200938900 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種液晶顯示器及液晶顯示面板,且 特別是有關於一種改善電阻電容負載效應及增加充電時 間之液晶顯示器及液晶顯示面板。 【先前技術】 隨著科技的急遽發展,資訊化漸漸普及於個人,因此 ❹各種資訊產品,如電視、電腦、行動電話、數位相機及個 人數位助理等均快速發展與成長。由於液晶顯示器具有薄 型化、輕量化、低耗電量、無輻射污染、且能與半導體製 程技術相容等優點,使其在短短數十年間,產品之應用即 呈飛躍性的成長。由早期的簡易手錶、計算機等低資訊容 量顯示產品的應用,漸漸擴及精細化的監視器或可攜式資 訊產品。 然而,隨著面板尺寸的增加,面板的電阻電容負載效 #1 應(RC Loading)及晝面更新率(Frame Rate)也隨之提高。 如此一來,將導致晝素的充電時間不足,而影響晝面品 質。因此,如何減少面板的電阻電容負載效應及提高晝素 的充電時間,即成為業界所急需解決的課題。 【發明内容】 本發明係有關於一種液晶顯示器及液晶顯示面板。 6 200938900 根據本發明,提出一種液晶顯示器 第一掃描驅動器、第二掃描 日日顯不器包括 動器、第二資料媒動器知線1線杳第—資料驅 择描線的-端_接至第-掃描料:畫素 的另一端係耦接至第二掃描驅動器。 11且知描線 資料績沾貝料線的端係耦接至第一資料驅動琴,且第 貝科線的另一端係不與掃描線重器且第- ❾ ❿ _至第二資料驅動器, =科線的一端係 第二資料線。第一資料線與第一 ,第—資料線及 ^動器與第二資_:=;==自 歹J同一行之不同晝素。 —素陣 根據本發明,提出一種液晶顯示面板 :括掃描線、第-資料線、第二資料線及畫素 耦接至第二掃描驅動器。動益㈣線的另-端係 次柢Γ —資料線的—端_接至第—=#料驅動器,且第 描線重叠。晝素陣列係姻至掃描=另:係不與掃 眘粗砼咕 伐主谉畑線、第—資料線及第二 資料線分別同時輪出來自第- -行之一素資料至畫素陣列同 為讓本發明之上述内容能更明顯易懂,下文特舉一較 200938900 佳實施例,並配合所附圖式,作詳細說明如下: 【實施方式】 Ο …請同時參照第!圖及第2圖,第!圖緣示係為液晶顯 不裔之方塊圖’第2圖繪示係為面板5Q之示意圖。液曰 顯示器1包括掃描驅動器10、掃描驅動器2〇、資料驅= 器30、資料驅動器40及液晶顯示面板5〇,且液晶顯示面 板50更包括晝素陣列510、掃描線52〇 (丨)至52〇 (μ)、 資料線530及資料線540。其中,M係正整數。 晝素陣列510包括多個晝素512且晝素陣列51〇係耦 接至掃描線520(丨)至520( Μ)、資料線53〇及資料線54〇。 掃描線520⑴至52〇⑷的—端係_至掃描驅動器 10,而另一端係耦接至掃描驅動器20。由於掃描驅動器 10及掃描驅動器20可同時個別輸出掃描驅動信號致能同 一列的晝素512,因此,液晶顯示器丨將能改善掃描驅動 信號於掃描線520 ( 1 )至520 (M)上的電阻電容負載效 應(RC Loading)及增加各畫素512的充電時間。 資料線530及資料線540的一端係分別耦接至資料驅 動器30及資料驅動器4〇,且資料線53〇與資料線54〇分 別同時輸出來自資料驅動器30與資料驅動器4〇之晝素資 料至晝素陣列510同一行之不同晝素512。其中,需特別 說明的是,資料線530及資料線540的另一端係不與掃描 線520 ( 1 )至52〇 (M)重疊。由於資料驅動器3〇及資料 驅動器40同時分別輸出畫素資料信號至液晶顯示面板51〇 8 200938900 上半部及下半部的畫素512,因此’液晶顯示器1將能改 善晝素資料信號於資料線530及資料線54〇上的電阻電容 負載效應及增加各畫素512的充電時間。不僅如此,由於 資料線530及資料線540的另一端係較佳地配置在不與掃 描線520 ( 1 )至520 (M)重疊交錯的區域,因此將能避 免造成電阻電容負載效應的變異而影響晝面品質。 為了更進一步地詳述掃描線及資料線的配置方式,下 述將以第一種配置方式至第七配置方式為例說明,然本發 ❹明並不侷限於此,本發明所屬技術領域中具有通常知識 者,在不脫離本發明之精神和範圍内,當可作各種之更動 與潤飾。 第一種配詈方式 請參照第3圖,其繪示係為掃描線及資料線的第一種 配置方式之示意圖。於第3圖中,資料線53〇及資料線54〇 〇的另一端係配於知描線52〇(|)及掃描線52〇(f + l)之間,且資 料線530及資料線540的另一端不與掃描線52〇 ( 1)至 520 (M)交錯。故此’將能避免造成電阻電容負载效應的 變異而影響畫面品質。 1二種配晉方式 掃描線及資料線的配置方式除了如第3圖績示外,亦 可如第4圖㈣。請參照第j圖,其繪示係為掃描線及資 200938900 料線的第二種配置方式之示意圖。掃描線及資料線的第二 種配置方式與第一種配置方式不同之處在於:資料線530 及資料線540的另一端係配於掃描線520(|)及掃描線 520(|-1)之間。 第三種配置方式 此外,掃描線及資料線的配置方式亦可如第5圖繪 ® 示。請參照第5圖,其繪示係為掃描線及資料線的第三種 配置方式之示意圖。掃描線及資料線的第三種配置方式與 第一種配置方式不同之處在於:資料線530及資料線540 的另一端係配於掃描線520(| +1)及掃描線520(f + 2)之間。 第四種配置方式 此外,掃描線及資料線的配置方式亦可如第6圖繪 示。請參照第6圖,其繪示係為掃描線及資料線的第四種 配置方式之示意圖。掃描線及資料線的第四種配置方式與 第一種配置方式不同之處在於:資料線530及資料線540 中的奇數資料線的另一端係位於掃描線520(|-1)及掃描線 52〇(|)之間,而資料線530及資料線540中的偶數資料線 的另一端係位於掃描線520(f)及掃描線520(| +1)之間。 200938900 第五種配置方式 此外,掃描線及資料線的配置方式亦可如第7圖繪 示。請參照第7圖,其繪示係為掃描線及資料線的第五種 配置方式之示意圖。掃描線及資料線的第五種配置方式與 第一種配置方式不同之處在於:資料線530及資料線540 中的偶數資料線的另一端係位於掃描線520(f-l)及掃描線 ® 520(1)之間,而資料線530及資料線540中的奇數資料線 的另一端係位於掃描線520(f)及掃描線520(f +1)之間。 第六種配置方式 此外,掃描線及資料線的配置方式亦可如第8圖繪 示。請參照第8圖,其繪示係為掃描線及資料線的第六種 配置方式之示意圖。掃描線及資料線的第六種配置方式與 ❿ 第一種配置方式不同之處在於:資料線530及資料線540 中的奇數資料線的另一端係位於掃描線520(f)及掃描線 52〇(|· + ι)之間,而資料線530及資料線540中的偶數資料線 的另一端係位於掃描線520(| + 1)及掃描線520(| + 2)之間。 第七種配豎方式 此外,掃描線及資料線的配置方式亦可如第9圖繪 11 200938900 示。請參照第9圖,其繪示係為掃描線及資料線的第七種 配置方式之示意圖。掃描線及資料線的第七種配置方式與 第一種配置方式不同之處在於:資料線530及資料線540 中的偶數資料線的另一端係位於掃描線520(4)及掃描線 52〇(|+i)之間,而資料線530及資料線540中的奇數資料線 的另一端係位於掃描線520(| +1)及掃描線520(| + 2)之間。 ^ 本發明上述實施例所揭露之液晶顯示面板及液晶顯 〇 示器,不僅能改善電阻電容負載效應且能增加各晝素的充 電時間。此外,資料線的另一端係較佳地配置在不與掃描 線交錯的區域,因此將能避免造成電阻電容負載效應的變 異而影響晝面品質。 綜上所述,雖然本發明已以一較佳實施例揭露如上, 然其並非用以限定本發明。本發明所屬技術領域中具有通 常知識者,在不脫離本發明之精神和範圍内,當可作各種 0 之更動與潤飾。因此,本發明之保護範圍當視後附之申請 專利範圍所界定者為準。 12 200938900 【圖式簡單說明】 第1圖繪示係為液晶顯示器之方塊圖。 第2圖繪示係為面板5〇之示意圖。 ❹ 之示意第圖3圖繪示係為掃描線及資料線的第—種配置方式 之示意第圖4騎示料掃描線及資料線的第二種配置方式 之示意第圖5圖㈣係騎描線及㈣線的第三種配置方式 之示意第圖騎描線及資料線的第四種配置方式 之示意第圖7圖繪示係為掃描線及資料線的第五種配置方式 之示意第圖8圖㈣麵料線及資料線的第六種配置方式 〇之示:t圖。