CN104375343B - 一种阵列基板和液晶显示面板及其驱动方法 - Google Patents
一种阵列基板和液晶显示面板及其驱动方法 Download PDFInfo
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Abstract
本发明公开了一种阵列基板和液晶显示面板及其驱动方法。该阵列基板上包括有多个像素单元,每一像素单元包括主区电极和次区电极以及分享电容。其中连接分享电容与次区电极的分享控制开关的控制端通过一控制开关连接从本像素单元起沿扫描方向排列的第N个像素单元对应的扫描线。该控制开关配置成在二维扫描模式下至少当其连接的扫描线上有扫描信号时导通,以及在三维扫描模式下至少当其连接的扫描线上有扫描信号时截止。本发明提供的液晶显示面板既能够在二维扫描模式下避免大视角色偏现象,又能够在三维扫描模式下改善左右眼亮度差。
Description
技术领域
本发明涉及液晶显示技术,尤其涉及一种能够改善左右眼亮度差异的阵列基板和液晶显示面板及其驱动方法。
背景技术
相较于传统的二维平面显示技术,三维立体成像技术能够提供更加生动的立体影像,因此成为当前显示技术发展的主流方向。液晶显示装置因其外型轻薄、低耗电量和无辐射污染等优点已成为当前各个行业乃至家庭娱乐显示的主流配置。因此在原二维平面显示技术基础上拓展开来的三维立体成像液晶显示装置也成为了新的发展热点。
目前较为常见的三维立体成像技术是快门眼镜(shutter glasses)技术。该技术采用时间分割效应,让三维眼镜的左眼镜片和右眼镜片轮流依序开关:当右眼镜片打开时,液晶显示装置同时输出提供给右眼的影像;当左眼镜片打开时,液晶显示装置同时输出提供给左眼的影像,然后藉由左右眼视角的角度差异,影像观看者在脑中将左右眼的影像迭合为具有景深及层次感的三维立体影像。
液晶显示装置通常采用交流方式驱动液晶分子旋转,通过改变液晶分子的旋转角度来实现不同灰阶的影像显示。这是因为,如果采用直流方式驱动液晶分子旋转,液晶分子内的移动离子会朝着同一方向移动,进而产生另一电场而影响液晶分子的转向,也即出现直流残留现象。为了避免这种直流残留现象影响画面的显示质量,液晶显示通常通过改变影像信息数据信号的正负极性,使作用于像素单元像素电极上的电压周期性地变化。但是对于与快门眼镜联合工作的三维液晶显示面板而言,如果采用单帧极性反转驱动方法改变影像信息数据信号的正负极性,还是会出现类似直流残留的电荷残留,进而引发三维残影现象(IS)。
假设一个256灰阶显示的液晶显示装置,呈现透光的亮画面(255阶的白画面)记为L255,呈现不透光的暗画面(0阶的黑画面)记为L0。白画面的正负极性驱动电压分别为7V和5V,黑画面的正负极性驱动电压分别为1V和11V,共同电极电压为6V。那么对于面板中的某一个像素电极,其上的电压以及该电压与共同电极电压的差值的变化情况如下表表一所示。
表一
从表一可知,在这种情况下,像素电极上相对于共同电极的电压差会在1V和5V之间变化。也即,在正极性驱动期间内作用于液晶上的电压为1V;在负极性驱动期间内作用于液晶上的电压为5V。由于正、负极性驱动期间内作用于液晶上的电压相差太大,且始终为正极性,不能相互抵消,因此长时间工作后该点会有类似直流残留的电荷残留,从而引发三维残影现象。
为避免出现三维残影现象,现有技术中多采用双帧影像极性反转驱动方法改变影像信息数据信号的正负极性。由于数据信号的极性每两帧才会翻转一次,因此像素电极上的电压以及该电压与共同电极电压的差值的变化情况如下表表二所示。
表二
从表二可知,在这种情况下,像素电极上相对于共同电极的电压差会在1V→-5V→-1V→5V之间反复循环。也即,在正极性驱动期间内作用于液晶上的电压为1V和-5V;在负极性驱动期间内作用于液晶上的电压为-1V和5V。正、负极性驱动期间内像素电极上相对于共同电极的电压差互相补偿,因此不会出现残影现象。但是在这种情况下又会衍生出左右眼亮度不均的问题。特别是对于采用电荷分享技术(LCS)改善色偏现象的液晶显示面板而言,这种现象尤为突出。这是因为,为了改善大视角色偏现象,液晶显示面板中的像素单元的像素电极通常会分成主区(Main)和次区(Sub)两个部分,并且设置分享电容,以在控制信号的作用下重新分配主区和次区上的电荷,改变主区和次区上的电压。由于分享电容对电荷有存储功能,因此当分享电容在新一帧影像期间所获得的电荷与前一帧影像期间所存储的电荷极性相同时,因为电荷累积效果,新一帧影像会相对较亮;反之,当分享电容在新一帧影像期间所获得的电荷与前一帧影像期间所存储的电荷极性相反时,因为电荷相互抵消,新一帧影像会相对较暗。故而当输入同样的数据信号(例如下表表三中的输入讯号L255),以双帧影像极性反转驱动方式工作的液晶显示面板输出的左眼影像的亮度始终比右眼影像的亮度低。
