的平面圖。Figure 6 is a plan view showing another exemplary embodiment of an OLED.

參照第6圖，該OLED包括一顯示器面板100、一資料驅動部分200、一閘極驅動部分300、一第一電壓供應印刷電路板700、以及一第二電壓供應印刷電路板800。Referring to FIG. 6, the OLED includes a display panel 100, a data driving portion 200, a gate driving portion 300, a first voltage supply printed circuit board 700, and a second voltage supply printed circuit board 800.

該顯示器面板100包括一顯示器區域DA、與該顯示器區域DA之第一側相鄰之一第一週邊區域PA1、與該顯示器區域DA之第二側相鄰並與該第一週邊區域PA1之一側相鄰的一第二週邊區域PA2、與該顯示器區域DA之第三側相鄰並與該第一週邊區域PA1之另一側相鄰的一第三週邊區域PA3、以及與該顯示器區域DA之第四側相鄰之一第四週邊區域PA4。該顯示器區域DA之第一與第四側可實質彼此平行，而該顯示器區域DA之第二與第三側可實質彼此平行。該第四週邊區域PA4介於該第二與第三週邊區域PA2與PA3間。該第三週邊區域PA3實質與該第二週邊區域PA2平行。同樣地，該第四週邊區域PA4實質與該第一週邊區域PA1平行。The display panel 100 includes a display area DA, a first peripheral area PA1 adjacent to a first side of the display area DA, and a second side adjacent to the display area DA and one of the first peripheral areas PA1 a second peripheral area PA2 adjacent to the side, a third peripheral area PA3 adjacent to the third side of the display area DA and adjacent to the other side of the first peripheral area PA1, and the display area DA The fourth side is adjacent to one of the fourth peripheral areas PA4. The first and fourth sides of the display area DA may be substantially parallel to each other, and the second and third sides of the display area DA may be substantially parallel to each other. The fourth peripheral area PA4 is interposed between the second and third peripheral areas PA2 and PA3. The third peripheral area PA3 is substantially parallel to the second peripheral area PA2. Similarly, the fourth peripheral area PA4 is substantially parallel to the first peripheral area PA1.

該顯示器面板100、資料驅動部分200、閘極驅動部分300皆與先前之實施例中相同。因此，如先前實施例中所述，相同參考數字將用於表示相同或類似部分並將省略其進一步解釋。The display panel 100, the data driving portion 200, and the gate driving portion 300 are the same as in the previous embodiment. Therefore, as described in the previous embodiments, the same reference numerals will be used to refer to the same or similar parts and further explanation will be omitted.

該第一電壓供應印刷電路板700受安排來與該第三週邊區域PA3及該顯示器區域DA之第三側相鄰，並可與該第三週邊區域PA3分離。該第一電壓供應印刷電路板700可於實質與該顯示器區域DA之第三側平行並分離的方向作縱向延伸。該第一電壓供應印刷電路板700透過該第三週邊區域PA3，施加一電源電壓Vdd至該顯示器面板100。該第一電壓供應印刷電路板700透過實質與該顯示器區域DA之第三側平行並分離的方向作縱向延伸之一第一可撓印刷電路板710，電氣連接至該顯示器面板100。The first voltage supply printed circuit board 700 is arranged adjacent to the third peripheral area PA3 and the third side of the display area DA, and is separable from the third peripheral area PA3. The first voltage supply printed circuit board 700 can extend longitudinally in a direction substantially parallel and separate from the third side of the display area DA. The first voltage supply printed circuit board 700 transmits a power voltage Vdd to the display panel 100 through the third peripheral area PA3. The first voltage supply printed circuit board 700 is electrically connected to the display panel 100 by a first flexible printed circuit board 710 extending longitudinally in a direction substantially parallel to and separated from the third side of the display area DA.

該第一可撓印刷電路板710之第一端部位後附於該第三週邊區域PA3，而該第一可撓印刷電路板710之第二端部位後附於該第一電壓供應印刷電路板700。因此，該第一可撓印刷電路板710施加來自該第一電壓供應印刷電路板700之電源電壓Vdd至該顯示器面板100。The first end portion of the first flexible printed circuit board 710 is attached to the third peripheral area PA3, and the second end portion of the first flexible printed circuit board 710 is attached to the first voltage supply printed circuit board. 700. Therefore, the first flexible printed circuit board 710 applies the power supply voltage Vdd from the first voltage supply printed circuit board 700 to the display panel 100.

另外，該第一可撓印刷電路板710與該第三週邊區域PA3接觸。介於該第一可撓印刷電路板710與該第三週邊區域PA3之一接觸長度，可實質受安排來與該第三週邊區域PA3相鄰之顯示器區域DA的第三側面長度相同。In addition, the first flexible printed circuit board 710 is in contact with the third peripheral area PA3. The contact length between the first flexible printed circuit board 710 and the third peripheral area PA3 may be substantially the same as the third side length of the display area DA adjacent to the third peripheral area PA3.

一示範實施例中，該第一可撓印刷電路板710可包括多個電源電壓供應線，或反而可只包括一電源電壓供應線。當該第一可撓印刷電路板710只具有一電源電壓供應線時，該電源電壓供應線之寬度會較該OLED中之每一其他電源電壓供應線的寬度寬，諸如設置於該資料TCP 230之電源電壓供應線240。或者，設置於該第一可撓印刷電路板710中之電源電壓供應線的寬度可實質等於設置於該資料TCP 230之電源電壓供應線寬度之總和。因此，由透過該第一可撓印刷電路板710與該資料TCP 230兩者，施加至該顯示器面板100之電源電壓Vdd形成的電流總量，會大於由單獨透過該資料TCP 230施加至該顯示器面板100之電源電壓Vdd的電流總量。In an exemplary embodiment, the first flexible printed circuit board 710 may include a plurality of power supply voltage supply lines, or instead may include only one power supply voltage supply line. When the first flexible printed circuit board 710 has only one power supply voltage supply line, the width of the power supply voltage supply line is wider than the width of each of the other power supply voltage supply lines in the OLED, such as the data TCP 230. The power supply voltage supply line 240. Alternatively, the width of the power supply voltage supply line disposed in the first flexible printed circuit board 710 may be substantially equal to the sum of the power supply voltage supply line widths of the data TCP 230. Therefore, the total amount of current formed by the power supply voltage Vdd applied to the display panel 100 through both the first flexible printed circuit board 710 and the data TCP 230 may be greater than the amount of current applied to the display by the data TCP 230 alone. The total amount of current of the power supply voltage Vdd of the panel 100.

