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    • 41. 发明申请
    • Electrophoretic display panel
    • 电泳显示面板
    • US20060092124A1
    • 2006-05-04
    • US10530379
    • 2003-09-12
    • Guofu ZhouWillibrordus DijkmanMark Johnson
    • Guofu ZhouWillibrordus DijkmanMark Johnson
    • G09G3/34
    • G09G3/344G09G3/2011G09G2310/061G09G2310/068G09G2320/02
    • The electrophoretic display panel (1) for displaying a picture and a subsequent picture has drive means (100) which are able to control for each pixel (2) the potential difference to have a picture value to provide the pixels (2) with a respective picture appearance being either extreme or intermediate, subsequently to have an inter-picture value to provide the pixels (2) with a respective inter-picture appearance, and subsequently to have a subsequent picture value. For the display panel (1) to be able to provide the pixels (2) with the inter-picture appearances which are in general relatively little visible, the drive means (100) are able to control for each pixel (2) an estimate potential difference as the inter-picture value to provide the pixels (2) with a respective estimate picture appearance as the inter-picture appearance.
    • 用于显示图像和后续图像的电泳显示面板(1)具有能够对每个像素(2)控制电位差以具有图像值的驱动装置(100),以向像素(2)提供各自的像素 图像外观为极端或中间,随后具有画面间值,以向像素(2)提供相应的画面外观,并且随后具有后续画面值。 为了使显示面板(1)能够向像素(2)提供通常相对较少可见的图像间外观,驱动装置(100)能够为每个像素(2)控制估计电位 差异作为画面间值,以使像素(2)具有相应的估计画面外观作为画面间的外观。
    • 42. 发明申请
    • Driving an electrophoretic display
    • 驾驶电泳显示
    • US20060077190A1
    • 2006-04-13
    • US10542909
    • 2004-01-13
    • Guofu ZhouMark Johnson
    • Guofu ZhouMark Johnson
    • G09G5/00
    • G09G3/344G02F1/167G09G3/2014G09G2310/06G09G2310/061G09G2310/068G09G2320/04
    • In a method of driving an electrophoretic display, during an image update period (IUi) wherein the pixels (18) of the display are addressed to refresh an image displayed, a chive waveform (DWi) is supplied (10,16) to an associated one of the pixels (18). The drive waveform (DWi) comprises successively a first pulse (Ri, Si) with a first voltage level (+VM, −VM) and a drive pulse (Di) with second voltage level (VDi). The drive pulse (Di) has a variable voltage level to allow obtaining a desired intermediate optical state of the pixel (18) with a high accuracy. An absolute value of the second voltage level (VDi) of the drive pulse (Di) is smaller than an absolute value of the first voltage level (+VM, −VM) of the first pulse (Ri, Si), to minimize the total image update time.
    • 在驱动电泳显示器的方法中,在其中寻址显示器的像素(18)以刷新所显示的图像的图像更新周期(IUi)期间,向相关联的供应(10,16)提供ive波形(10i) 像素(18)中的一个。 驱动波形(DWi)依次包括具有第一电压电平(+ VM,-VM)的第一脉冲(Ri,Si)和具有第二电压电平(VDi)的驱动脉冲(Di))。 驱动脉冲(Di)具有可变电压电平以允许以高精度获得像素(18)的期望的中间光学状态。 驱动脉冲(Di)的第二电压电平(VDi)的绝对值小于第一脉冲(Ri,Si)的第一电压电平(+ VM,-VM)的绝对值,以使总计 图像更新时间。
    • 46. 发明申请
    • Electrophoretic display panel
    • 电泳显示面板
    • US20050162378A1
    • 2005-07-28
    • US10515464
    • 2003-05-13
    • Guofu ZhouMark Johnson
    • Guofu ZhouMark Johnson
    • G02F1/167G09G3/20G09G3/34
    • G09G3/344G02F1/167G09G3/2014G09G2310/0224G09G2310/06G09G2310/061G09G2320/04G09G2330/021
    • The electrophoretic display panel (1) for displaying a picture, has a first and a second opposed substrate (8,9), an electrophoretic medium (5) between the substrates (8,9), a plurality of pixels (2), a first and a second electrode (3,4) associated with each pixel (2), drive means (100) and a temperature probe (11). The electrophoretic medium (5) has charged particles (6) in a fluid. The first and the second electrode (3,4) are able to receive a potential difference having a duration and a level. The drive means (100) are able to control the potential differences for displaying the picture, and the temperature probe (11) is able to measure a temperature indicative for the medium temperature. For the display panel (1) to be able to have pixels (2) with substantially reproducible appearances requiring relatively little energy independent of the ambient temperature, the drive means (100) are able to receive the measured temperature from the temperature probe (11) and to control the potential differences in dependence of the measured temperature.
