200828248 九、發明說明: 【發明所屬之技術領域】 本發明係有關-種顯示面板,特別是關於一種具 (【丨:=⑴以師江购之顯純缺細動方法: 主輪Ξΐ錢示器通常彻—主動矩陣驅動電路來控制其作動。在 動矩陣式液晶顯不面板中,每—晝素係具有—薄 作為控制開關,其閘極連接至水平掃描線,汲 ,㈣晶電極。顯示面板可啟動一條水平掃描:=: 所有薄膜電晶體打開,而經由垂直 ;至;: ::素中,麵膜電晶體,直到下次再重新寫 床脾:⑽描線,域資料線輸人資料信號至對應晝素中;如此忙 由於傳統驅動方式•由“重新寫入錄 壓―,Π 裔中侧供給每—晝素相對應的電 社ϋ之Ϊ Γ素在不同電财的排列不同,看到的光學顯示 1 I。攸液晶顯示器之正視角而言,面板不會有色彩的門顥 產生色彩偏移的問題,尤其是二=: (Twisted Nematie If色*偏移問題在扭轉向列魏晶顯示器 有此問題絲 示器中則較為嚴重。(偷^丨1,簡稱Μ顯 如第1 相擾,^科提種低色彩偏移喃示器架構, 二=[將每一個晝素1〇分為二部份,第一子畫素Μ與:二 使第1子查:晝素10係連接二條掃描線S1、S2與-資料線DL1, „ S2 ; ^tAJ S1 ^ A2 104,並分別i㈣t具有二電晶體開關,第一開關102與第二開關 地據弟―掃描線引與第二掃描線S2之控制而選擇性地 5 200828248 各別自資料,DL1傳送第信賴第二資料魏至對應之第一子 晝素A1與第—子晝素A2。且第一子晝素A1與第二子畫素A2之伽瑪 (Gamma)電阻值不同,第一子晝素^之伽瑪曲線(以⑺⑽c_) 在伽瑪目標值〈GammaZ2值〉之下,第二子晝素^之伽瑪曲 線^瑪最佳值之上。在致能第—掃描線S1時,使用信號 對第-子晝素A1的電壓進行充電,且在致能第二掃描線S2時,則使 用gamma2^琥對第二子晝素A2的電壓進行充電,使該晝素1〇的第 -子畫素A1與第二子畫素A2的亮度不同,但混合出來的顏色仍保持 在伽瑪目^壓值〈Gamma 2·2值〉,故可藉此達到降低色彩偏移的 作用。 \ ι再者,在第1圖之架構下進行運作時,由於將60Hz的圖框提升 到^Ι20ΗΖ ’所以將分成二個子圖框運作,請同時參閱第&圖所示, 在第:個子圖框時,同時致能掃瞒線S1、S2,使第-子畫素A1與第 一^畫素A2充相同的gamma1的電壓,在失能掃瞄線si、s2,致 田線S3、S4時,同時使畫素12之第—子晝素B1與第二子晝素 充gammf2的電壓,由於gammal曲線小於gamma2,可以在畫 =中=段__示較低灰階而顯示插灰畫面,以藉此呈現插灰效 第t子圖框時,請同時參閱第2b圖所示,致能掃描現S2和 時在1、^^—子晝素A2和B2電壓充成gamma2的電壓,此時則同 了個晝素1〇、12中呈現gamma1/ganima2混合出來的效果以 措此達到低彩色偏移的效果。 声基於4述將每—晝素劃分為二子晝素的設計雖然可以降低 之# ffl /曰仁卻會車父傳統液晶顯示器多使用一倍的掃描線與資料驅動 板鄉3,導致成本增加許多。有驗此,本發明提出—麵示面 【發二S驅動方法,以同時改善存在於先前技術中之該等缺失。 本發明之主要目的係在提供一麵示面板及其時間多工驅動方 6 200828248 法,其係可在不增加額外成本的前提下,降低側視角色彩偏移,呈現 最佳的完整色階,以賴最健奴,財效提細示雜 現品質。 本發明之另-目的係在提供一種顯示面板及其時間多工驅動方 法,其係更可利用信號控制方式達到插灰效果。 、根據上述目的,本發明提出一種顯示面板,其係包括互相垂直之 複數條2描線與複數條資料線,包含有—第_掃描線與—第二掃描線 以及-第-資齡;並有複數晝素分财接掃描線與資料線,每一畫 ,包含-第-子畫素及-第二子晝素,此第—子畫素包含—開關與一 第晝素電極’该開關文第一掃描、線之控制,以選擇性地自第一資料 線傳送:第-資料信號至第-畫素電極;此第二子畫素則包含一開關 組與-第二畫素電極,開關組受第一掃描線與第二掃描線之控制,以 選擇性地自第-資料線傳送—第二資料信號至第二晝素電極;此第一 貧料信號與第二資料信縣齡每_畫素之畫素雄,以藉此降低畫 素灰階之色彩偏差。 、配合上述之顯示面板架構,本發明亦提出一種時間多工驅動方 法’首先致能第-掃描線與第二掃描線;再輸人第二資料信號至第一 資料線’使第二資料親輸人至第—畫素電極與第二晝素電極,而後 ,二掃描線;接著輸入第一資料信號至第一掃描線,使第一資料 k號輸入至第-晝素電極後即可失能第一掃描線,如此即完成第一子 晝素與第—子4素之驅動。以此娜,其餘像素之二子像素亦以相同 方式進行驅動。 再者,本發明之驅動方法更可同時達到低色彩偏移與插灰之效 果,該驅動方法係在第-子圖框時,依序致能每一掃描、線,使該第二 資料信號輸人至第-畫素電極與第二畫素電極,重複此步驟直至所有 偶數子,素寫人資料為止;接著在第二子_時,依序致能每一掃描 線,使第一資料仏號輸入至第一晝素電極以取代第二資料信號,重複 7 200828248 此步驟直^所有奇數子晝素寫人資料為止。 當更容易瞭解本 底下藉由具體實糊配合所附的圖式詳加說明 發明之目的、技術内容、特點及其所達成之功效。 【實施方式】 豆出之種以時間多工驅動之顯示面板及其驅動方法乃, 二⑤丨ΓΤγ素區分為二個子晝素,並配合共用資料線的驅動方式, 二祖ΓΛ效果以及降低彩色偏移之目的,並可較先前技術使用較少 的貝料線,進而達到降低成本之功效者。 月’閱第3圖所不’如圖所示,圖巾顯示本發明之麵示面板的 驅電路^伤不意圖,在此液晶顯示面板上係設置有複數條掃描線y 二Sm ’以及複數條資料線DL1〜Dm,且資料線DL1〜Dm係與該些 掃描線S—1〜Sm互相垂直者。底下係以第一資料線DU以及第一掃描 線S1、第一掃描線S2與第三掃描線S3以及其中之畫素2〇、22、24 為例來詳細綱本發明之精神,其巾每—晝素2G、22、24係顯示一 畫素灰階,且每-晝素20、22、24的晝素灰階是由兩個子晝素所顯 示的灰階所組成者。200828248 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a display panel, and more particularly to a device ([丨:=(1) is a purely lacking and moving method of the purchase of Shijiang: The device is usually controlled by an active matrix drive circuit to control its operation. In the dynamic matrix liquid crystal display panel, each cell has a thin as a control switch, and its gate is connected to a horizontal scan line, 汲, (4) crystal electrode. The display panel can initiate a horizontal scan: =: All thin-film transistors are turned on, and through the vertical; to;: :: prime, mask transistor, until the next time to re-write the bed spleen: (10) line drawing, domain data line input The data signal is in the corresponding element; so busy because of the traditional driving method • By “rewriting the recording pressure”, the middle side of the Π 供给 供给 供给 供给 供给 供给 相对 相对 相对 相对 在 在 在 在 在 在 在 在 在 在 在The optical