該第二電壓供應印刷電路板800受安排來與該第四週邊區域PA4及該顯示器區域DA之第四側相鄰，並可與該第四週邊區域PA4分離。該第二電壓供應印刷電路板800可於實質與該顯示器區域DA之第四側平行並分離的方向作縱向延伸。該第二電壓供應印刷電路板800透過該第四週邊區域PA4，施加一共同電壓Vcom至該顯示器面板100。該第二電壓供應印刷電路板800透過實質與該顯示器區域DA之第四側平行並分離的方向作縱向延伸之一第二可撓印刷電路板810，電氣連接至該顯示器面板100。The second voltage supply printed circuit board 800 is arranged adjacent to the fourth peripheral area PA4 and the fourth side of the display area DA and is separable from the fourth peripheral area PA4. The second voltage supply printed circuit board 800 can extend longitudinally in a direction substantially parallel and separate from the fourth side of the display area DA. The second voltage supply printed circuit board 800 transmits a common voltage Vcom to the display panel 100 through the fourth peripheral area PA4. The second voltage supply printed circuit board 800 is electrically connected to the display panel 100 through a second flexible printed circuit board 810 extending longitudinally in a direction substantially parallel to and separated from the fourth side of the display area DA.

該第二可撓印刷電路板810之第一端部位後附於該第四週邊區域PA4，而該第二可撓印刷電路板810之第二端部位後附於該第二電壓供應印刷電路板800。因此，該第二可撓印刷電路板810施加來自該第二電壓供應印刷電路板800之共同電壓Vcom至該顯示器面板100。The first end portion of the second flexible printed circuit board 810 is attached to the fourth peripheral area PA4, and the second end portion of the second flexible printed circuit board 810 is attached to the second voltage supply printed circuit board. 800. Therefore, the second flexible printed circuit board 810 applies a common voltage Vcom from the second voltage supply printed circuit board 800 to the display panel 100.

該第二可撓印刷電路板810亦可與該第四週邊區域PA4接觸。介於該第二可撓印刷電路板810與該第四週邊區域PA4之一接觸長度，可實質受安排來與該第四週邊區域PA4相鄰之顯示器區域DA的第四側面長度相同。The second flexible printed circuit board 810 can also be in contact with the fourth peripheral area PA4. A length of contact between the second flexible printed circuit board 810 and one of the fourth peripheral regions PA4 may be substantially the same as the fourth side length of the display area DA adjacent to the fourth peripheral area PA4.

一示範實施例中，該第二可撓印刷電路板810可包括多個共同電壓供應線，或反而可只包括一共同電壓供應線。當該第二可撓印刷電路板810只具有一共同電壓供應線時，該第二可撓印刷電路板810中之共同電壓供應線的寬度會較該OLED中之每一其他共同電壓供應線的寬度寬，諸如設置於該閘極TCP 330之共同電壓供應線340。或者，該第二可撓印刷電路板810中之共同電壓供應線的寬度可實質等於該閘極TCP 330之共同電壓供應線寬度之總和。因此，由透過該第二可撓印刷電路板810與該閘極TCP 330兩者，施加至該顯示器面板100之共同電壓Vcom形成的電流總量，會大於由單獨透過該閘極TCP 330施加至該顯示器面板100之共同電壓Vcom的電流總量。In an exemplary embodiment, the second flexible printed circuit board 810 can include a plurality of common voltage supply lines, or instead can include only a common voltage supply line. When the second flexible printed circuit board 810 has only a common voltage supply line, the width of the common voltage supply line in the second flexible printed circuit board 810 is greater than the width of each of the other common voltage supply lines in the OLED. The width is wide, such as a common voltage supply line 340 disposed at the gate TCP 330. Alternatively, the width of the common voltage supply line in the second flexible printed circuit board 810 may be substantially equal to the sum of the common voltage supply line widths of the gates TCP 330. Therefore, the total amount of current formed by the common voltage Vcom applied to the display panel 100 through both the second flexible printed circuit board 810 and the gate TCP 330 may be greater than the total amount of current applied through the gate TCP 330 alone. The total amount of current of the common voltage Vcom of the display panel 100.

第7圖是一顯示第6圖之顯示器面板100的一示範第三週邊區域PA3與一示範第四週邊區域PA4之平面圖。Figure 7 is a plan view showing an exemplary third peripheral area PA3 and an exemplary fourth peripheral area PA4 of the display panel 100 of Figure 6.

參照第7圖，多個電源電壓電極襯墊720位於該顯示器面板100之第三週邊區域PA3上，藉此來自該第一可撓印刷電路板710之電源電壓Vdd，會施加至第2圖之第二TFT 130的第二源極電極133。一示範實施例中，該電源電壓電極襯墊720電氣連接至該電源電壓線，藉此該電源電壓Vdd透過該電源電壓線，施加至該第二TFT 130之第二源極電極133。Referring to FIG. 7, a plurality of power supply voltage electrode pads 720 are located on the third peripheral area PA3 of the display panel 100, whereby the power supply voltage Vdd from the first flexible printed circuit board 710 is applied to the second figure. The second source electrode 133 of the second TFT 130. In an exemplary embodiment, the power supply voltage electrode pad 720 is electrically connected to the power supply voltage line, whereby the power supply voltage Vdd is applied to the second source electrode 133 of the second TFT 130 through the power supply voltage line.

再者，有機EL二極體120之多個陽極122(第2圖)，透過電源電壓線與諸如金屬線之一線路來彼此電氣連接，其將該等電源電壓線彼此電氣連接。於是，來自該電源電壓電極襯墊720之電源電壓Vdd會施加至該第二TFT 130之第二源極電極133(第2圖)。Further, a plurality of anodes 122 (Fig. 2) of the organic EL diode 120 are electrically connected to each other through a power supply voltage line and a line such as a metal line, which electrically connect the power supply voltage lines to each other. Then, the power supply voltage Vdd from the power supply voltage electrode pad 720 is applied to the second source electrode 133 of the second TFT 130 (Fig. 2).