表三
针对上述问题,本发明的发明人经过反复的实验和探索,提出了一种新的能够改善左右眼亮度差异的阵列基板和液晶显示面板及其驱动方法。
发明内容
基于上述原因,本发明的目的是提供一种新的阵列基板和液晶显示面板及其驱动方法。该阵列基板和液晶显示面板既能够在二维扫描模式下克服大视角色偏现象,又能够在三维模式下改善左右眼亮度差问题。
本发明提供一种阵列基板,其包括:
多条扫描线和多条数据线;
配置在由所述多条扫描线和多条数据线交错而成的阵列中的多个像素单元,每一所述像素单元对应一所述扫描线和一所述数据线,并包括:
主区电极,其通过主区控制开关连接对应的数据线,所述主区控制开关的控制端连接对应的扫描线,以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有主区电压;
次区电极,其通过次区控制开关连接对应的数据线,所述次区控制开关的控制端连接对应的扫描线,以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有次区电压;
分享电容,其通过分享控制开关连接所述次区电极,所述分享控制开关的控制端通过一控制开关与从本像素单元起沿扫描方向排列的第N个像素单元对应的扫描线连接;
其中,所述控制开关配置成根据接收的控制信号,在二维扫描模式下,至少在其连接的扫描线上有扫描信号时导通,从而具有电荷分享功能,以及在三维扫描模式下,至少在其连接的扫描线上有扫描信号时截止,从而关闭电荷分享功能。
根据本发明的一实施例,沿扫描方向,将每N-1条扫描线对应的像素单元所对应的控制开关归为一组;其中,奇数组控制开关的控制端连接一第一开关控制线,接收第一开关控制信号,并在其作用下导通或者截止,偶数组控制开关的控制端连接一第二开关控制线,接收第二开关控制信号,并在其作用下导通或者截止;其中,
在二维扫描模式下,所述第一开关控制信号和第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号同步,分别为奇脉冲序列信号和偶脉冲序列信号,且所述奇/偶脉冲序列信号的脉冲宽度等于所述扫描信号时长的N-1倍。
根据本发明的又一实施例,与奇数扫描线对应的像素单元所对应的控制开关的控制端并接在一第一开关控制线上,接收第一开关控制信号,并在其作用下导通或者截止,与偶数扫描线对应的像素单元所对应的控制开关的控制端并接在一第二开关控制线上,接收第二开关控制信号,并在其作用下导通或者截止;其中,
在二维扫描模式下,所述第一开关控制信号和第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号为同步但极性相反的脉冲序列信号,且所述脉冲序列信号的脉冲宽度等于所述扫描信号的时长;同时,如果N为奇数,所述第一开关控制信号为偶脉冲序列信号,如果N为偶数,所述第一开关控制信号为奇脉冲序列信号。
根据本发明的实施例,所述阵列基板上还设置有与所述扫描线一一对应的辅助线,各所述像素单元中的分享控制开关的控制端通过所述辅助线连接其对应的控制开关。
根据本发明的实施例,所述控制开关可以设置在扇出区。
根据本发明的实施例,所述主区控制开关、次区控制开关、分享控制开关以及控制开关均为薄膜开关晶体管。
此外,本发明还提供一种液晶显示面板,其包括:
上述阵列基板、彩色滤光基板以及位于所述阵列基板和彩色滤光基板之间的液晶层。
此外,本发明还提供上述液晶显示面板的驱动方法,包括二维扫描驱动步骤和三维扫描驱动步骤;其中,
所述二维扫描驱动步骤包括:
沿扫描方向依次向各扫描线输入扫描信号;
