201234344 六、發明說明: 【發明所屬之技術領域】 本發月係有關於一種液晶顯示面板,其中結 決關機殘影問題。 【先前技術】 在液晶顯示面板設計中,「如何解決關 項重要的課題。 」疋 殘留在晝面上一段 所:關機殘U的是面板關後保留在畫素電容 内的電荷無法快速消散,導致影像仍# 、 時間。 ,、 下 為了4除關機殘影」,本發明提出解決方案如 【發明内容】 根據本發明一種實施方式 括有-玻璃A# P *搞實 液晶顯示面板包 關拖、土板串登連結的複數個移位暫存器、以及一 關機殘影消除電路。 所述玻璃基板佈置有一畫素陣列。此外,該 上更佈置有該等移位暫存写 人 土 等移付心、 及5謂機殘影消除電路。該 數條複數轉描錢⑽4素陣列的複 線。該關機殘影絲電路則是_各個上述移位 ϊ存二二ί液晶顯示面板關機時強制半致能該等移位 存盗所輸出的該等掃描信號。 下目的、特徵和優點能更明顯易懂, 特舉貫域,並配合所附圖示,詳細說明如下。 201234344 【實施方式】 弟1圖為一示意圖,圖解根據本發明一種實施方式所 實現的一液晶顯示面板100。液晶顯示面板1〇〇包括一破 璃基板102。玻璃基板102上除了佈置一晝素陣列1〇4外, 更佈置有串疊連結的複數個移位暫存器SR卜.SR2n、以及 一關機殘影消除電路106。 移位暫存器SRl...SR2n是作該晝素矩陣104的閘極驅 • 動器(gatedriver)使用,負責輸出複數個掃描信號G1...G2n 至晝素矩陣104的複數條掃描線,以逐列掃描該晝素矩陣 1〇4顯示影像。移位暫存器SR1...SR2n可採用薄膜電晶體 (thin film transistor ’ TFT)技術製作在玻璃基板1〇2上。此 類將閘極驅動器(包括移位暫存器SRl〜SR2n)結合在玻璃 基板102上的技術一般稱為GOP(gatedriver〇npanel)。 至於關機殘影消除電路106則是設計來解決關機殘影 問題。如圖所示,關機殘影消除電路1〇6耦接各個移位暫 •存器SR1."SR2n。當該液晶顯示面板100關機時,該關機 殘影消除電路106會強制該等移位暫存器SRl...SR2n所輸 出的該等掃描信號Gl...G2n為半致能狀態,使晝素陣列 1〇4内各個晝素的電荷得以中和,消除關機殘影現象。該 關機殘影消除電路106同樣可以薄膜電晶體技術實現,二 便製作於玻璃基板102上。 此外’第1圖更顯示有致動該等移位暫存器SRl...SR2n 以及該關機殘影消除電路106的控制信號cs。控制作號 CS可由一控制電路108所供應。該控制電路1〇8^如圖所u 5 201234344 示,配置於該玻璃基板1〇2之外」另外以一電路板實現。 或者’在其他實施方式中’控制電路⑽所供二° =過麵基板Π)2上的電路處理後方形成控 該等移位暫存nSIu...SR2n以及該關殘影消除電路 =位暫存器測.僅2„有多種實施方式。第2圖 。刀別為-種實施方式。參考第4圖所示波形,第 的移位暫存器SR1接收到—起始信號STV上的-脈衝 及的移位暫存器如、队2..·所產生的掃描信f虎G1、G2·.·’ 會循序產生脈衝波形’以逐聊财素陣列104。 參考第2圖或第3圖所介紹的移位暫存器 移位暫存器SIU、SR2.·.夂白 及冬 輸出掃垆"η各自八有一知虎輸出端,用以 G 。此外,各級移位暫存器具有-脱 端以及—脈衝重置端,用以觸發以及重置掃插信號 的一脈衝。在第一級的移位暫存器SRI t,脈衝觸私i 所接收的是上述起始信號STV;至於其他 =,其脈衝觸發,接收的信號是來自前-級t:: =歹|如SR1)的-則饋端點F。所述脈衝重置端則是用來 Π — ί移位暫存器所回授的掃描信號;例如,第一級 位存益SR1疋接收第二級移位暫存器肥所產生的掃 描信號G2以重置掃描信號⑴内的脈衝。至於最後一級移 位暫存H SR2n的脈衝重置端’則可另外以一最末列重置 設計控制之。 η 口詳細觀察第2圖與第3圖所示的結構,該等移位暫存 态SIU、SR2...各自具有一上拉薄膜電晶體以及一下拉 201234344 =膜電日日體Td。上拉薄膜電晶體Tu用於上拉所屬移位暫 $器的上述掃描信號輸出端的準位;如圖所示,上拉薄膜 電^體控Tu具有-控制端標號為β、—第—端接收一時脈 可由㈣電路⑽所提供,為正相時脈信號CK或反 ==CKB ’視物多位暫存器於該 铲輸出端疋下:Λ弟—端耦接所屬移位暫存器的掃描信 下拉缚膜電晶體丁 d用於下拉所屬移位暫存器的 上述知描信號輸出端的準位。201234344 VI. Description of the invention: [Technical field to which the invention pertains] The present disclosure relates to a liquid crystal display panel in which the problem of shutdown afterimage is resolved. [Prior Art] In the design of the liquid crystal display panel, "How to solve the important problem of the key item." 疋 Remaining on the surface of the : surface: The residual U is turned off, and the charge remaining in the pixel capacitor after the panel is turned off cannot be quickly dissipated. Causes the image to still #, time. According to the present invention, an embodiment of the present invention includes a glass A# P * a solid liquid crystal display panel that encloses a plurality of links and soil boards. A shift register and a shutdown afterimage removal circuit. The glass substrate is arranged with a pixel array. In addition, the shifting temporary storage and the like, and the 5th machine residual image eliminating circuit are disposed on the shift. The plurality of lines are converted to the complex line of the (10) 4-element array. The shutdown residual shadow wire circuit is _ each of the above-mentioned shifting buffers, and the liquid crystal display panel is forced to semi-enable the scanning signals output by the shifting thieves when the liquid crystal display panel is turned off. The objects, features, and advantages will be more apparent and obvious, and will be described in detail with reference to the accompanying drawings. 