該第一可撓印刷電路板710透過一ACF，電氣連接至該等電源電壓電極襯墊720。亦即，具有多個傳導球、設於該ACF之樹脂的ACF會放置於該第一可撓印刷電路板710之下，藉此該第一可撓印刷電路板710透過該傳導球，電氣連接至該等電源電壓電極襯墊720。The first flexible printed circuit board 710 is electrically connected to the power supply voltage electrode pads 720 through an ACF. That is, an ACF having a plurality of conductive balls and a resin disposed on the ACF is placed under the first flexible printed circuit board 710, whereby the first flexible printed circuit board 710 is electrically connected through the conductive ball. To the supply voltage electrode pads 720.

因此，來自該第一電壓供應印刷電路板700之電源電壓Vdd會透過該等電源電壓電極襯墊720，施加至該第二TFT 130之第二源極電極133。Therefore, the power supply voltage Vdd from the first voltage supply printed circuit board 700 is applied to the second source electrode 133 of the second TFT 130 through the power supply voltage electrode pads 720.

一共同電壓電極襯墊850位於該顯示器面板100之第四週邊區域PA4上，藉此該共同電壓Vcom會施加至該有機EL二極體120之陰極124。一示範實施例中，該共同電壓電極襯墊850透過一接觸孔860，電氣連接至該陰極124。A common voltage electrode pad 850 is located on the fourth peripheral area PA4 of the display panel 100, whereby the common voltage Vcom is applied to the cathode 124 of the organic EL diode 120. In an exemplary embodiment, the common voltage electrode pad 850 is electrically coupled to the cathode 124 through a contact hole 860.

該接觸孔860之長度會實質受安排來與該第四週邊區域PA4相鄰之陰極124的側面長度相同。亦即，由於該接觸孔860之長度增加，則介於該陰極124與該共同電壓電極襯墊850間之一接觸區域會增加。因此，當該陰極124與該共同電壓電極襯墊850間之接觸區域增加時，介於該陰極124與該共同電壓電極襯墊850間之接觸電阻會減少，藉此由施加至該顯示器面板100之共同電壓形成的電流總量會增加。The length of the contact hole 860 is substantially the same as the length of the side of the cathode 124 adjacent to the fourth peripheral area PA4. That is, as the length of the contact hole 860 increases, a contact area between the cathode 124 and the common voltage electrode pad 850 increases. Therefore, when the contact area between the cathode 124 and the common voltage electrode pad 850 is increased, the contact resistance between the cathode 124 and the common voltage electrode pad 850 is reduced, thereby being applied to the display panel 100. The total amount of current formed by the common voltage will increase.

一示範實施例中，該第一可撓印刷電路板710施加該電源電壓Vdd至該顯示器面板100。或者，該共同電壓Vcom可透過該第一可撓印刷電路板710施加至該顯示器面板100。In an exemplary embodiment, the first flexible printed circuit board 710 applies the power supply voltage Vdd to the display panel 100. Alternatively, the common voltage Vcom can be applied to the display panel 100 through the first flexible printed circuit board 710.

該第二可撓印刷電路板810施加該共同電壓Vcom至該顯示器面板100。或者，該電源電壓Vdd可透過該第二可撓印刷電路板810施加至該顯示器面板100。The second flexible printed circuit board 810 applies the common voltage Vcom to the display panel 100. Alternatively, the power voltage Vdd can be applied to the display panel 100 through the second flexible printed circuit board 810.

一示範實施例中，由於實質延伸與沿著該顯示器區域DA第四側之陰極124的長度相同的長度之接觸孔860，介於該陰極124與該共同電壓電極襯墊850間之接觸區域會增加。或者，或額外地，藉由增加放置之接觸孔大小以接觸該第一可撓印刷電路板710之電源電壓電極襯墊720，介於該電源電壓電極襯墊720與該第一可撓印刷電路板710間之一接觸區域可增加。In an exemplary embodiment, the contact area between the cathode 124 and the common voltage electrode pad 850 will be due to the contact hole 860 extending substantially the same length as the length of the cathode 124 on the fourth side of the display area DA. increase. Alternatively, or additionally, by adding a contact hole size to contact the power supply voltage electrode pad 720 of the first flexible printed circuit board 710, between the power supply voltage electrode pad 720 and the first flexible printed circuit One of the contact areas between the plates 710 can be increased.

該OLED可進一步包括一或更多可撓印刷電路板，諸如放置於該等資料TCP 230之間及/或該等閘極TCP 330之間的第一與第二可撓印刷電路板400、500，藉此由施加至該顯示器面板100之電源電壓Vdd或共同電壓Vcom形成的電流總量會增加。The OLED can further include one or more flexible printed circuit boards, such as first and second flexible printed circuit boards 400, 500 placed between the data TCPs 230 and/or between the gates TCP 330 Thereby, the total amount of current formed by the power supply voltage Vdd or the common voltage Vcom applied to the display panel 100 is increased.

一示範實施例中，該電源電壓Vdd與該共同電壓Vcom個別透過該第一與第二可撓印刷電路板710、810，施加至該顯示器面板100。或者，該電源電壓Vdd與該共同電壓Vcom可只透過該第一可撓印刷電路板710施加至該顯示器面板100。反倒是，或除此之外，該電源電壓Vdd與該共同電壓Vcom可透過該第二可撓印刷電路板810施加至該顯示器面板100。In an exemplary embodiment, the power supply voltage Vdd and the common voltage Vcom are individually applied to the display panel 100 through the first and second flexible printed circuit boards 710, 810. Alternatively, the power voltage Vdd and the common voltage Vcom may be applied to the display panel 100 only through the first flexible printed circuit board 710. Alternatively, or in addition, the supply voltage Vdd and the common voltage Vcom can be applied to the display panel 100 through the second flexible printed circuit board 810.

第8圖是一OLED之另一示範實施例的平面圖。Figure 8 is a plan view of another exemplary embodiment of an OLED.

參照第8圖，該OLED包括一顯示器面板100、一資料驅動部分900、一閘極驅動部分1000、一第一電壓供應印刷電路板700、以及一第二電壓供應印刷電路板800。Referring to FIG. 8, the OLED includes a display panel 100, a data driving portion 900, a gate driving portion 1000, a first voltage supply printed circuit board 700, and a second voltage supply printed circuit board 800.

如上所述，該第一電壓供應印刷電路板700透過一第一可撓印刷電路板710，電氣連接至該顯示器面板100。該第二電壓供應印刷電路板800透過一第二可撓印刷電路板810，電氣連接至該顯示器面板100。As described above, the first voltage supply printed circuit board 700 is electrically connected to the display panel 100 through a first flexible printed circuit board 710. The second voltage supply printed circuit board 800 is electrically connected to the display panel 100 through a second flexible printed circuit board 810.