    • 用于显示图像的电泳显示面板(1)具有第一和第二相对基板(8,9),基板(8,9)之间的电泳介质(5),多个像素(2), 与每个像素(2)相关联的第一和第二电极(3,4),驱动装置(100)和温度探测器(11)。 电泳介质(5)在流体中具有带电粒子(6)。 第一和第二电极(3,4)能够接收具有持续时间和电平的电位差。 驱动装置(100)能够控制用于显示图像的电位差,并且温度探测器(11)能够测量指示介质温度的温度。 为了使显示面板(1)能够具有与环境温度无关的相当少的能量的基本上可再现的外观的像素(2),驱动装置(100)能够从温度探测器(11)接收测量的温度, 并根据测得的温度来控制潜在的差异。
    • 47. 发明申请
    • Rail-Stabilized Driving Scheme With Image Memory For An Electrophoretic Display
    • 轨迹稳定驱动方案与电泳显示的图像存储器
    • US20070273637A1
    • 2007-11-29
    • US10599058
    • 2005-03-22
    • Guofu ZhouRogier CortieMark JohnsonLeendert Hage
    • Guofu ZhouRogier CortieMark JohnsonLeendert Hage
    • G09G3/34
    • G09G3/344G09G3/2007G09G2310/0245G09G2310/061G09G2310/068G09G2340/16
    • An image is updated on a bi-stable display (310) such as an electrophoretic display in a transition from a current image state to a subsequent image state. A voltage waveform (600, 620, 640, 660; 700, 720, 740, 760) is selected based on the current and subsequent image states, and a previous image state. The bi-stable display (310) is driven from the current image state to the subsequent image state using the selected voltage waveform. For a given transition from the current to the next image state, different waveforms are stored for different previous states, e.g., black, dark grey, light grey and white. The different waveforms may have different drive pulse (DR) or reset pulse (RE1, RE2) energies. In a trial and error optimization process, different waveforms with different reset and/or drive pulse energies are tested for different previous image states to see which waveform yields the smallest greyscale error.
    • 在从当前图像状态到后续图像状态的转变中,在双稳态显示器(310)上更新图像,例如电泳显示器。 基于当前和后续图像状态以及先前的图像状态来选择电压波形(600,620,640,660,700,720,740,760)。 使用所选择的电压波形,双稳态显示器(310)从当前图像状态驱动到后续图像状态。 对于从当前图像状态到下一图像状态的给定转换,存储不同的先前状态的不同波形,例如黑色,深灰色,浅灰色和白色。 不同的波形可能具有不同的驱动脉冲(DR)或复位脉冲(RE 1,RE 2)能量。 在试错误优化过程中,针对不同的先前图像状态测试具有不同复位和/或驱动脉冲能量的不同波形,以查看哪个波形产生最小的灰度误差。
    • 48. 发明申请
    • Bi-stable display with dc-balanced over-reset driving
    • 具有直流平衡超复位驱动的双稳态显示
    • US20070075963A1
    • 2007-04-05
    • US10579408
    • 2004-11-12
    • Guofu ZhouMark Johnson
    • Guofu ZhouMark Johnson
    • G09G3/34
    • G09G3/344G09G2310/061G09G2310/068G09G2320/0204
    • A display device (101) has groups of display elements (118), which are changed from one optical state to another optical state by applying a waveform sequence of potential differences. The waveform enables particles (108, 109) to occupy a position corresponding to the other optical state and includes standard reset, over-reset and grayscale drive. The standard reset part of the waveform applies a potential difference, which is proportional to a distance the particles (108, 109) must move to reach one of the extreme optical states and the over-reset is independent of the distance. Grayscale or color scale accuracy is improved and direct charge on a pixel may be balanced over time with consequent grayscale drift compensated by tuning the grayscale driving pulse.