当一扫描线上有扫描信号时,使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而使主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压;同时控制与该扫描线连接的控制开关导通,从而使与该控制开关连接的分享控制开关导通,进而使该分享控制开关所在的像素单元实现电荷分享功能;
所述三维扫描驱动步骤包括:
沿扫描方向依次向各扫描线输入扫描信号;
当一扫描线上有扫描信号时,使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而使主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压;同时控制与该扫描线连接的控制开关截止。
根据本发明的一实施例,沿扫描方向,将每N-1条扫描线对应的像素单元所对应的控制开关归为一组,对奇数组的控制开关施以第一开关控制信号,对偶数组的控制开关施以第二开关控制信号;其中,
在二维扫描模式下,第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号同步,分别为奇脉冲序列信号和偶脉冲序列信号,且所述奇/偶脉冲序列信号的脉冲宽度等于所述扫描信号时长的N-1倍。
根据本发明的又一实施例,与奇数扫描线对应的像素单元所对应的控制开关的控制端施以第一开关控制信号,与偶数扫描线对应的像素单元所对应的控制开关的控制端施以第二开关控制信号;其中,
在二维扫描模式下,第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,第一开关控制信号与第二开关控制信号为同步但极性相反的脉冲序列信号,且所述脉冲序列信号的脉冲宽度等于所述扫描信号的时长;如果N为奇数,则第一开关控制信号为偶脉冲序列信号,如果N为偶数,则第一开关控制信号为奇脉冲序列信号。
本发明的其它特征和优点将在随后的说明书中阐述,并且,部分地从说明书中变得显而易见,或者通过实施本发明而了解。
附图说明
图1是本发明的阵列基板的局部等效电路图;
图2A是本发明实施例一的二维扫描模式下的时序控制信号图;
图2B是本发明实施例一的三维扫描模式下的时序控制信号图;
图3A是本发明实施例二的二维扫描模式下的时序控制信号图;
图3B是本发明实施例二的N为奇数时三维扫描模式下的时序控制信号图;
图3C是本发明实施例二的N为偶数时三维扫描模式下的时序控制信号图。
具体实施方式
为实现上述目的,本发明提出了一种新的阵列基板和液晶显示面板及其驱动方法。其中,阵列基板包括:
多条扫描线和多条数据线;
配置在由多条扫描线和多条数据线交错而成的阵列中的多个像素单元,每一像素单元对应一扫描线和一数据线,并包括:
主区电极,其通过主区控制开关连接对应的数据线,主区控制开关的控制端连接对应的扫描线,用以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有主区电压;
次区电极,其通过次区控制开关连接对应的数据线,次区控制开关的控制端连接对应的扫描线,用以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有次区电压;
分享电容,其通过分享控制开关连接次区电极,分享控制开关的控制端通过一控制开关与从本像素单元起沿扫描方向排列的第N个像素单元对应的扫描线连接;
其中,控制开关配置成根据接收的控制信号,在二维扫描模式下,至少当其连接的扫描线上有扫描信号时导通,从而具有电荷分享功能,以及在三维扫描模式下,至少当其连接的扫描线上有扫描信号时截止,从而关闭电荷分享功能。
为使本发明的发明目的和技术方案,以及所能达到的技术效果更加清楚,下面结合具体实施例和附图对本发明作进一步地详细说明。
实施例一
图1是本发明提供的阵列基板的局部等效电路图。该阵列基板包括影像显示区AA和扇出区Fanout(图中未示出)。其中,影像显示区AA包括由多条公共电极,多条扫描线和多条数据线,配置在由多条扫描线和多条数据线交错而成的像素阵列中的多个像素单元。每一像素单元的结构相同,对应于一条扫描线和一条数据线,并包括主区电极(Main)和次区电极(Sub),以及用于电荷分享的分享电容Cshare。下面以第一条扫描线Gate_1和第M条数据线Data_M对应的像素单元P1M为例,详细说明本发明阵列基板的像素单元结构。