第8圖之第一與第二可撓印刷電路板700與800，以及第一與第二可撓印刷電路板710與810，與第6圖及第7圖的相同。因此，如第6圖與第7圖中所述，相同參考數字將用於表示相同或類似部分，而任何進一步有關上述元件之解釋將省略。The first and second flexible printed circuit boards 700 and 800 of Fig. 8, and the first and second flexible printed circuit boards 710 and 810 are the same as those of Figs. 6 and 7. Therefore, the same reference numerals will be used to refer to the same or similar parts, as described in the sixth and seventh drawings, and any further explanation about the above elements will be omitted.

該顯示器面板100包括一顯示器區域DA、一第一週邊區域PA1、一第二週邊區域PA2、一第三週邊區域PA3、以及一第四週邊區域PA4。The display panel 100 includes a display area DA, a first peripheral area PA1, a second peripheral area PA2, a third peripheral area PA3, and a fourth peripheral area PA4.

多個資料線DL與多個閘極線GL於該顯示器面板100之顯示器區域DA中形成，其中只繪示一示範資料線DL與一示範閘極線GL以便清晰呈現。該等閘極線GL藉由於一實質與該等閘極線GL垂直的方向延伸，來與該等資料線DL交叉。該等閘極線GL可藉由一置於其間之絕緣層，與該等資料線DL絕緣。一像素區域於一矩陣形狀中定義，該矩陣形狀位於由彼此相鄰之一對資料線DL與彼此相鄰之一對閘極線GL定義之區域中。A plurality of data lines DL and a plurality of gate lines GL are formed in the display area DA of the display panel 100, wherein only an exemplary data line DL and an exemplary gate line GL are shown for clear presentation. The gate lines GL intersect with the data lines DL by extending in a direction substantially perpendicular to the gate lines GL. The gate lines GL may be insulated from the data lines DL by an insulating layer interposed therebetween. A pixel region is defined in a matrix shape located in a region defined by one of the adjacent pairs of data lines DL and one of the adjacent gate lines GL adjacent to each other.

一有機發光元件位於該像素區域中。該有機發光元件包括一第一TFT 110、一儲存電容器Cst、一有機EL二極體120、以及一第二TFT 130。第8圖之有機發光元件與該習知實施例相同。因此，如先前敘述與繪示，相同參考數字將用於表示相同或類似部分，而任何進一步有關上述元件之解釋將省略。An organic light emitting element is located in the pixel area. The organic light emitting device includes a first TFT 110, a storage capacitor Cst, an organic EL diode 120, and a second TFT 130. The organic light-emitting element of Fig. 8 is the same as the conventional embodiment. Therefore, the same reference numerals will be used to refer to the same or similar parts, and any further explanation relating to the above elements will be omitted.

該資料驅動部分900包括一資料驅動晶片910與一資料印刷電路板920。該資料驅動晶片910安裝於該第一週邊區域PA1上作為一晶片形狀。該資料印刷電路板920之一末端部位後附於該顯示器面板100的一末端部位，該顯示器面板100透過一ACF與該第一週邊區域PA1相鄰。該資料驅動晶片910於該顯示器區域DA電氣連接至該等資料線DL。該資料驅動晶片910從該資料印刷電路板920接收一影像信號，並基於該影像信號施加一第一驅動信號至該等資料線DL。The data driving portion 900 includes a data driving chip 910 and a data printed circuit board 920. The data driving wafer 910 is mounted on the first peripheral area PA1 as a wafer shape. One end portion of the data printed circuit board 920 is attached to an end portion of the display panel 100, and the display panel 100 is adjacent to the first peripheral area PA1 through an ACF. The data driving chip 910 is electrically connected to the data lines DL at the display area DA. The data driving chip 910 receives an image signal from the data printed circuit board 920, and applies a first driving signal to the data lines DL based on the image signal.

該閘極驅動部分1000由與該顯示器面板100之第一與第二TFT 110與130相同之層次來形成。該閘極驅動部分1000位於該第二週邊區域PA2上，並可完全於該第二週邊區域PA2中形成。該閘極驅動部分1000於該顯示器區域DA中電氣連接至該等閘極線GL。此示範實施例中，該閘極驅動部分1000施加一第二驅動信號至該等閘極線GL。The gate driving portion 1000 is formed by the same level as the first and second TFTs 110 and 130 of the display panel 100. The gate driving portion 1000 is located on the second peripheral area PA2 and may be formed entirely in the second peripheral area PA2. The gate driving portion 1000 is electrically connected to the gate lines GL in the display area DA. In the exemplary embodiment, the gate driving portion 1000 applies a second driving signal to the gate lines GL.

一示範實施例中，該資料驅動晶片910即為該種晶片。或者，施加該第二驅動信號至該等閘極線GL之一資料驅動部分(未顯示)，可由與該顯示器面板100之第一與第二TFT 110與130相同之層次來形成。該類資料驅動部分可位於該第一週邊區域PA1上，並以與該閘極驅動部分1000類似之方式來安排。In an exemplary embodiment, the data drive wafer 910 is the wafer. Alternatively, applying the second driving signal to one of the gate driving lines GL (not shown) may be formed by the same level as the first and second TFTs 110 and 130 of the display panel 100. Such a data driving portion may be located on the first peripheral area PA1 and arranged in a similar manner to the gate driving portion 1000.

根據一示範實施例，一電源電壓Vdd透過該第一可撓印刷電路板710施加至該顯示器面板100，藉此施加至該顯示器面板100之電源電壓Vdd的總量會增加。一共同電壓Vcom透過該第二可撓印刷電路板810施加至該顯示器面板100，藉此施加至該顯示器面板100之共同電壓Vcom的總量會增加。According to an exemplary embodiment, a power supply voltage Vdd is applied to the display panel 100 through the first flexible printed circuit board 710, whereby the total amount of the power supply voltage Vdd applied to the display panel 100 is increased. A common voltage Vcom is applied to the display panel 100 through the second flexible printed circuit board 810, whereby the total amount of the common voltage Vcom applied to the display panel 100 is increased.