display I see is 1. I. For the positive viewing angle of the LCD, the panel does not have the color threshold to produce color shift problems, especially the two =: (Twisted Nematie If color * offset problem in the twist direction Column Weijing display has The problem is more serious in the silk display. (Stealing ^ 丨 1, abbreviated as the first phase of the disturbance, ^ Branch to plant a low color offset omnibus architecture, two = [divide each 昼 1 The first sub-picture Μ and the second: the first sub-chamber: the alizarin 10 series connects two scanning lines S1, S2 and - data line DL1, „ S2 ; ^tAJ S1 ^ A2 104, and i (four) t has two electric The crystal switch, the first switch 102 and the second switch are controlled by the scan line and the second scan line S2 selectively 5 200828248, respectively, the self-data, the DL1 transmission trusts the second data Wei to the first The sub-alkaline A1 and the first sub-halogen A2, and the gamma resistance values of the first sub-alliant A1 and the second sub-pixel A2 are different, and the gamma curve of the first sub-success is (7)(10)c_) Under the gamma target value <GammaZ2 value>, the gamma curve of the second sub-element ^ is above the optimal value. When the first scanning line S1 is enabled, the signal is used for the first-sub-alkaline A1 The voltage is charged, and when the second scan line S2 is enabled, the voltage of the second sub-halogen A2 is charged using gamma2^, so that the first sub-pixel A1 of the pixel 1〇 is The brightness of the second sub-pixel A2 is different, but the mixed color is still maintained at the gamma pressure value <Gamma 2·2 value>, so that the effect of reducing the color shift can be achieved by this. When operating under the architecture of Figure 1, since the 60Hz frame is raised to ^Ι20ΗΖ', it will be divided into two sub-frames. Please also refer to the & figure, in the first sub-frame, The broom lines S1 and S2 can be bounced so that the voltage of the gamma1 of the first sub-pixel A1 and the first pixel A2 are the same, and when the disabling scan lines si, s2, and the field lines S3 and S4 are simultaneously drawn, The voltage of the first 12-sub-Binus B1 and the second sub-tendin charge gammf2, since the gammal curve is smaller than gamma2, the gray-scale picture can be displayed in the lower limit of the picture = middle = segment __, thereby displaying When inserting the gray effect t-th sub-frame, please also refer to the picture 2b, and enable the scanning of the voltage of gamma2 in the current S2 and the voltage of 1,^^-sub-alloy A2 and B2. The effects of mixing gamma1/ganima2 in the sputum 1 〇 and 12 are used to achieve the effect of low color shift. According to the description of the sound, the design of each of the 昼 划分 划分 虽然 虽然 虽然 # # # f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f f . In view of this, the present invention proposes a face-to-face display method to simultaneously improve the defects existing in the prior art. The main object of the present invention is to provide a display panel and a time multiplex drive 6 200828248 method, which can reduce the lateral viewing angle color shift and present the best complete color gradation without additional cost. Take the most healthy slaves, and improve the quality of the miscellaneous. Another object of the present invention is to provide a display panel and a time multiplex driving method thereof, which are