主区电极(Main)配置有主区控制开关TFT_A。该主区控制开关TFT_A的第一端连接对应的数据线Data_M,第二端连接主区电极,控制端连接对应的扫描线Gate_1。当主区控制开关TFT_A的控制端通过扫描线Gate_1收到来自扫描驱动电路的扫描信号时,主区控制开关TFT_A的第一端与第二端导通,从而将数据线Data_M上来自数据驱动电路的数据信号传至主区电极。同时,主区电极与彩色滤光基板的公共电极CF_com之间耦合形成的主区液晶电容Clc_A,以及主区电极与阵列基板的公共电极A_com之间耦合形成的主区存储电容Cst_A,会在数据信号的作用下开始充电,进而使主区电极具有并保持一定的主区电压。
次区电极(Sub)配置有次区控制开关TFT_B。该次区控制开关TFT_B的第一端连接对应的数据线Data_M,第二端连接次区电极,控制端连接对应的第一扫描线Gate_1。当次区控制开关TFT_B的控制端通过扫描线Gate_1收到来自扫描驱动电路的扫描信号时,次区控制开关TFT_B的第一端与第二端导通,从而将数据线Data_M上来自数据驱动电路的数据信号传至次区电极。同时,次区电极与彩色滤光基板的公共电极CF_com之间耦合形成的次区液晶电容Clc_B,以及次区电极与阵列基板的公共电极A_com之间耦合形成的次区存储电容Cst_B,会在数据信号的作用下开始充电,进而使次区电极具有并保持一定的次区电压。
分享电容Cshare配置有分享控制开关TFT_C。该分享控制开关TFT_C的第一端连接次区电极,第二端连接分享电容Cshare的一个电极,分享电容Cshare的另一个电极连接阵列基板的公共电极A_com。该分享控制开关TFT_C的控制端则通过一控制开关TFT_1连接从本像素单元起沿扫描方向排列的第N个像素单元对应的扫描线Gate_N。
需要说明的是,在本实施例中,阵列基板上设置的控制开关的数目与扫描线的数目一致,也即每一个控制开关对应于一行像素单元。针对于此,本实施例中所有控制开关优选地布置在阵列基板的扇出区处。此外,为了方便连接,阵列基板上还优选地排布有与扫描线一一对应的辅助线。具体地,如图1所示,阵列基板上排布有与扫描线Gate_1、Gate_2、Gate_3……一一对应的辅助线Gate_Share_1、Gate_Share_2、Gate_Share_3……沿扫描方向:第一条扫描线Gate_1对应的像素单元中的分享控制开关的控制端连接在第一条辅助线Gate_Share_1上,控制开关TFT_1的一端连接第一条辅助线Gate_Share_1,另一端连接第N条扫描线Gate_N;第二条扫描线Gate_2对应的像素单元中的分享控制开关的控制端连接在第二条辅助线Gate_Share_2上,控制开关TFT_2的一端连接第二条辅助线Gate_Share_2,另一端连接第N+1条扫描线Gate_N+1;第三条扫描线Gate_3对应的像素单元中的分享控制开关的控制端连接在第三条辅助线Gate_Share_3上,控制开关TFT_3的一端连接第三条辅助线Gate_Share_3,另一端连接第N+2条扫描线Gate_N+2……如此类推。当然在实际应用时,排布布线方式可以有很多种,不限于此。
上述主区控制开关、次区控制开关、分享控制开关、控制开关可以均为薄膜开关晶体管。
为了能够实现在二维扫描模式下保留电荷分享功能以克服大视角色偏,以及在三维扫描模式下关闭电荷分享功能以改善左右眼亮度差的目的,本发明提出:
在二维扫描模式下,各控制开关至少当其连接的扫描线上有扫描信号时导通;
在三维扫描模式下,各控制开关至少当其连接的扫描线上有扫描信号时截止。
为此,本发明的发明人提出了一种实施方式。即,沿扫描方向,将每(N-1)条扫描线对应的像素单元所对应的控制开关归为一组。其中:奇数组的控制开关的控制端连接第一开关控制线以接收第一开关控制信号,在其作用下导通或者截止;偶数组的控制开关的控制端连接第二开关控制线以接收第二开关控制信号,在其作用下导通或者截止。
下面以N=3为例进行说明。