根據本發明，該等可撓印刷電路板可放置於該等資料TCP或該等閘極TCP之間。或者，該可撓印刷電路板在無該等資料TCP或該等閘極TCP下，可後附於該顯示器面板之一週邊區域。該等資料與閘極TCP作為組配來將該等電路板電氣連接至該顯示器面板之信號傳輸構件，以傳送驅動信號與電壓至該顯示器面板。該等可撓印刷電路板作為組配來傳送電壓至該顯示器面板之電壓傳輸構件。In accordance with the present invention, the flexible printed circuit boards can be placed between the data TCP or the gates TCP. Alternatively, the flexible printed circuit board can be attached to a peripheral area of one of the display panels without such data TCP or the gate TCP. The data is coupled to the gate TCP to electrically connect the boards to signal transmission members of the display panel to transmit drive signals and voltages to the display panel. The flexible printed circuit boards act as voltage transfer members that are configured to deliver voltage to the display panel.

因此，該等電源電壓Vdd或共同電壓Vcom透過該等TCP或可撓印刷電路板，施加至該顯示器面板，藉此施加至該有機發光元件之電流總量會增加。Therefore, the power supply voltage Vdd or the common voltage Vcom is applied to the display panel through the TCP or flexible printed circuit board, whereby the total amount of current applied to the organic light emitting element increases.

介於與該可撓印刷電路板相關之電極襯墊，以及該有機電極螢光元件之陰極間的接觸孔之大小會增加。亦即，介於與該可撓印刷電路板相關之電極襯墊，以及該有機電極螢光元件之陰極間的接觸區域之大小會增加，藉此施加至該有機電極螢光元件之驅動電流總量會增加。The size of the contact pads between the electrode pads associated with the flexible printed circuit board and the cathode of the organic electrode phosphor element may increase. That is, the size of the contact area between the electrode pad associated with the flexible printed circuit board and the cathode of the organic electrode phosphor element is increased, whereby the total drive current applied to the organic electrode phosphor element is increased. The amount will increase.

雖然已敘述本發明之示範實施例，需了解本發明不應侷限於該等示範實施例，但在如下所請求的本發明之精神與範疇下，業界之熟於此技者可作各種改變與修改。再者，使用該等術語第一、第二、等等並不代表任何次序或重要性，而是該等術語第一、第二、等等用來區分一元件與另一元件。此外，使用術語某一、任一、等等並不代表數量之限制，而是代表至少存在一該參考項目。While the exemplary embodiments of the present invention have been described, it is understood that the invention should not be construed as limited to the exemplary embodiments. modify. Further, the use of the terms first, second, etc. does not denote any order or importance, and the terms first, second, etc. are used to distinguish one element from another. Moreover, the use of the terms a, any, etc. does not denote a limitation of quantity, but rather that there is at least one reference item.