201234344 [Embodiment] FIG. 1 is a schematic view showing a liquid crystal display panel 100 implemented in accordance with an embodiment of the present invention. The liquid crystal display panel 1A includes a glass substrate 102. On the glass substrate 102, in addition to a pixel array 1〇4, a plurality of shift register SRs. SR2n and a shutdown afterimage removal circuit 106 are arranged in series. The shift register SR1...SR2n is used as a gate driver for the pixel matrix 104, and is responsible for outputting a plurality of scan signals G1...G2n to a plurality of scan lines of the pixel matrix 104. The image is displayed by scanning the pixel matrix 1〇4 column by column. The shift registers SR1 to SR2n can be formed on the glass substrate 1 2 by a thin film transistor (TFT) technique. Such a technique of bonding a gate driver (including shift registers SR1 to SR2n) to a glass substrate 102 is generally referred to as a GOP (gatedriver). As for the shutdown afterimage removal circuit 106, it is designed to solve the problem of shutdown afterimage. As shown, the shutdown afterimage removal circuit 1〇6 is coupled to each of the shift registers SR1."SR2n. When the liquid crystal display panel 100 is turned off, the shutdown afterimage removal circuit 106 forces the scan signals G1 . . . G2n output by the shift registers SR1 . . . SR2n to be in a semi-enable state. The charge of each element in the prime array 1〇4 is neutralized, eliminating the phenomenon of shutdown afterimage. The shutdown afterimage removal circuit 106 can also be implemented by a thin film transistor technology, and is fabricated on the glass substrate 102. Further, Fig. 1 further shows control signals cs for actuating the shift registers SR1...SR2n and the shutdown afterimage removal circuit 106. The control number CS can be supplied by a control circuit 108. The control circuit 1 8 8 is disposed outside the glass substrate 1 〇 2 as shown in FIG. 5 201234344 and is additionally implemented by a circuit board. Or 'in other embodiments' the control circuit (10) for the circuit processing on the 2nd = over-surface substrate Π) 2 to form the control shift register nSIu...SR2n and the off-image elimination circuit = bit temporarily The memory is measured. There are only a few embodiments. Figure 2. The knife is an implementation. Referring to the waveform shown in Figure 4, the first shift register SR1 receives - on the start signal STV - The pulse and shift register, such as the scan letter generated by the team 2..·, G1, G2·.·' will generate pulse waveforms sequentially to talk about the financial array 104. Refer to Figure 2 or 3 The shift register shift register SIU, SR2.·.