沿扫描方向,将每两个控制开关归为一组:控制开关TFT_1和TFT_2为第一组,控制开关TFT_3和TFT_4为第二组,控制开关TFT_5和TFT_6为第三组,控制开关TFT_7和TFT_8为第四组……如此类推。其中:第一组、第三组、第五组……奇数组的控制开关的控制端连接第一开关控制线Line_1,接收第一开关控制信号SW1;第二组、第四组、第六组……偶数组的控制开关的控制端连接第二开关控制线Line_2,接收第二开关控制信号SW2。
如图2A所示,在二维扫描模式下,第一开关控制信号SW1与第二开关控制信号SW2均为持续的高电平信号,因此所有的控制开关在扫描期间保持持续的导通状态,满足前述的“至少当其连接的扫描线上输入有扫描信号时保持导通”的工作条件。故而在二维扫描模式下,当一扫描线上有扫描信号时,使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而使主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压。同时,由于与该扫描线连接的控制开关保持导通,因此该扫描线上的扫描信号能够传送至对应的像素单元的分享控制开关的控制端,从而使对应的像素单元能够实现电荷分享功能,改善色偏现象。
如图2B所示,在三维扫描模式下,第一开关控制信号SW1与第二开关控制信号SW2同步,分别为奇脉冲序列信号和偶脉冲序列信号,且所述脉冲序列信号的脉冲宽度等于所述扫描信号时长的(N-1)倍。在本实施例中,脉冲宽度即为2T,T为扫描信号的时长。从图2B中可知,沿着扫描方向,当向第三根扫描线Gate_3输入高电平的扫描信号时,与第三根扫描线Gate_3连接的控制开关TFT_1的控制端所接收的第一控制信号SW1为低电平,故控制开关TFT_1截止;当向第四根扫描线Gate_4输入高电平的扫描信号时,与第四根扫描线Gate_4连接的控制开关TFT_2的控制端所接收的第一控制信号SW1为低电平,故控制开关TFT_2截止;当向第五根扫描线Gate_5输入高电平的扫描信号时,与第五根扫描线Gate_5连接的控制开关TFT_3的控制端所接收的第二控制信号SW2为低电平,故控制开关TFT_5截止……以此类推,基于这种时序控制方式,每一扫描线上输入有扫描信号时,其所连接的控制开关因控制端接收的低电平的控制信号(SW1或者SW2)而截止,满足前述“至少当其连接的扫描线上有扫描信号时截止”的工作条件。故而在三维扫描模式下:当一扫描线上有扫描信号时,只使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压。
实施例二
此外,本发明的发明人还提出了另外一种实施方式。即,将控制开关分为两组:对应于奇数扫描线的像素单元所对应的控制开关为一组,简称奇数组;对应于偶数扫描线的像素单元所对应的控制开关为另一组,简称偶数组。奇数组的控制开关的控制端并接在第一开关控制线上接收第一开关控制信号,并在其作用下导通或者截止;偶数组的控制开关的控制端并接在第二开关控制线上以接收第二开关控制信号,并在其作用下导通或者截止。
具体地,沿扫描方向:对应于奇数扫描线Gate_1、Gate_3、Gate_5……的像素单元所对应的控制开关TFT_1、TFT_3、TFT_5……的控制端并接在第一开关控制线Line_1上,接收第一开关控制信号SW1,并在其作用下导通或者截止;对应于偶数扫描线Gate_2、Gate_4、Gate_6……的像素单元所对应的控制开关TFT_2、TFT_4、TFT_6……的控制端并接在第二开关控制线Line_2上,接收第二开关控制信号SW2,并在其作用下导通或者截止。
如图3A所示,与实施例一相同,本实施例在二维扫描模式下,第一开关控制信号SW1与第二开关控制信号SW2均为持续的高电平信号,因此所有的控制开关在扫描期间能够保持持续的导通状态,也即满足前述的“至少当其连接的扫描线上有扫描信号时导通”的工作条件。
不同于实施例一,本实施例在三维扫描模式下,第一开关控制信号SW1与第二开关控制信号SW2为同步但极性相反的脉冲序列信号,且脉冲序列信号的脉冲宽度等于扫描信号的时长。且进一步地,如果N为奇数,则第一开关控制信号SW1为偶脉冲序列信号,第二开关控制信号SW2为奇脉冲序列信号;如果N为偶数,则第一开关控制信号SW1为奇脉冲序列信号,第二开关控制信号SW2为偶脉冲序列信号。