100．．．顯示器面板100. . . Display panel

110．．．第一薄膜電晶體110. . . First thin film transistor

111．．．第一閘極電極111. . . First gate electrode

112．．．第一蝕刻停止型樣112. . . First etch stop pattern

113．．．第一源極電極113. . . First source electrode

114．．．第一汲極電極114. . . First drain electrode

115．．．第一非晶矽型樣115. . . First amorphous 矽 type

116．．．第一n^＋ 非晶矽型樣116. . . First n ⁺ amorphous 矽 type

117．．．第二n^＋ 非晶矽型樣117. . . Second n ⁺ amorphous 矽 type

120．．．有機發光二極體120. . . Organic light-emitting diode

121．．．連接電極121. . . Connecting electrode

122．．．陽極122. . . anode

123．．．冷光層123. . . Cold light layer

124．．．陰極124. . . cathode

130．．．第二薄膜電晶體130. . . Second thin film transistor

131．．．第二閘極電極131. . . Second gate electrode

132．．．第二蝕刻停止型樣132. . . Second etch stop pattern

133．．．第二源極電極133. . . Second source electrode

134．．．第二汲極電極134. . . Second drain electrode

135．．．第二非晶矽型樣135. . . Second amorphous 矽 type

136．．．第三n^＋ 非晶矽型樣136. . . Third n ⁺ amorphous 矽 type

137．．．第四n^＋ 非晶矽型樣137. . . Fourth n ⁺ amorphous 矽 type

140．．．絕緣層140. . . Insulation

150．．．第一電極150. . . First electrode

151．．．第二電極151. . . Second electrode

160．．．第一絕緣中間層160. . . First insulating interlayer

170．．．第二絕緣中間層170. . . Second insulating interlayer

200、900．．．資料驅動部分200, 900. . . Data driven part

210、910．．．資料驅動晶片210, 910. . . Data driven chip

220、920．．．資料印刷電路板220, 920. . . Data printed circuit board

230．．．資料膠帶承載封裝230. . . Data tape carrier package

240、420．．．電源電壓供應線240, 420. . . Power supply voltage supply line

250．．．襯墊鈍化層250. . . Pad passivation layer

260、720．．．電源電壓電極襯墊260, 720. . . Power supply voltage electrode pad

280．．．第一接觸孔280. . . First contact hole

300、1000．．．閘極驅動部分300, 1000. . . Gate drive section

310．．．閘極驅動晶片310. . . Gate driver chip

320．．．閘極印刷電路板320. . . Gate printed circuit board

330．．．閘極膠帶承載封裝330. . . Gate tape carrier package

340、520．．．共同電壓供應線340, 520. . . Common voltage supply line

400、710．．．第一可撓印刷電路板400, 710. . . First flexible printed circuit board

410．．．第一基礎薄膜410. . . First base film

500、810．．．第二可撓印刷電路板500, 810. . . Second flexible printed circuit board

510．．．第二基礎薄膜510. . . Second base film

550．．．共同電極襯墊550. . . Common electrode pad

560a．．．第二接觸孔560a. . . Second contact hole

560b．．．第三接觸孔560b. . . Third contact hole

560c．．．第四接觸孔560c. . . Fourth contact hole

560d．．．第五接觸孔560d. . . Fifth contact hole

570．．．第六接觸孔570. . . Sixth contact hole

580．．．共同電極襯墊鈍化層580. . . Common electrode pad passivation layer

590、600．．．ACF590, 600. . . ACF

610．．．傳導球610. . . Conduction ball

700．．．第一電壓供應印刷電路板700. . . First voltage supply printed circuit board

800．．．第二電壓供應印刷電路板800. . . Second voltage supply printed circuit board

850．．．共同電壓電極襯墊850. . . Common voltage electrode pad

860．．．接觸孔860. . . Contact hole

第1圖是一有機發光顯示器裝置(“OLED”)之一示範實施例的平面圖；第2圖是第1圖所示之OLED的一橫截面圖；第3圖是第1圖中沿著線段I－I’之一橫截面圖；第4圖是一顯示第1圖之顯示器面板的一示範第二週邊區域之平面圖；第5圖是第4圖中沿著線段II－II’之一橫截面圖；第6圖是一顯示一OLED之另一示範實施例的平面圖；第7圖是一顯示第6圖之顯示器面板的一示範第三週邊區域與一示範第四週邊區域之平面圖；以及第8圖是一顯示一OLED之另一示範實施例的平面圖。1 is a plan view of an exemplary embodiment of an organic light emitting display device ("OLED"); FIG. 2 is a cross-sectional view of the OLED shown in FIG. 1; and FIG. 3 is a line along the line in FIG. A cross-sectional view of one of I-I'; FIG. 4 is a plan view showing an exemplary second peripheral area of the display panel of FIG. 1; and FIG. 5 is a cross-sectional view of one of the line segments II-II' in FIG. FIG. 6 is a plan view showing another exemplary embodiment of an OLED; FIG. 7 is a plan view showing an exemplary third peripheral region and an exemplary fourth peripheral region of the display panel of FIG. 6; Figure 8 is a plan view showing another exemplary embodiment of an OLED.

100．．．顯示器面板100. . . Display panel

110．．．第一薄膜電晶體110. . . First thin film transistor

120．．．有機發光二極體120. . . Organic light-emitting diode

130．．．第二薄膜電晶體130. . . Second thin film transistor

200．．．資料驅動部分200. . . Data driven part

210．．．資料驅動晶片210. . . Data driven chip

220．．．資料印刷電路板220. . . Data printed circuit board

230．．．資料膠帶承載封裝230. . . Data tape carrier package

240．．．電源電壓供應線240. . . Power supply voltage supply line

300．．．閘極驅動部分300. . . Gate drive section

310．．．閘極驅動晶片310. . . Gate driver chip

320．．．閘極印刷電路板320. . . Gate printed circuit board

330．．．閘極膠帶承載封裝330. . . Gate tape carrier package

340．．．共同電壓供應線340. . . Common voltage supply line

400．．．第一可撓印刷電路板400. . . First flexible printed circuit board

500．．．第二可撓印刷電路板500. . . Second flexible printed circuit board

Claims (29)