&係為掃描線及資料線的第七種配置方式 【主要元件符號說明】 1 :液晶顯示器 20 ·掃插驅動器 40 ·資料驅動g °:液晶顯示面: 10:畫素陣列 13 200938900 512 :晝素 520 ( 1 )〜520 (Μ):掃描線 530、540 :資料線 ❹BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display and a liquid crystal display panel, and more particularly to a liquid crystal display and a liquid crystal display panel which have an effect of improving resistance and capacitance loading and increasing charging time. [Prior Art] With the rapid development of technology, information technology has gradually become more popular among individuals. Therefore, various information products such as televisions, computers, mobile phones, digital cameras and number of assistants have developed and grown rapidly. Due to its advantages of thinness, light weight, low power consumption, no radiation pollution, and compatibility with semiconductor process technology, the application of the liquid crystal display has grown dramatically in just a few decades. From the early use of low-information display products such as simple watches and computers, it has gradually expanded to sophisticated monitors or portable information products. However, as the panel size increases, the panel's RC loading and frame rate increase. As a result, the charging time of the alizarin will be insufficient, which will affect the quality of the noodles. Therefore, how to reduce the resistance and capacitance load effect of the panel and increase the charging time of the pixel has become an urgent problem to be solved in the industry. SUMMARY OF THE INVENTION The present invention relates to a liquid crystal display and a liquid crystal display panel. 6 200938900 According to the present invention, a liquid crystal display first scan driver, a second scan day display device, a second data medium, a line 1 line, a data drive line, and a terminal are provided. The first scanning material: the other end of the pixel is coupled to the second scanning driver. 11 and know that the end of the data line is coupled to the first data driving piano, and the other end of the first Becco line is not with the scanning line weight and the first - ❾ _ to the second data driver, = One end of the line is the second data line. The first data line and the first, the first data line and the actuator and the second capital _:=; == different from the same line of J. - Prime array According to the present invention, a liquid crystal display panel is provided: a scan line, a first data line, a second data line, and a pixel are coupled to the second scan driver. The other end of the Motivation (4) line is the second end — the end of the data line — the end — is connected to the first —=# material drive, and the first line overlaps. The alizarin array is married to scan = another: the system does not rotate with the sweeping and thinning main line, the first data line and the second data line, respectively, from the first line of the data to the pixel array In the same way, the above-mentioned contents of the present invention can be more clearly understood. The following is a detailed description of the preferred embodiment of 200938900, and with reference to the drawings, a detailed description is as follows: [Embodiment] Ο ... Please refer to the same! Figure and Figure 2, the first! The figure shows the block diagram of the liquid crystal display. The second figure shows the schematic diagram of the panel 5Q. The liquid helium display 1 includes a scan driver 10, a scan driver 2, a data drive 30, a data driver 40, and a liquid crystal display panel 5, and the liquid crystal display panel 50 further includes a pixel array 510 and a scan line 52 (丨) to 52 〇 (μ), data line 530 and data line 540. Among them, M is a positive integer. The pixel array 510 includes a plurality of halogen elements 512 and the pixel array 51 is coupled to scan lines 520 (丨) to 520 (Μ), data lines 53〇, and data lines 54〇. The scan lines 520(1) through 52(4) are terminated to the scan driver 20, and the other end is coupled to the scan driver 20. Since the scan driver 10 and the scan driver 20 can simultaneously output the scan drive signals to enable the same column