    • 显示装置(101)具有通过应用电位差的波形序列从一个光学状态改变到另一个光学状态的显示元件组(118)。 波形使得粒子(108,109)能够占据对应于另一光学状态的位置,并且包括标准复位,过度复位和灰阶驱动。 波形的标准复位部分施加电位差,其与粒子(108,109)必须移动以达到极端光学状态之一的距离成比例,并且过度复位独立于距离。 灰度级或色标精度提高,像素上的直接电荷可以随着时间的推移而平衡,从而通过调整灰度级驱动脉冲来补偿灰度漂移。
    • 49. 发明申请
    • Electrophoretic display unit
    • 电泳显示单元
    • US20070008278A1
    • 2007-01-11
    • US10574148
    • 2004-09-28
    • Mark JohnsonMasaru YasuiGuofu Zhou
    • Mark JohnsonMasaru YasuiGuofu Zhou
    • G09G3/34
    • G09G3/344G09G2300/08G09G2310/0251G09G2310/0254G09G2310/061G09G2310/068G09G2320/0247
    • Electrophoretic display units (100) comprising pixels (11) situated between a common electrode (6) and pixel electrodes (5) need, for shortening the total image update times, increased driving voltages across the pixels (11) which make disturbances more visible. To camouflage such disturbances, instead of one common electrode (6), different counter electrodes (16,17) coupled to different portions (66,67) of the electrophoretic display panel (60) are introduced. First and second counter electrodes (16,17) receive first and second voltage signals (V16, V17) lik˜ alternating voltage signals having opposite phases. First shaking data pulses (V16-VE1, V16-VE3) are supplied to the first portion (66) and second shaking data pulses (V17-VE2, V17-VE4) are supplied to the second portion (67), which first and second shaking data pulses have opposite amplitudes. Setting signals (S1,S2,S3,S4) supplied during setting frame period (FS) reduce voltage swings at pixel electrodes (5).
    • 包括位于公共电极(6)和像素电极(5)之间的像素(11)的电泳显示单元(100)需要用于缩短总的图像更新时间,使跨越像素(11)的驱动电压增加,使得扰动更可见。 为了伪装这种干扰,引入耦合到电泳显示面板(60)的不同部分(66,67)的不同对置电极(16,17)而不是一个公共电极(6)。 第一和第二对置电极(16,17)接收具有相反相位的交流电压信号的第一和第二电压信号(V 16,V 17)。 首先将数据脉冲(V 16 - V E1 - ,V 16 -V 3 - E3)的振荡信号提供给第一个 部分(66)和第二振动数据脉冲(V→17→E2,V→17→E4) 被提供给第二部分(67),该第一和第二抖动数据脉冲具有相反的幅度。 在设定帧周期期间提供的设置信号(S 1,S 2,S 2,S 3,S 4,S) 减小像素电极(5)处的电压摆动。
    • 50. 发明申请
    • Electrophoretic display and addressing method thereof
    • 电泳显示及其寻址方法
    • US20060290649A1
    • 2006-12-28
    • US10555845
    • 2004-05-04
    • Mark JohnsonGuofu Zhou
    • Mark JohnsonGuofu Zhou
    • G09G3/34
    • G09G3/344G09G2300/08G09G2310/06G09G2310/068G09G2320/02G09G2320/0257
    • An electrophoretic display comprises a matrix of pixels (18) which comprise electrophoretic material (8, 9) being sandwiched between a top electrode (6) and a bottom electrode (5, 5′). An addressing circuit (16, 10) addresses the pixels (18) during an image update period (IUP) by applying drive voltages (VD) between the top electrode (6) and the second electrodes (5, 5′). The drive voltages (VD) having levels in accordance with an image to be displayed on the electrophoretic display. A controller (15) controls the addressing circuit (16, 10) to supply a series of AC-pulses (ACP) between the bottom electrodes (5, 5′) of neighboring pixels (18) to obtain an electric field (LF) being substantially directed in a plane parallel to the bottom electrodes (5, 5′).
    • 电泳显示器包括像素(18)的矩阵,其包括夹在顶部电极(6)和底部电极(5,5')之间的电泳材料(8,9)。 寻址电路(16,10)通过在顶部电极(6)和第二电极(5,5')之间施加驱动电压(VD)来在图像更新周期(IUP)期间寻址像素(18)。 驱动电压(VD)具有与要显示在电泳显示器上的图像相关的电平。 控制器(15)控制寻址电路(16,10)在相邻像素(18)的底部电极(5,5')之间提供一系列AC脉冲(ACP),以获得电场(LF) 基本上指向平行于底部电极(5,5')的平面。