一種有機發光顯示器裝置，包含：具有一顯示器區域與多個週邊區域之一顯示器面板，該顯示器面板組配來於該顯示器區域中藉由一有機發光元件顯示一影像；安排成與該等週邊區域之一相鄰的一第一印刷電路板，該第一印刷電路板施加一第一驅動信號與一電壓至該顯示器面板；將該第一印刷電路板電氣連接至該顯示器面板之多個第一信號傳輸構件，以傳送該第一驅動信號與該電壓至該顯示器面板；以及傳送該電壓至該顯示器面板之一第一電壓傳輸構件；其中該等多個週邊區域包含一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域，該第一印刷電路板係配置成與該第一週邊區域相鄰，而每一第一信號傳輸構件之一第一端部分位於該第一印刷電路板上，而每一第一信號傳輸構件之一第二端部分位於該第一週邊區域上，而該第一電壓傳輸構件是設置於一對相鄰之第一信號傳輸構件之間。 An organic light emitting display device comprising: a display panel having a display area and a plurality of peripheral areas, the display panel being assembled to display an image in the display area by an organic light emitting element; arranged in the peripheral area An adjacent one of the first printed circuit boards, the first printed circuit board applying a first driving signal and a voltage to the display panel; electrically connecting the first printed circuit board to the plurality of first of the display panels a signal transmission member for transmitting the first driving signal and the voltage to the display panel; and transmitting the voltage to one of the first voltage transmitting members of the display panel; wherein the plurality of peripheral regions comprise a first peripheral region, a second peripheral region, a third peripheral region, and a fourth peripheral region, the first printed circuit board being disposed adjacent to the first peripheral region, and the first end portion of each of the first signal transmission members Located on the first printed circuit board, and a second end portion of each of the first signal transmission members is located on the first peripheral area, and the first Voltage transmitting member is disposed between the first signal of a pair of adjacent transmission members. 如申請專利範圍第1項之有機發光顯示器裝置，其中施加至該顯示器面板之該電壓包含一電源電壓或一共同電壓。 The organic light emitting display device of claim 1, wherein the voltage applied to the display panel comprises a power supply voltage or a common voltage. 如申請專利範圍第1項之有機發光顯示器裝置，其中該 等第一信號傳輸構件是傳送閘極信號之薄膜，而其中施加至該顯示器面板之該電壓是一共同電壓。 An organic light emitting display device as claimed in claim 1, wherein the The first signal transmission member is a film that transmits a gate signal, and wherein the voltage applied to the display panel is a common voltage. 如申請專利範圍第1項之有機發光顯示器裝置，其中該等第一信號傳輸構件是傳送資料信號之薄膜，而施加至該顯示器面板之該電壓是一電源電壓。 The OLED display device of claim 1, wherein the first signal transmission member is a film that transmits a data signal, and the voltage applied to the display panel is a power supply voltage. 如申請專利範圍第1項之有機發光顯示器裝置，包含位於每一該等第一信號傳輸構件中之一電壓供應線，該電壓供應線施加該電壓至該顯示器面板。 An organic light emitting display device as claimed in claim 1, comprising a voltage supply line in each of the first signal transmission members, the voltage supply line applying the voltage to the display panel. 如申請專利範圍第1項之有機發光顯示器裝置，更包含：安排成與該第二週邊區域相鄰之一第二印刷電路板，該第二印刷電路板施加一第二驅動信號至該顯示器面板；彼此間相隔一第一距離之多個第二信號傳輸構件，該等第二信號傳輸構件將該第二印刷電路板電氣連接至該顯示器面板；以及施加電壓至該顯示器面板之一第二電壓傳輸構件。 The OLED device of claim 1, further comprising: a second printed circuit board disposed adjacent to the second peripheral area, the second printed circuit board applying a second driving signal to the display panel a plurality of second signal transmission members spaced apart from each other by a first distance, the second signal transmission members electrically connecting the second printed circuit board to the display panel; and applying a voltage to a second voltage of the display panel Transmission component. 如申請專利範圍第6項之有機發光顯示器裝置，具有一包括該第二電壓傳輸構件安置於一對相鄰之第二信號傳輸構件之間的配置。 An organic light emitting display device as claimed in claim 6 has a configuration including the second voltage transmitting member disposed between a pair of adjacent second signal transmitting members. 如申請專利範圍第6項之有機發光顯示器裝置，其中該有機發光元件包含：一切換元件；一電流控制元件；連接於該切換元件與該電流控制元件間之一儲存 電容器；以及一有機發光二極體，其具有電氣連接至該電流控制元件之一陽極、接收該電壓之一陰極、以及插置於該陽極與該陰極間之一有機發光層，其中該陰極與該第二電壓傳輸構件接觸，而該陰極與該第二電壓傳輸構件間之一接觸長度，實質與該顯示器區域和該第三週邊區域或該第四週邊區域相鄰之一側邊長度相同。 The organic light emitting display device of claim 6, wherein the organic light emitting device comprises: a switching element; a current control element; and is connected between the switching element and the current control element. a capacitor; and an organic light emitting diode having an anode electrically connected to the current control element, a cathode receiving the voltage, and an organic light emitting layer interposed between the anode and the cathode, wherein the cathode The second voltage transmitting member contacts, and a length of contact between the cathode and the second voltage transmitting member is substantially the same as a length of one side of the display region and the third peripheral region or the fourth peripheral region. 如申請專利範圍第8項之有機發光顯示器裝置，其中該第一印刷電路板包含一實質與該切換元件所用之材料相同的材料。 The OLED display device of claim 8, wherein the first printed circuit board comprises a material substantially the same as that used for the switching element. 如申請專利範圍第1項之有機發光顯示器裝置，其中該第一電壓傳輸構件是一可撓印刷電路板。 The organic light emitting display device of claim 1, wherein the first voltage transmitting member is a flexible printed circuit board. 如申請專利範圍第1項之有機發光顯示器裝置，其中該第一電壓傳輸構件並不傳送一驅動信號至該顯示器面板。 The OLED display device of claim 1, wherein the first voltage transmitting member does not transmit a driving signal to the display panel. 一種有機發光顯示器裝置，包含：一顯示器面板，其具有一顯示器區域、一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域，該等第一至第四週邊區域皆與該顯示器區域相鄰，該顯示器面板於該顯示器區域中藉由一有機發光元件顯示一影像；安排成與該等第一、第二、第三、與第四週邊區域其中之一相鄰的一第一印刷電路板，該第一印刷電路板 施加一第一驅動信號至該顯示器面板；以及位於該等第一、第二、第三、與第四週邊區域中之另一個上的一第一電壓傳輸構件，該第一電壓傳輸構件施加一電壓至該顯示器面板。 An organic light emitting display device includes: a display panel having a display area, a first peripheral area, a second peripheral area, a third peripheral area, and a fourth peripheral area, the first to fourth The peripheral area is adjacent to the display area, and the display panel displays an image in the display area by an organic light emitting element; and is arranged to be one of the first, second, third, and fourth peripheral areas Adjacent first printed circuit board, the first printed circuit board Applying a first driving signal to the display panel; and a first voltage transmitting member on the other of the first, second, third, and fourth peripheral regions, the first voltage transmitting member applying a Voltage to the display panel. 如申請專利範圍第12項之有機發光顯示器裝置，其中施加至該顯示器面板之該電壓是一電源電壓。 The organic light emitting display device of claim 12, wherein the voltage applied to the display panel is a power supply voltage. 如申請專利範圍第13項之有機發光顯示器裝置，更包含安排成與該第一電壓傳輸構件相鄰之一第二印刷電路板，該第二印刷電路板施加該電源電壓至該第一電壓傳輸構件。 The organic light emitting display device of claim 13, further comprising a second printed circuit board arranged adjacent to the first voltage transmitting member, the second printed circuit board applying the power voltage to the first voltage transfer member. 如申請專利範圍第12項之有機發光顯示器裝置，其中施加至該顯示器面板之該電壓是一共同電壓。 The organic light emitting display device of claim 12, wherein the voltage applied to the display panel is a common voltage. 如申請專利範圍第15項之有機發光顯示器裝置，更包含安排成與該第一電壓傳輸構件相鄰之一第二印刷電路板，該第二印刷電路板施加該共同電壓至該第一電壓傳輸構件。 The organic light emitting display device of claim 15, further comprising a second printed circuit board disposed adjacent to the first voltage transmitting member, the second printed circuit board applying the common voltage to the first voltage transfer member. 如申請專利範圍第12項之有機發光顯示器裝置，其中該第一電壓傳輸構件是一可撓印刷電路板。 