of pixels 512, the liquid crystal display will improve the resistance of the scan drive signals on the scan lines 520 ( 1 ) to 520 (M). Capacitive load effect (RC Loading) and increase the charging time of each pixel 512. One end of the data line 530 and the data line 540 are respectively coupled to the data driver 30 and the data driver 4, and the data line 53 and the data line 54 are simultaneously outputted from the data driver 30 and the data driver 4 to the data. The pixel array 510 has different pixels 512 in the same row. Specifically, it should be noted that the other ends of the data line 530 and the data line 540 do not overlap with the scan lines 520 ( 1 ) to 52 〇 (M). Since the data driver 3 and the data driver 40 simultaneously output the pixel data signals to the pixels 512 of the upper half and the lower half of the liquid crystal display panel 51〇8 200938900, the liquid crystal display 1 can improve the data of the pixel data. The resistor-capacitor loading effect on line 530 and data line 54〇 increases the charging time of each pixel 512. Moreover, since the other ends of the data line 530 and the data line 540 are preferably disposed in an area that is not overlapped with the scan lines 520 ( 1 ) to 520 (M), it is possible to avoid variations in the resistance-capacitor load effect. Affect the quality of kneading. In order to further detail the arrangement of the scan lines and the data lines, the following description will be made by taking the first configuration to the seventh configuration as an example. However, the present invention is not limited thereto, and the present invention is in the technical field. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention. The first type of configuration refers to Figure 3, which shows a schematic diagram of the first configuration of the scan line and the data line. In FIG. 3, the other end of the data line 53A and the data line 54A are coupled between the known line 52〇(|) and the scanning line 52〇(f+1), and the data line 530 and the data line 540. The other end is not interleaved with scan lines 52 〇 (1) through 520 (M). Therefore, it will be able to avoid the variation of the resistance and capacitance load effect and affect the picture quality. 1 The two types of matching methods The scanning lines and data lines can be arranged in the same way as in Figure 3, as shown in Figure 4 (4). Please refer to the figure j, which shows a schematic diagram of the second configuration of the scan line and the 200938900 material line. The second configuration of the scan line and the data line is different from the first configuration in that the other ends of the data line 530 and the data line 540 are coupled to the scan line 520 (|) and the scan line 520 (|-1). between. The third configuration method In addition, the scanning line and data line can be configured as shown in Figure 5. Please refer to FIG. 5, which is a schematic diagram showing a third configuration manner of scanning lines and data lines. The third configuration of the scan line and the data line is different from the first configuration in that the other end of the data line 530 and the data line 540 are coupled to the scan line 520 (| +1) and the scan line 520 (f + 2) Between. The fourth configuration mode In addition, the configuration of the scan lines and data lines can also be as shown in Figure 6. Please refer to FIG. 6 , which is a schematic diagram showing a fourth configuration manner of scanning lines and data lines. The fourth configuration of the scan line and the data line is different from the first configuration manner in that the other end of the odd data line in the data line 530 and the data line 540 is located on the scan line 520 (|-1) and the scan line. Between 52 〇 (|), the other end of the even data line in the data line 530 and the data line 540 is located between the scan line 520 (f) and the scan line 520 (| +1). 