以N=3为例。如图3B所示,第一开关控制信号SW1为偶脉冲序列信号,第二开关控制信号SW2为奇脉冲序列信号。沿着扫描方向,当向第三根扫描线Gate_3输入高电平的扫描信号时,与第三根扫描线Gate_3连接的控制开关TFT_1的控制端所接收的第一控制信号SW1为低电平,故控制开关TFT_1截止;当向第四根扫描线Gate_4输入高电平的扫描信号时,与第四根扫描线Gate_4连接的控制开关TFT_2的控制端所接收的第二控制信号SW2为低电平,故控制开关TFT_2截止……以此类推,基于这种时序控制方式,当一扫描线上有扫描信号时,其所连接的控制开关因控制端接收到低电平的控制信号(SW1或者SW2)而截止,满足前述“控制开关至少当其连接的扫描线上有扫描信号时截止”的工作条件。
以N=4为例。如图3C所示,第一开关控制信号SW1为奇脉冲序列信号,第二开关控制信号SW2为偶脉冲序列信号。沿着扫描方向,当向第四根扫描线Gate_4输入高电平的扫描信号时,与第四根扫描线Gate_4连接的控制开关TFT_1的控制端所接收的第一控制信号SW1为低电平,故控制开关TFT_1截止;当向第五根扫描线Gate_5输入高电平的扫描信号时,与第五根扫描线Gate_5连接的控制开关TFT_2的控制端所接收的第二控制信号SW2为低电平,故控制开关TFT_2截止……以此类推,基于这种时序控制方式,当一扫描线上有扫描信号时,其所连接的控制开关因控制端接收到低电平的控制信号(SW1或者SW2)而截止,满足前述“控制开关至少在其连接的扫描线上有扫描信号时截止”的工作条件。
虽然本发明所揭露的实施方式如上,但所述的内容只是为了便于理解本发明而采用的实施方式,并非用以限定本发明。任何本发明所属技术领域内的技术人员,在不脱离本发明所揭露的精神和范围的前提下,可以在实施的形式上及细节上作任何的修改与变化,但本发明的专利保护范围,仍须以所附的权利要求书所界定的范围为准。
Claims (8)
1.一种阵列基板,其特征在于,包括:
多条扫描线和多条数据线;
配置在由所述多条扫描线和多条数据线交错而成的阵列中的多个像素单元,每一所述像素单元对应一所述扫描线和一所述数据线,并包括:
主区电极,其通过主区控制开关连接对应的数据线,所述主区控制开关的控制端连接对应的扫描线,以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有主区电压;
次区电极,其通过次区控制开关连接对应的数据线,所述次区控制开关的控制端连接对应的扫描线,以当该扫描线上有扫描信号时接收该数据线上的数据信号而具有次区电压;
分享电容,其通过分享控制开关连接所述次区电极,所述分享控制开关的控制端通过一控制开关与从本像素单元起沿扫描方向排列的第N个像素单元对应的扫描线连接;
其中,所述控制开关配置成根据接收的控制信号,在二维扫描模式下,至少当其连接的扫描线上有扫描信号时导通,以及在三维扫描模式下,至少当其连接的扫描线上有扫描信号时截止:
沿扫描方向,将每N-1条扫描线对应的像素单元所对应的控制开关归为一组;其中,奇数组控制开关的控制端连接一第一开关控制线,接收第一开关控制信号,并在其作用下导通或者截止,偶数组控制开关的控制端连接一第二开关控制线,接收第二开关控制信号,并在其作用下导通或者截止;其中,
在二维扫描模式下,所述第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号同步,分别为奇脉冲序列信号和偶脉冲序列信号,且所述奇/偶脉冲序列信号的脉冲宽度等于所述扫描信号时长的N-1倍;
又或者,与奇数扫描线对应的像素单元所对应的控制开关的控制端并接在一第一开关控制线上,接收第一开关控制信号,并在其作用下导通或者截止,与偶数扫描线对应的像素单元所对应的控制开关的控制端并接在一第二开关控制线上,接收第二开关控制信号,并在其作用下导通或者截止;其中,
在二维扫描模式下,所述第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号为同步但极性相反的脉冲序列信号,且所述脉冲序列信号的脉冲宽度等于所述扫描信号的时长;同时,若N为奇数/偶数,所述第一开关控制信号为偶/奇脉冲序列信号。