The organic light emitting display device of claim 12, wherein the first voltage transmitting member is a flexible printed circuit board. 如申請專利範圍第12項之有機發光顯示器裝置，其中該第一印刷電路板與該第一週邊區域相鄰，而該第一電壓傳輸構件與該第三週邊區域或該第四週邊區域相鄰。 The OLED display device of claim 12, wherein the first printed circuit board is adjacent to the first peripheral region, and the first voltage transmitting member is adjacent to the third peripheral region or the fourth peripheral region . 如申請專利範圍第18項之有機發光顯示器裝置，其中該有機發光元件包含：一切換元件； 一電流控制元件；連接於該切換元件與該電流控制元件間之一儲存電容器；以及一有機發光二極體，其具有電氣連接至該電流控制元件之一陽極、從該第一電壓傳輸構件接收該共同電壓之一陰極、以及插置於該陽極與該陰極間之一有機發光層，其中該陰極與該第一電壓傳輸構件接觸，而該陰極與該第一電壓傳輸構件間之一接觸長度，實質與該顯示器區域和該第三週邊區域或該第四週邊區域相鄰之一側邊長度相同。 The organic light emitting display device of claim 18, wherein the organic light emitting device comprises: a switching element; a current control element; a storage capacitor connected between the switching element and the current control element; and an organic light emitting diode having an anode electrically connected to the current control element and receiving from the first voltage transmission member a cathode of the common voltage, and an organic light-emitting layer interposed between the anode and the cathode, wherein the cathode is in contact with the first voltage transmitting member, and a contact length between the cathode and the first voltage transmitting member And substantially the same length as one side of the display area and the third peripheral area or the fourth peripheral area. 如申請專利範圍第19項之有機發光顯示器裝置，其中該第一印刷電路板包含一實質與該電流控制元件所用之材料相同的材料。 The OLED display device of claim 19, wherein the first printed circuit board comprises a material substantially the same as that used for the current control element. 如申請專利範圍第18項之有機發光顯示器裝置，更包含：安排成與該第二週邊區域相鄰之一第二印刷電路板，該第二印刷電路板施加一第二驅動信號至該顯示器面板；彼此間相隔一第一距離之多個第一信號傳輸構件，該等第一信號傳輸構件將該第一印刷電路板電氣連接至該顯示器面板；彼此間相隔一第二距離之多個第二信號傳輸構件，該等第二信號傳輸構件將該第二印刷電路板電氣連 接至該顯示器面板；以及一第二電壓傳輸構件，其設置於兩相鄰之該等第一信號傳輸構件之間或者兩相鄰之該等第二信號傳輸構件之間，該第二電壓傳輸構件施加該電壓至該顯示器面板。 The OLED device of claim 18, further comprising: a second printed circuit board disposed adjacent to the second peripheral area, the second printed circuit board applying a second driving signal to the display panel a plurality of first signal transmission members spaced apart from each other by a first distance, the first signal transmission members electrically connecting the first printed circuit board to the display panel; a second distance from each other a signal transmission member, the second signal transmission member electrically connecting the second printed circuit board Connected to the display panel; and a second voltage transmitting member disposed between the two adjacent first signal transmitting members or between the two adjacent second signal transmitting members, the second voltage transmission The component applies the voltage to the display panel. 如申請專利範圍第21項之有機發光顯示器裝置，其中該等第一信號傳輸構件與該等第二信號傳輸構件中之至少一個，包含施加該電壓至該顯示器面板之一電壓供應線。 The OLED display device of claim 21, wherein at least one of the first signal transmission member and the second signal transmission members comprises applying the voltage to a voltage supply line of the display panel. 如申請專利範圍第12項之有機發光顯示器裝置，其中該第一電壓傳輸構件並不傳送一驅動信號至該顯示器面板。 The organic light emitting display device of claim 12, wherein the first voltage transmitting member does not transmit a driving signal to the display panel. 一種有機發光顯示器裝置，包含：一顯示器面板，其具有一顯示器區域、一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域，該等第一至第四週邊區域皆與該顯示器區域相鄰，該顯示器面板藉由一有機發光元件顯示一影像；與該第一週邊區域相鄰之一第一印刷電路板，該第一印刷電路板施加一第一驅動信號與一第一電壓至該顯示器面板；與該第二週邊區域相鄰之一第二印刷電路板，該第二印刷電路板施加一第二驅動信號與一第二電壓至該顯示器面板；彼此間相隔一第一距離之多個第一信號傳輸構 件，該等第一信號傳輸構件將該第一印刷電路板電氣連接至該顯示器面板；彼此間相隔一第二距離之多個第二信號傳輸構件，該等第二信號傳輸構件將該第二印刷電路板電氣連接至該顯示器面板；設置於該等第一信號傳輸構件間之一第一電壓傳輸構件，該第一電壓傳輸構件施加該第一電壓至該顯示器面板；以及設置於該等第二信號傳輸構件間之一第二電壓傳輸構件，該第二電壓傳輸構件施加該第二電壓至該顯示器面板。 An organic light emitting display device includes: a display panel having a display area, a first peripheral area, a second peripheral area, a third peripheral area, and a fourth peripheral area, the first to fourth The peripheral area is adjacent to the display area, the display panel displays an image by an organic light emitting element; and the first printed circuit board adjacent to the first peripheral area, the first printed circuit board applies a first driving Transmitting a first voltage to the display panel; adjacent to the second peripheral area, a second printed circuit board, the second printed circuit board applying a second driving signal and a second voltage to the display panel; Multiple first signal transmission structures separated by a first distance The first signal transmission member electrically connects the first printed circuit board to the display panel; a plurality of second signal transmission members spaced apart from each other by a second distance, the second signal transmission members a printed circuit board electrically connected to the display panel; a first voltage transmitting member disposed between the first signal transmitting members, the first voltage transmitting member applying the first voltage to the display panel; and being disposed on the first A second voltage transmitting member between the two signal transmitting members, the second voltage transmitting member applying the second voltage to the display panel. 如申請專利範圍第24項之有機發光顯示器裝置，更包含：設置於該第三週邊區域上之一第三電壓傳輸構件，該第三電壓傳輸構件施加該第一電壓至該顯示器面板；以及設置於該第四週邊區域上之一第四電壓傳輸構件，該第四電壓傳輸構件施加該第二電壓至該顯示器面板。 The organic light emitting display device of claim 24, further comprising: a third voltage transmitting member disposed on the third peripheral region, the third voltage transmitting member applying the first voltage to the display panel; and setting And a fourth voltage transmitting member on the fourth peripheral region, the fourth voltage transmitting member applying the second voltage to the display panel. 如申請專利範圍第24項之有機發光顯示器裝置，其中該等第一與第二電壓傳輸構件並不傳送該等第一與第二驅動信號至該顯示器面板。 The OLED display device of claim 24, wherein the first and second voltage transmitting members do not transmit the first and second driving signals to the display panel. 一種有機發光顯示器裝置，包含：一顯示器面板； 傳送一驅動信號至該顯示器面板之一信號傳輸構件；與該信號傳輸構件分離並只傳送一電壓至該顯示器面板之一電壓傳輸構件；以及在該顯示器面板中之一顯示器區域，與環繞該顯示器區域之該顯示器面板的一第一週邊區域、一第二週邊區域、一第三週邊區域、以及一第四週邊區域，該信號傳輸構件電氣連接至該等週邊區域其中之一，而該電壓傳輸構件電氣連接至該等週邊區域中之另一個。 An organic light emitting display device comprising: a display panel; Transmitting a drive signal to a signal transmission member of the display panel; separating from the signal transmission member and transmitting only one voltage to one of the display panel; and displaying a display area in the display panel, surrounding the display a first peripheral area, a second peripheral area, a third peripheral area, and a fourth peripheral area of the display panel of the area, the signal transmission member is electrically connected to one of the peripheral areas, and the voltage transmission The member is electrically connected to the other of the peripheral regions. 如申請專利範圍第27項之有機發光顯示器裝置，其中該驅動信號是一閘極信號與一資料信號其中之一，而該電壓是一共同電壓與一電源電壓其中之一。 The OLED device of claim 27, wherein the driving signal is one of a gate signal and a data signal, and the voltage is one of a common voltage and a power voltage. 如申請專利範圍第27項之有機發光顯示器裝置，其中該電壓傳輸構件具有一實質與該顯示器區域之長度相同的長度。The organic light emitting display device of claim 27, wherein the voltage transmitting member has a length substantially the same as a length of the display region.