more capable of achieving a gray insertion effect by means of signal control. According to the above object, the present invention provides a display panel comprising a plurality of lines 2 and a plurality of data lines perpendicular to each other, including a -th scan line and a second scan line and -the first age; The plurality of pixels are connected to the scan line and the data line, and each picture includes a -th-sub-pixel and a second child element, and the first-sub-pixel includes - a switch and a second element electrode. First scanning, line control, for selectively transmitting from the first data line: a first-data signal to the first-pixel element; the second sub-pixel includes a switch group and a second pixel electrode, the switch The group is controlled by the first scan line and the second scan line to selectively transmit from the first data line - the second data signal to the second pixel electrode; the first poor material signal and the second data letter county age _ Picture of the picture of the prime, in order to reduce the color deviation of the gray scale of the picture. In conjunction with the above display panel architecture, the present invention also proposes a time multiplexing driving method of 'first enabling the first scan line and the second scan line; and then inputting the second data signal to the first data line' to make the second data pro Inputting to the first pixel electrode and the second halogen electrode, and then, the second scan line; then inputting the first data signal to the first scan line, so that the first data k number is input to the first halogen element and then lost The first scan line can be enabled, thus completing the driving of the first sub-prime and the first sub-primary. In this way, the two sub-pixels of the remaining pixels are also driven in the same manner. Furthermore, the driving method of the present invention can achieve the effects of low color shift and ash insertion at the same time. The driving method is to enable each scan and line in sequence to make the second data signal in the first sub-frame. Input the first pixel element to the second pixel electrode, repeat this step until all the even numbers are written by the person; then in the second sub_, sequentially enable each scan line to make the first data The apostrophe is input to the first halogen electrode to replace the second data signal, and repeats 7 200828248. This step is straightforward until all odd-numbered sub-studies are written. It is easier to understand the purpose of the invention, the technical content, the features and the effects achieved by the detailed drawings. [Embodiment] A display panel driven by time and multiplexed by a bean, and a driving method thereof, the two 丨ΓΤ γ γ are divided into two sub-small elements, and are driven by a common data line, the effect of the second ancestor and the color reduction. The purpose of the offset, and the use of fewer shells than the prior art, to achieve cost reduction. As shown in the figure, the figure shows the drive circuit of the face panel of the present invention. The liquid crystal display panel is provided with a plurality of scanning lines y 2 Sm ' and plural The strip data lines DL1 to Dm, and the data lines DL1 to Dm are perpendicular to the scan lines S-1 to Sm. The bottom of the present invention is based on the first data line DU and the first scanning line S1, the first scanning line S2 and the third scanning line S3, and the pixels 2〇, 22, 24 therein as an example. - The alizarin 2G, 22, and 24 series display a pixel gray scale, and the alizarin gray scale of each of the alizanes 20, 22, and 24 is composed of the gray scales displayed by the two sub-tenucine.