夂 white and winter output brooms described in the figure are η each have a knower output, for G. In addition, shifts are temporarily stored at each level. The device has an off-end and a pulse reset terminal for triggering and resetting a pulse of the sweep signal. In the first stage shift register SRI t, the pulse touch i receives the start signal STV; As for the other =, its pulse trigger, the received signal is from the pre-stage t:: = 歹 | such as SR1) - then the terminal F. The pulse reset end is used to Π ί shifting the scan signal fed back by the register; for example, the first stage bit register SR1 receives the scan signal G2 generated by the second stage shift register to reset the pulse in the scan signal (1). The pulse reset end of the last stage shift register H SR2n can be additionally controlled by a last column reset design. η port to observe the structure shown in Fig. 2 and Fig. 3 in detail, and the shifts are temporarily stored. Each of the SIU, SR2, ... has a pull-up film transistor and a pull-down 201234344 = film electric solar body Td. The pull-up film transistor Tu is used to pull up the output of the above-mentioned scanning signal of the shifting device. As shown in the figure, the pull-up film control body Tu has a control terminal numbered as β, and the first terminal receives a clock which can be provided by the (four) circuit (10), which is a positive phase clock signal CK or an inverse == CKB ' The visual multi-bit register is placed at the output end of the shovel: the Λ--end is coupled to the scanning signal of the shift register, and the pull-down film transistor d is used to pull down the above-mentioned knowledge of the shift register. The level of the signal output.
於各移位暫存器的前饋設計。之不同處在 器的前饋端點F是將掃Θ級移位暫存 應給下一纽沾# / & 。旒輸出%所供應的掃描信號供 :了 、’勺私位暫存器的脈衝觸發端。然而,盥第2圖 相較,第3圖各級移位暫存哭a ^ ,、弟2圖 前饋端點疋另外以一薄膜電晶體形成 UF連、、Ό下一級移位暫存器的脈衝觸發端。 ^特㈣明的是’ g 2圖與第3圖所示結構是用 哭之社椹士 4士 本早凡’而非意圖限定移位暫存 二、4。本技術領域尚存在有多種移位暫存 :=存器變形皆可用來實現本案所述内容:: 祝明方便,不再贅述移”存器的詳 2 了 ==級移位暫存器,其中以標號。二: 中上拉薄膜電晶體Tu的::::,標號B代表的 正相時脈錢CK與反相βί ^ :制料1(58所提供的 該串移位暫存g It ^婦㈣存器於 脈輸入端CK1以及㈤。,位暫存益方塊的兩個時 201234344 .第5圖圖解本案關.機殘影消除電路耦接至各個移位暫 存器SFU-SR2n的一種方式,其中,關機殘影消除電路是 以複數個第一薄膜電晶體ΤΙ,Ι…Tl,2n以及複數個第二薄 膜電晶體Τ2,1···Τ2,2η所實現。 該等第一薄膜電晶體Tl,l…Τ1,2η的控制端皆是耦接 一關機半致能信號線ΧΑΟ。該等第一薄膜電晶體ΤΙ,Ι… Τ1,2η分別對應該等移位暫存器SRl...SR2n。如圖所示, 該等第一薄膜電晶體Tl,l…Tl,2n各個是連結於所對應的 移位暫存器之端點Β與一地線信號線VSS之間。 該等第二薄膜電晶體Τ2,1···Τ2,2η的控制端皆是耦接 一關機半致能信號線ΧΑΟ。該等第二薄膜電晶體T2,l··· Τ2,2η分別對應該等移位暫存器SRl"SR2n。如圖所示, 該等第二薄膜電晶體Τ2,1···Τ2,2η各個是連結於所對應的 移位暫存器之掃描信號輸出端out與該地線信號線VSS之 間。 為了操作第5圖所揭露之關機殘影消除電路,控制電 路108需於該液晶顯示面板100關機時調整其所供應的信 號。第6圖以波形圖圖解一種實施例,其中,在關機時刻 t_off,控制電路108可強制該正相時脈信號CK、該反相時 脈信號CKB、該起始信號STV、該關機半致能信號線XA0 上的信號、以及該地線信號線VSS上的信號皆為一半致能 狀態。 關於該等第一薄膜電晶體ΤΙ,Ι…Tl,2n,關機半致能信 號線XA0上的信號之半致能會使其導通,使該地線信號線 VSS的半致能狀態得以傳遞至該等移位暫存器SIU··· SR2n 201234344 的端點B。如此一來,該等移位暫存器SR1... SR2η内的上 拉薄膜電晶體Tu會開始作用,始正處於半致能狀態的時脈 ㈣(正相時脈信號CK或反相時脈信號CKB)得以影響該 等牙夕位暫存益SR1…SR2n的掃描信號輸出端_的準位, 使掃描信號〇卜仙皆為半致能狀態。如此-來,晝素陣 =104内各個晝素的電荷得以中和,關機殘影現象因而消 :至於第6圖中對起始信號STV所作的關機半致能控 構,=使:者決定是否採用。參考第2與3圖所示結 ct t 起始錢仍謂㈣等掃描信號⑺… G2n轉變成半致能狀態。 等第二薄膜電晶體T2,卜.Τ2,2η,關機半致能信 叙半職會使其導通,使該地線信號線 的^ 狀態得以傳遞至該等移位暫存器SRl...SR2n =出2 〇m’直接半致能該等掃描信號a,。如此 -二二素陣列1〇4内各個畫素的電荷得以中和,關機殘 影現象因而消除。 哪俄π •在^實施方式中’可不使用該等第二薄臈電晶體 現關機該等第-薄膜電晶體一實 ^ ^ 1. #^ ^ ^« 9 — , /、採用5亥等第二薄膜電晶體Τ2 1… 2,2η貫現關機殘影消除電路 , 選擇不對該正相時崎CK二齡主的㈣方式中,可 該起A反相時脈信號⑽以及 X之=彳5旒STV作關機半致能操作。 弟7圖另外介紹一種關機殘影消除電路的結構。在此 201234344 實施方式中’關機殘影消除電路是由複數個二極體連結薄 膜電晶體Tdl ·,.Τά2η實現。