200938900 The fifth configuration mode In addition, the scanning line and data line can be configured as shown in Figure 7. Please refer to FIG. 7 , which is a schematic diagram showing a fifth configuration manner of scanning lines and data lines. The fifth configuration of the scan line and the data line is different from the first configuration manner in that the other end of the even data line in the data line 530 and the data line 540 is located on the scan line 520 (fl) and the scan line ® 520. Between (1), the other end of the odd data line in the data line 530 and the data line 540 is located between the scan line 520 (f) and the scan line 520 (f +1). The sixth configuration mode In addition, the configuration of the scan lines and data lines can also be as shown in Figure 8. Please refer to FIG. 8 , which is a schematic diagram showing a sixth configuration manner of scanning lines and data lines. The sixth configuration of the scan line and the data line is different from the first configuration manner in that the other end of the odd data line in the data line 530 and the data line 540 is located on the scan line 520 (f) and the scan line 52. Between (|· + ι), the other end of the even data line in the data line 530 and the data line 540 is located between the scan line 520 (| + 1) and the scan line 520 (| + 2). The seventh type of vertical mode In addition, the configuration of the scan line and data line can also be as shown in Figure 9 11 200938900. Please refer to FIG. 9 , which is a schematic diagram showing a seventh configuration manner of scanning lines and data lines. The seventh configuration of the scan line and the data line is different from the first configuration in that the other end of the even data line in the data line 530 and the data line 540 is located on the scan line 520 (4) and the scan line 52. Between (|+i), the other end of the odd data line in the data line 530 and the data line 540 is located between the scan line 520 (| +1) and the scan line 520 (| + 2). The liquid crystal display panel and the liquid crystal display disclosed in the above embodiments of the present invention can not only improve the resistance-capacitance load effect but also increase the charging time of each element. In addition, the other end of the data line is preferably disposed in an area that is not interleaved with the scanning line, so that variations in the resistance-capacitor load effect can be avoided to affect the quality of the surface. In view of the above, the present invention has been disclosed in a preferred embodiment, and is not intended to limit the present invention. Those skilled in the art having the knowledge of the present invention can make various changes and modifications without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. 12 200938900 [Simple description of the diagram] Figure 1 shows a block diagram of a liquid crystal display. Figure 2 is a schematic diagram showing the panel 5〇. Figure 3 is a schematic diagram showing the first configuration of the scanning line and the data line. Figure 4 is a schematic diagram of the second configuration of the scanning line and the data line. Figure 5 (4) Schematic diagram of the third configuration of the trace line and the (four) line. FIG. 7 is a schematic diagram showing the fifth configuration of the scan line and the data line. FIG. Figure 8 (4) The sixth configuration of the fabric line and the data line: t. & is the seventh configuration of the scan line and data line [main component symbol description] 1 : liquid crystal display 20 · sweep driver 40 · data drive g °: liquid crystal display surface: 10: pixel array 13 200938900 512:昼素520 (1)~520 (Μ): scan line 530, 540: data line ❹
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