如第3圖所示,在此顯示面板中,一第一畫素2〇係分為二個子晝 素,第一子畫素201與第二子晝素202,第一子晝素201係連接第一 掃描線S1與第一資料線DL1,且第一子晝素2〇1係包含一開關,薄 膜電晶體203以及一第一晝素電極207,薄膜電晶體203受第一掃描 線si之控制選擇性地自第一資料線DL1傳送第一資料信號A1至第 一晝素電極207 ;第二子晝素202係分別連接第一掃描線S1、第二掃 描線S2與資料線DL1,此第二子晝素202包含一開關組204,二薄 膜電晶體205及206,以及一第二晝素電極208,此開關組204受第 一掃描線S1與第二掃描線S2之控制而選擇性地自第一資料線DL1 傳送弟二資料信號A2至第二晝素電極208。同樣地,一第二晝素22 係分為二個子晝素,第一子晝素221與第二子晝素222,第一子晝素 8 200828248 • 221係連接第二掃描線S2與第一資料線DL1,且第一子畫素221包 含一開關’薄膜電晶體223 ’以及一第一畫素電極227,此薄膜電晶 體223受第二掃描線S2之控制選擇性地自第一資料線DL1傳送第三 資料k號B1至第一畫素電極227 ;第二子晝素222係分別連接第二 描線S2、第三掃描線S3與資料線DL1,其係包含一開關組224,二 薄膜電晶體225及226,以及一第二晝素電極228,此開關組224受 - 第二掃描線S2與第三掃描線S3之控制而選擇性地自第一資料線Du 傳送弟四資料信號B2至弟二畫素電極228。一第三書素24亦分為二 / 個子晝素,第一子晝素241與第二子畫素242,第一子畫素241係連 ( 接第三掃描線S3與第一資料線DL1,且第一子畫素241包含一開關, 薄膜電晶體243,以及一第一畫素電極247,此薄膜電晶體243受第 三掃描線S3之控制選擇性地自第一資料線[^1傳送第五資料信號C1 至第-畫素電極247 ;第二子畫素242係分別連接第三掃描線S3、第 四掃描線S4與資料線DL1,其係包含一開關組244,二薄膜電晶體 245及246,以及一第二晝素電極248,此開關組244受第三掃描線 S3與第四掃描線S4之控制而選擇性地自第一資料線Du傳送第六資 料信號C2至第二畫素電極248中。 /'、 其中,第一資料信號A1、第二資料信號A2、第三資料信號B1、 %第四貧料信號B2、第五資料信號C1及第六資料信號C2…等資料信 -號係分_簡示每—該子畫素之細,進而使每-晝細示畫素灰 階,以降低該畫素灰階之色彩偏差;再者,帛一子晝素2〇1、221、州 係^別位於第-掃描線S1、第二掃描線S2、第三掃描線S3之上側, 且第一t旦一素202、222、242係分別位於第一掃描線S1、第二掃描 線S2、第三掃描線S3之下側,使得每一個畫素2〇、22、中之二 ίί素I拥—條掃描線即可,如此即可避免習知因畫素分成二個ϊ 畫素而導致掃描線增加之窘境。 、’貝口之帛t素20中’第-子晝素2〇1之作動係由薄膜電晶 9 200828248 體203作為控制開關,薄膜電晶體2〇3之間極係電性連接至第一掃描 線si ’第-源/汲極與第二源/汲極則分別連接第一資料線Du與第: 電極207’第一子晝素202之作動係由開關組2〇4作為控制開關, 溥膜電晶體205包括第-間極、第—源/沒極與第二源/沒極,且薄膜電 9ης_ A6亦匕括第一間極、第二源/汲極與第四源/汲極,薄膜電晶體 二極係連接第一掃描線S1 ’第一源/汲極與第二源/汲極則 :別連接弟-諸線DL1與薄膜電晶體之第三源/汲極,且其第 連ί至第二婦描線s2 ’且第四源/汲極連接第二畫素電極 225 : ’弟一畫素22中之二子畫素221、222與薄膜電晶體223、 ^連接關係,以及第三晝素24中之二子畫素241、242盥 晶體243、245、246之連接關係,其原理皆與As shown in FIG. 3, in the display panel, a first pixel 2 is divided into two sub-pixels, and the first sub-pixel 201 is connected to the second sub-pixel 202, and the first sub-pixel 201 is connected. The first scan line S1 and the first data line DL1, and the first sub-cell 2〇1 includes a switch, a thin film transistor 203 and a first halogen electrode 207, and the thin film transistor 203 is subjected to the first scan line si Controlling to selectively transmit the first data signal A1 to the first pixel electrode 207 from the first data line DL1; the second sub-salm 202 is connected to the first scan line S1, the second scan line S2, and the data line DL1, respectively The second sub-salvin 202 includes a switch group 204, two thin film transistors 205 and 206, and a second halogen electrode 208. The switch group 204 is selectively controlled by the first scan line S1 and the second scan line S2. The second data signal A2 to the second halogen electrode 208 are transmitted from the first data line DL1. Similarly, a second halogen 22 is divided into two sub-halogens, a first sub-halogen 221 and a second sub-halogen 222, and the first sub-salm 8 200828248 • 221 is connected to the second scan line S2 and the first The data line DL1, and the first sub-pixel 221 includes a switch 'thin film transistor 223' and a first pixel electrode 227. The thin film transistor 223 is selectively controlled from the first data line by the second scan line S2. DL1 transmits the third data k number B1 to the first pixel electrode 