該等二極體連結薄膜電晶體Feedforward design for each shift register. The difference between the feedforward endpoint F of the device is to temporarily shift the broom level shift to the next button # / &扫描 The scan signal supplied by % is supplied to: the pulse trigger end of the 'spoon private register. However, compared with Figure 2, the third figure shifts temporarily to cry a ^, and the second 2 map feeds the endpoint 疋 additionally forms a UF connection with a thin film transistor, and the next stage shift register The pulse trigger end. ^Special (four) is that the structure shown in the 'g 2 diagram and the third diagram is the use of the crying community gentleman 4 Shi Benfan, instead of intending to limit the shift temporary storage. There are still a variety of shift temporary storage in the technical field: = the memory deformation can be used to achieve the contents of the present case:: I wish the Ming convenient, no longer repeat the details of the shift register == level shift register, In the middle of the thin film transistor Tu::::, the label B represents the normal phase clock CK and the inverse βί ^: material 1 (58 provided by the string shift temporary g It ^ woman (four) register at the pulse input terminal CK1 and (5). The two bits are temporarily stored in the benefit block 201234344. Figure 5 illustrates the case. The machine afterimage removal circuit is coupled to each shift register SFU-SR2n In one embodiment, the shutdown afterimage removal circuit is implemented by a plurality of first thin film transistors Ι, T1, 2n and a plurality of second thin film transistors Τ2,1···Τ2, 2η. The control terminals of a thin film transistor T1,1...Τ1,2η are coupled to a shutdown half-enable signal line. The first thin film transistors ΤΙ, Ι... Τ1, 2η respectively correspond to the shift register SR1...SR2n. As shown, the first thin film transistors T1,1...Tl,2n are each connected to an end point of the corresponding shift register. The grounding signal line VSS is between the control terminals of the second thin film transistors Τ2,1···Τ2, 2η are coupled to a shutdown half-enable signal line ΧΑΟ. The second thin film transistors T2, l ··· Τ2,2η respectively correspond to the shift register SR1"SR2n. As shown in the figure, the second thin film transistors Τ2,1···Τ2,2η are connected to the corresponding shift temporary The scan signal output terminal out of the memory is connected to the ground signal line VSS. In order to operate the shutdown afterimage removal circuit disclosed in FIG. 5, the control circuit 108 needs to adjust the signal supplied when the liquid crystal display panel 100 is turned off. Figure 6 illustrates an embodiment in a waveform diagram, wherein, at the shutdown time t_off, the control circuit 108 can force the normal phase clock signal CK, the inverted clock signal CKB, the start signal STV, the shutdown signal The signal on the signal line XA0 and the signal on the ground line signal VSS are all half-enable. Regarding the first thin film transistors Ι, Ι...Tl, 2n, the shutdown half-enable signal line XA0 The half-energy of the signal turns it on, making the ground signal line VSS semi-enable Passed to the end point B of the shift register SIU··· SR2n 201234344. As a result, the pull-up film transistor Tu in the shift registers SR1...SR2η will start to function. The clock (4) (positive phase clock signal CK or inverted clock signal CKB) that is in the semi-enable state can affect the level of the scan signal output terminal _ of the temporary stagnation registers SR1...SR2n, so that scanning The signals are all semi-enable. So, the charge of each element in the 昼素阵=104 is neutralized, and the phenomenon of shutdown afterimage is eliminated: as for the shutdown of the start signal STV in Fig. 6. Semi-energy control, = let the person decide whether to adopt. Referring to Figures 2 and 3, the ct t start money is still called (four) and other scanning signals (7)... G2n is transformed into a semi-energy state. Waiting for the second thin film transistor T2, Τ.2, 2η, the shutdown half-energy narration will be turned on, so that the state of the ground signal line can be transferred to the shift register SR1... SR2n = out 2 〇m' directly semi-enables the scan signals a,. Thus, the charge of each pixel in the diode array 1〇4 is neutralized, and the shutdown phenomenon is eliminated. Which Russian π • In the embodiment, 'the second thin germanium transistor is not used, the first thin film transistor is turned off ^ ^ 1. #^ ^ ^« 9 — , /, using 5 Hai et al The second thin film transistor Τ 2 1... 2, 2 η is used to turn off the afterimage removal circuit, and the selection is not for the positive phase of the CK 2+ second-generation master (four) mode, the A-inverted clock signal (10) and X = 彳 5旒STV is used for shutdown and semi-functional operation. The brother 7 shows another structure of the shutdown afterimage removal circuit. In the 201234344 embodiment, the shutdown image removal circuit is implemented by a plurality of diode-connected thin film transistors Tdl·, .Τά2η. The diode-connected thin film transistor
Tdl“.Td2n對應該等移位暫存器SR1...SR2n。該等二極體 連結薄膜電晶體Tdl…Td2n的陽極皆耦接該關機半致能信 號線XAO。該等二級體連結薄膜電晶體Tdl…Td2n的陰極 分別與所對應的移位暫存器SR1〜SR2n的輸出端〇m連 結。第8圖為相關之控制信號波形。在關機時刻t—〇ff,控 制電路10 8可半致能該關機半致能信麟χ a 〇上的信號。 該等二極體連結薄膜電晶體加··.·會將信號χΑ〇之 半致此狀態反應在該等移位暫存器sRi.SRh之輸出端 out,使該等掃描信號半致能。如此一來,晝素 陣列104内各個晝素的電荷得以中和,關機殘影現象因而 消除。、至於第8圖中對正相時脈信號ck、反相時脈信號 CKB以及起始#號STV所作的關機半致能控制,則可由使 用者決定是否採用。 、上述各種關機殘影消除電路不受薄膜電晶體老化問題 威脅。原因疋,所揭露的第—薄膜電晶體Tl,;l...Tl,2n、第 二薄膜電晶體Τ2,1...Τ2,2η以及二極體連結薄膜電晶體 Tdl Td2n可6又5十成僅在關機時刻作動,不易有老化問 題。此為本關機殘影消除電路的—項重大優點。 一雖然本發明已以較佳實施例揭露如上,然其並非用以 限疋f發Θ *何热悉此項技藝者,在不脫離本發明之精 神和粑圍内,當可做些許更動與潤飾,@此本發明之保護 範圍當視後社申請專利範圍所界定者為準。 … 201234344 【圖式簡單說明】 實規li、圖為—示意圖’圖解根據本發明—種實施方式所 、 ' 液晶顯示面板1 〇〇 ; J 2圖與第3圖分別圖解移位暫存器的一種實施方式; 弟4圖為波形圖,說明移位暫存器之摔作; 存二圖除電路耗接至各個移位暫 H 、 式,,、中,關機殘影消除電路是 複數個第—薄膜電晶體τ . 、 膜電晶體阳···阳讀實現;,以及讀個第二薄 第6圖為波形圖,說明第5圖結構之操作; 第7圖介紹另外-種關機殘影消 關機殘影消除電路是由複數個二極體連二:電f: TcU".Td2n實現;以及 薄犋電晶體 第8圖為波形圖,說明第7圖結構之操作。 【主要元件符號說明】 100〜液晶顯示面板; 102〜玻璃基板,· 104〜畫素陣列; 106〜關機殘影消除電路; 108〜控制電路; B〜上拉薄膜電晶體Td的控制端; CK1、CK2〜時脈輸入端; CK、CKB〜正相、反相時脈信號; CS〜控制信號; 201234344 F〜前饋端點; G1…G2n〜掃描信號; out〜掃描信號輸出端; PE〜晝素電極; RT~脈衝重置端; SRl."SR2n〜移位暫存器; stv〜脈衝觸發端; STV〜起始信號; ΤΙ,Ι…Tl,2n〜第一薄膜電晶體; φ T2,l…Τ2,2η〜第二薄膜電晶體;Tdl ".Td2n corresponds to the shift register SR1...SR2n. The anodes of the diode-connected thin film transistors Tdl...Td2n are coupled to the shutdown half-enable signal line XAO. The two-level connection The cathodes of the thin film transistors Tdl...Td2n are respectively connected to the output terminals 〇m of the corresponding shift registers SR1 to SR2n. Fig. 8 is a waveform of the associated control signal. At the shutdown time t_〇ff, the control circuit 10 8 It can be semi-enable