2.如权利要求1所述的阵列基板,其特征在于,包括:
所述阵列基板上还设置有与所述扫描线一一对应的辅助线,各所述像素单元中的分享控制开关的控制端通过所述辅助线连接其对应的控制开关。
3.如权利要求2所述的阵列基板,其特征在于,包括:
所述控制开关设置在扇出区。
4.如权利要求1所述的阵列基板,其特征在于,包括:
所述主区控制开关、次区控制开关、分享控制开关以及所述控制开关均为薄膜开关晶体管。
5.一种液晶显示面板,其特征在于,包括:
如权利要求1~4任一项所述的阵列基板、彩色滤光基板以及位于所述阵列基板和彩色滤光基板之间的液晶层。
6.一种如权利要求5所述的液晶显示面板的驱动方法,包括二维扫描驱动步骤和三维扫描驱动步骤;其中,
所述二维扫描驱动步骤包括:
沿扫描方向依次向各扫描线输入扫描信号;
当一扫描线上有扫描信号时,使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而使主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压;同时控制与该扫描线连接的控制开关导通,从而使与该控制开关连接的分享控制开关导通,进而使该分享控制开关所在的像素单元实现电荷分享功能;
所述三维扫描驱动步骤包括:
沿扫描方向依次向各扫描线输入扫描信号;
当一扫描线上有扫描信号时,使该扫描线对应的像素单元中的主区控制开关和次区控制开关导通,从而使主区电极和次区电极在数据线上的数据信号的作用下具有相同的电压;同时控制与该扫描线连接的控制开关截止。
7.如权利要求6所述的驱动方法,其特征在于:
沿扫描方向,将每N-1条扫描线对应的像素单元所对应的控制开关归为一组,对奇数组的控制开关施以第一开关控制信号,对偶数组的控制开关施以第二开关控制信号;其中,
在二维扫描模式下,第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,所述第一开关控制信号与第二开关控制信号同步,分别为奇脉冲序列信号和偶脉冲序列信号,且所述奇/偶脉冲序列信号的脉冲宽度等于所述扫描信号时长的N-1倍。
8.如权利要求6所述的驱动方法,其特征在于:
与奇数扫描线对应的像素单元所对应的控制开关的控制端施以第一开关控制信号,与偶数扫描线对应的像素单元所对应的控制开关的控制端施以第二开关控制信号;其中,
在二维扫描模式下,第一开关控制信号与第二开关控制信号均为持续的高电平信号;
在三维扫描模式下,第一开关控制信号与第二开关控制信号为同步但极性相反的脉冲序列信号,且所述脉冲序列信号的脉冲宽度等于所述扫描信号的时长;若N为奇数/偶数,则第一开关控制信号为偶/奇脉冲序列信号。
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CN103941442A (zh) * | 2014-04-10 | 2014-07-23 | 深圳市华星光电技术有限公司 | 显示面板及其驱动方法 |
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KR101989714B1 (ko) | 2019-06-14 |
US20160335971A1 (en) | 2016-11-17 |
JP6488381B2 (ja) | 2019-03-20 |
GB2547851B (en) | 2021-05-26 |
KR20170084293A (ko) | 2017-07-19 |
US9886926B2 (en) | 2018-02-06 |
RU2663081C1 (ru) | 2018-08-01 |
WO2016078213A1 (zh) | 2016-05-26 |
GB2547851A (en) | 2017-08-30 |
GB201708694D0 (en) | 2017-07-19 |
JP2017535817A (ja) | 2017-11-30 |
CN104375343A (zh) | 2015-02-25 |
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