227; the second sub-halogen 222 is connected to the second trace S2, the third scan line S3 and the data line DL1, respectively, which comprises a switch group 224, a second film The transistors 225 and 226, and a second halogen electrode 228, the switch group 224 is selectively controlled by the second scan line S2 and the third scan line S3 to selectively transmit the fourth data signal B2 from the first data line Du. The second pixel is 228. The third book 24 is also divided into two sub-small elements, the first sub-salm 241 is connected to the second sub-pixel 242, and the first sub-pixel 241 is connected to the third scan line S3 and the first data line DL1. And the first sub-pixel 241 includes a switch, a thin film transistor 243, and a first pixel electrode 247. The thin film transistor 243 is selectively controlled from the first data line by the third scan line S3. The fifth data signal C1 is transmitted to the first pixel element 247; the second sub-pixel 242 is connected to the third scan line S3, the fourth scan line S4 and the data line DL1, respectively, and includes a switch group 244, Crystals 245 and 246, and a second halogen electrode 248. The switch group 244 is selectively controlled by the third scan line S3 and the fourth scan line S4 to selectively transmit the sixth data signal C2 from the first data line Du. In the two pixel electrodes 248, /', wherein, the first data signal A1, the second data signal A2, the third data signal B1, the fourth poor material signal B2, the fifth data signal C1, and the sixth data signal C2... The information letter-number is divided into _ simplifies each of the sub-pixels, and then each 昼 昼 画 画 画 画 画 画 画 画 画 画 画 画 昼 昼 昼 昼 昼 昼 昼 昼The color deviation; in addition, the first sub-single 2〇1, 221, the state system is located on the upper side of the first scan line S1, the second scan line S2, the third scan line S3, and the first t-denier 202, 222, and 242 are respectively located on the lower side of the first scan line S1, the second scan line S2, and the third scan line S3, so that each pixel 2, 22, and the second scan line That is to say, this can avoid the dilemma that the scanning line is increased due to the fact that the pixel is divided into two 画 pixels. The function of the 第-子昼素2〇1 is made by the film.晶晶 9 200828248 body 203 as a control switch, the thin film transistor 2 〇 3 between the pole is electrically connected to the first scan line si 'the first source / drain and the second source / drain are respectively connected to the first data line Du and the first electrode of the electrode 207' are operated by the switch group 2〇4 as a control switch, and the diaphragm film 205 includes a first-pole, a first source/dipole and a second source/no-pole. And the thin film electric 9ης_A6 also includes a first interpole, a second source/drain and a fourth source/drain, and the thin film transistor is connected to the first scan line S1 'first source/dip The second source/dip pole: do not connect the younger-line DL1 with the third source/drain of the thin film transistor, and its ί to the second line s2' and the fourth source/dual connection to the second picture Prime electrode 225: 'the two sub-pixels 221, 222 of the second pixel 22 and the thin film transistor 223, ^ connection relationship, and the second sub-pixel 24, 242, 243, 243, 245, 246 of the third halogen 24 Connection relationship, the principle is