to turn off the signal of the semi-energy letter χ χ a 〇. The diode-connected thin film transistor plus ···· will signal the half of the state reaction in these shifts The output terminal out of the sRi.SRh enables the scan signals to be semi-enabled. As a result, the charge of each element in the halogen array 104 is neutralized, and the phenomenon of shutdown image sticking is eliminated. As for the figure 8 The normal phase clock signal ck, the inverted clock signal CKB, and the shutdown half-energy control of the start ##STV can be determined by the user. The above various shutdown afterimage removal circuits are not affected by the thin film transistor aging problem. Threat. The reason is that the first film-transistor Tl,;...Tl 2n, the second thin film transistor Τ2,1...Τ2,2η and the diode-connected thin film transistor Tdl Td2n can be operated at the time of shutdown only at the time of shutdown, and it is not easy to have an aging problem. Eliminating the significant advantages of the circuit. Although the present invention has been disclosed above in the preferred embodiments, it is not intended to limit the scope of the invention, and it will be appreciated by those skilled in the art without departing from the spirit and scope of the invention. In the meantime, when a little change and refinement can be made, @the scope of protection of this invention is subject to the definition of the patent application scope of the post-collection. ... 201234344 [Simple description of the schema] The actual regulation li, the diagram is - the diagram 'illustration according to this Invention - Embodiments of the liquid crystal display panel 1; J 2 and 3 illustrate an embodiment of a shift register, respectively; In addition to the circuit consumption to the various shift temporary H, ,,,,, the shutdown afterimage removal circuit is a plurality of first-thin film transistor τ., film transistor Yang··· Yang read implementation; Read the second thin figure 6 is a waveform diagram, showing the structure of Figure 5 Operation; Figure 7 introduces another kind of shutdown afterimage, the shutdown and afterimage removal circuit is realized by a plurality of diodes connected by two: electric f: TcU".Td2n; and the thinned transistor is shown in Fig. 8 as a waveform diagram. Figure 7 Structure operation. [Main component symbol description] 100~ liquid crystal display panel; 102~glass substrate, · 104~ pixel array; 106~ shutdown afterimage removal circuit; 108~ control circuit; B~ pull-up film Control terminal of crystal Td; CK1, CK2~ clock input terminal; CK, CKB~ normal phase, inverted clock signal; CS~ control signal; 201234344 F~ feedforward end point; G1...G2n~ scan signal; Scan signal output terminal; PE~昼素 electrode; RT~ pulse reset terminal; SRl."SR2n~shift register; stv~ pulse trigger terminal; STV~start signal; ΤΙ,Ι...Tl,2n~ a first thin film transistor; φ T2, l...Τ2, 2η~ second thin film transistor;
Td〜下拉薄膜電晶體;Td~ pull-down film transistor;
Tdl…Td2n〜二極體連結薄膜電晶體; t_off〜關機時刻;Tdl...Td2n~diode bonded thin film transistor; t_off~ shutdown time;
Tu〜上拉薄膜電晶體; VSS〜地線信號線;以及 XA0〜關機半致能信號線。 12Tu~ pull-up film transistor; VSS~ ground line signal line; and XA0~ shutdown half-enable signal line. 12