故於此不再重複贅述。 一J 其令,上述之薄膜電晶體2()3、205、206、223、225、226、243、 245、246等係可為ρ型場效電晶體或是Ν型場效電晶體。 閱第社祕結構之後,接魏财作鱗賴,請參 Ξ &與%之掃鱗敍朗應之晝素、 板中每制雜第3®及第4 ®卿,綠晶顯示面 Γ多工驅動方法包括:於她段了彳中,先致能第 於入幻,以開啟細電晶體2G3、205、206, Μ至第一資料線DU,此時第二資料信號A2會輸 旦素電極207、第二畫素電極2Q8與第 再於時間區段T2中,失第 -素书極227中’ 206,並於入笛-Γ 線以關閉薄膜電晶體2〇5、 =亚輪=弟1料信號A1至第—資料線du,使第 A1寫入韻-晝素電極2Q7中 、"口儿 丁3時,則尖# M — 代弟—貝枓^旒A2。在時間區段 線%盥第關閉薄膜電晶體203,且致能第二掃描 5入第糾細啟触^體223备226、243, 乂輸入弟四咖號日2至第—嶋Du,使細細議2輸入 200828248 至第晝素電極227、第二畫素電極228、第-畫素電極247中;再 ^間區&丁4中’失能第三掃描線S3來關閉薄膜電晶體225、226 二:欠膜,晶體243 ’以輪入第三資料信號B1至第一掃描線DL1,使第 :二,#υΒ1寫人至第二畫素22之第—畫素電極227中而取代第四 ·而後再失此弟二掃描線S2。以此類推,即可控制此液 晶顯^板巾之所有晝素產生作動。 夂Ϊ然,上,之時間多工驅動方法更可達到插灰的效果者:請同時 :f第:圖及第5(句圖所示,在第一子圖框時,先致能第一掃描線別 二^ =知描線S2 ’開啟薄膜電晶體2〇3、2〇5、2〇6、223,以輸入第 :貝料㈣Α2—至第一資料線DU,使第二資料信號Α2輸入至第一畫 ^電極207、第二晝素電極208與第一畫素電極227 ;再失能第一& 把線31 ’同時致能第二掃描線32與第三掃描線%,開啟薄膜電晶體 225、226、243,使第四資料信號B2輸人至第-晝素電極227、 第—ί素電極228與第—晝素電極247 ;依序致能每—掃描線,控制 有苐子旦素202、222、242的開關組2〇4、224、244可根據掃 描線S1〜—S4而依序開啟,使第二子晝素分綱上述之時間多工驅動 ^法健人每個子畫素本射晴所屬的電壓,直至所有的偶數的第二子 ,素寫入資料為止。相對地,在第二子圖框時,請同時參閱第3圖及 第5(b)圖所示,先致能第一掃描線S1,以輸入第一資料信號刎至第 -貢料^DL1,進而輸人至第_畫素電極2Q7中;再失能第一掃描線 S1 ’致能第二掃描線S2,以輸入第三資料信號B1至第一掃描線Du, ,第三=料信號B1輸人至第—録電極227;錢上述步驟直至所有 二數^第-子晝素寫人資料為止。其中,上述之第二資料信號A2及 第四資料信號B 2翻以顯示第-畫素灰階,第—資料信號μ及第三 讀㈣B1伽以齡第二晝素灰階,由於第—晝素灰階係小於該第 —旦素灰1¾,使所有偶數之第二子晝素顯示較小灰階,所有奇數之第 -子畫素顯示較大之灰階,使每-畫侧顯示畫素灰階,故可達到顯 11 200828248 不插灰之效果者。此外,由於控制第一子畫素2〇1、221、24 ,曰曰體203、22、243可根據掃描線S1〜S3之致能而依序開啟,传 第一子畫素201、221、241可藉由時間多工驅動方法儀入每個子畫素 =所屬之相龍壓信號A1、B1、C1,如此即可在不增加掃描之 月·』提下,同時達到低色彩偏移及插灰之較佳效果。 ^再ΐ ’除了第3圖之實施例之外,本發明更具有不同之實施例, =茶閱第6圖所示,其與第3圖之差異即在於酬組與每—晝素中之 弟二子畫素之連接關係有所差異;詳言之,在第—畫素2Q中,薄膜電 = 205^_閘極係連接薄膜電晶體2〇6之第三源/汲極,薄膜電晶 之弟i/汲極與第二源/汲極則分別連接第一資料、線DU與第 旦=極208,且薄膜電晶體2〇6之第二閘極係連接第一掃描線 帝及弟四源/沒極連接第二掃描線S2 ;同理,在第二晝素&中,薄 +Γ:,92251第一問極係連接薄膜電晶體226之第三源/汲極,薄膜 5之第一源6及極與第二源級極則分別連接第-資料線DL1 崎ς「旦素1極228,且薄膜電晶體226之第二閘極係連接第二掃描 S3,以此類推。其餘之連接關 1動方式自料3 w之實施例_,故於此科重複敘述。 中夕,本發社要係在不增加掃描朗前提下,另每一晝素 側::::素可共用掃描線’以便在不增加額外成本的前提下,降低 $ 6,、知偏移’主現取佳的完整色階,以符合例如Gamma 2.2值的 以有效提升顯示面板之色彩呈現品f。再者,更可配合信號控 制方式’同時達到插灰效果與低色彩偏移之效用者。 在传^戶 =述之實施例僅係為說明本發明之技術思想及特點,其目的 以之技藝之人士能夠瞭解本發明之内容並據以實施,當不能 【圖社發狀糊範圍内。 12 200828248 第1圖為習知面板可降低彩色偏移之驅動電路示音· 第2a圖及第2b圖分別為第1圖之晝素作動的°。 苐3圖為本發明之顯示面板的電路示意圖。 ° 第4圖為本發明在驅動液晶顯示面板上之畫素作動的時 第6圖為本發明之另一實施例的電路示意圖。 【主要元件符號說明】 10'12晝素 102、122第一開關 104、124第二開關 202第二子畫素 204開關組 206薄膜電晶體 208第二畫素電極 20第一晝素 201第一子晝素 203薄膜電晶體 205薄膜電晶體 207第一晝素電極 22第二晝素 221第一子晝素 223薄膜電晶體 225薄膜電晶體 227第一晝素電極 24第三晝素 222第二子晝素 224開關組 226薄膜電晶體 228第二晝素電極 241第一子晝素 242第二晝素 13 200828248 - 243薄膜電晶體 245薄膜電晶體 247第一晝素電極 244開關組 246薄膜電晶體 248第二晝素電極Therefore, the details are not repeated here. In the above, the above-mentioned thin film transistors 2 () 3, 205, 206, 223, 225, 226, 243, 245, 246, etc. may be p-type field effect transistors or germanium type field effect transistors. After reading the social secret structure, pick up Wei Cai for the scales, please refer to the & and the sweeping scales of the syllabus of the syllabus, the 3® and 4th editions of the slabs in the plate, the green crystal display Γ The multiplex drive method includes: in her segment, the first to enter the illusion, to open the fine crystal 2G3, 205, 206, to the first data line DU, the second data signal A2 will be lost The element electrode 207, the second pixel electrode 2Q8 and the second time period T2, lose the '206 in the first-substrate pole 227, and enter the flute-Γ line to close the thin film transistor 2〇5, = sub-wheel =Different 1 material signal A1 to the first data line du, so that the first A1 is written into the rhyme-昼素 electrode 2Q7, "口儿丁3, then the tip # M —代弟-贝枓^旒A2. The thin film transistor 203 is turned off at the time segment line % ,, and the second scan 5 is enabled to enter the second correction 221, 243, 243, and the input of the fourth coffee number 2 to 嶋Du, so that 2 is input to 200828248 to the second element electrode 227, the second pixel electrode 228, and the first pixel electrode 247; and the third zone of the dissipative third scanning line S3 is turned off to close the thin film transistor. 225, 226 two: under-film, crystal 243' to enter the third data signal B1 to the first scan line DL1, so that the second: #υΒ1 writes to the first pixel 22 of the second pixel 22 Instead of the fourth, then the second scan line S2 is lost. By analogy, all the elements of the liquid crystal display can be controlled. Suddenly, the time multiplexed drive method can achieve the effect of inserting ash: Please also: f: map and 5 (sentence diagram, in the first sub-frame, first enable first Scanning line 2 = = Description line S2 'Open the thin film transistor 2〇3, 2〇5, 2〇6, 223 to input the first: beaker (4) Α 2 - to the first data line DU, so that the second data signal Α 2 input Up to the first picture electrode 207, the second pixel electrode 208 and the first pixel electrode 227; then disabling the first & the line 31' simultaneously enables the second scan line 32 and the third scan line %, opening the film The transistors 225, 226, and 243 cause the fourth data signal B2 to be input to the first-deuterium electrode 227, the first-electrode electrode 228, and the first-element-electrode electrode 247; the per-scan line is sequentially controlled to have a defect The switch groups 2〇4, 224, and 244 of the sub-deniers 202, 222, and 242 can be sequentially turned on according to the scan lines S1 to S4, so that the second sub-segment is divided into the above-mentioned time multiplexed driving method. The sub-pictures are the voltages of the originals, until all the even second parts are written into the data. In contrast, in the second sub-frame, please refer to the 3rd and 5th (also b) shown in the figure, the first scan line S1 is first enabled to input the first data signal 刎 to the first tribute ^DL1, and then input to the first pixel electrode 2Q7; and then the first scan line S1 is disabled. 'Enable the second scan line S2 to input the third data signal B1 to the first scan line Du, and the third = material signal B1 to the first to the record electrode 227; the above steps up to all the second number - the first sub The second data signal A2 and the fourth data signal B 2 are turned over to display the first-pixel gray scale, the first data signal μ and the third read (four) B1 gamma age second halogen. Gray scale, because the first-halogen gray scale system is smaller than the first-denier gray scale, so that all even-numbered second sub-dinals display a smaller gray scale, and all odd-numbered sub-pixels display a larger gray scale. The gray scale is displayed on each side of the picture, so that the effect of not inserting gray can be achieved. In addition, since the first sub-pixels 2〇1, 221, 24 are controlled, the bodies 203, 22, 243 can be According to the enabling of the scanning lines S1 S S3, the first sub-pixels 201, 221, and 241 can be input into each sub-pixel by the time multiplexing driving method. The phase pressure signal A1, B1, C1 can be raised without increasing the scanning month, and at the same time achieve the better effect of low color shift and ash insertion. ^ 再ΐ 'In addition to the embodiment of Fig. 3 In addition, the present invention has a different embodiment, as shown in Fig. 6 of the tea reading, and the difference from the third figure is that the connection relationship between the reward group and the two sub-pixels in each of the elements is different; In detail, in the first pixel 2Q, the thin film electricity = 205 ^ _ gate is connected to the third source / drain of the thin film transistor 2 〇 6, the thin film of the crystal crystal i / bungee and the second source / The bungee is connected to the first data, the line DU and the first=pole 208, respectively, and the second gate of the thin film transistor 2〇6 is connected to the first scan line and the fourth source/dimpole is connected to the second scan line S2. Similarly, in the second element &amp; thin + Γ:, 92251 the first source is connected to the third source / drain of the thin film transistor 226, the first source 6 of the thin film 5 and the second and second source The level poles are respectively connected to the first data line DL1, the rugged "1" pole 228, and the second gate of the thin film transistor 226 is connected to the second scan S3, and so on. The rest of the connection mode 1 is the same as the embodiment of the material 3, so it is repeated in this section. In the middle of the night, the hairdressing system should be based on the premise that the scanning is not added, and the other side of the element:::: can share the scanning line', so as to reduce the $6, know the offset without adding extra cost. 'The master now takes the best full color gradation to match the value of Gamma 2.2, for example, to effectively enhance the color rendering of the display panel. Furthermore, it can be combined with the signal control method to achieve both the effect of inserting gray and low color shift. The embodiments described herein are merely illustrative of the technical spirit and characteristics of the present invention, and those skilled in the art can understand the contents of the present invention and implement them according to the scope of the present invention. 12 200828248 Fig. 1 shows the display of the drive circuit for reducing the color shift of the conventional panel. The 2a and 2b are respectively the 昼 actuation of Fig. 1 . FIG. 3 is a circuit diagram of the display panel of the present invention. 45 is a schematic diagram of a circuit according to another embodiment of the present invention when the pixel driving operation of the liquid crystal display panel is driven by the present invention. [Main component symbol description] 10'12 halogen 102, 122 first switch 104, 124 second switch 202 second sub-pixel 204 switch group 206 thin film transistor 208 second pixel electrode 20 first pixel 201 first Zizi 203 thin film transistor 205 thin film transistor 207 first halogen electrode 22 second halogen 221 first sub-halogen 223 thin film transistor 225 thin film transistor 227 first halogen electrode 24 third halogen 222 second Zizi 224 switch group 226 thin film transistor 228 second halogen electrode 241 first sub-halogen 242 second halogen 13 200828248 - 243 thin film transistor 245 thin film transistor 247 first halogen electrode 244 switch group 246 thin film electric Crystal 248 second halogen electrode
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