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    • 1. 发明申请
    • STEREOSCOPIC DISPLAY DEVICE
    • 立体显示设备
    • US20110316989A1
    • 2011-12-29
    • US13254028
    • 2010-04-16
    • Masahiro ImaiNoriyuki Nakane
    • Masahiro ImaiNoriyuki Nakane
    • H04N13/04
    • H04N13/312G02B27/2214G02B27/2264G02F1/13454G02F1/1347G02F2203/12G09G3/004G09G3/2018G09G3/3614G09G2310/0218H04N13/324H04N13/356H04N13/398
    • Provided is a liquid crystal display device 10 that divides “3m” video signal lines into groups of three lines according to an order of arrangement, and drives the video signal lines in the group within one horizontal period in a time-division manner. A pixel array 17 is configured such that columns each including pixel circuits for left eye 21 arranged along a vertical direction of a display screen and columns each including pixel circuits for right eye 22 arranged along the vertical direction of the display screen are arranged along a horizontal direction of the display screen. When driving the video signal lines in a time-division manner, a writing order to pixel circuits 18 within one horizontal period and a polarity of a voltage to be applied to the pixel circuits 18 are changed every two scanning signal lines. This improves image quality of both an image for left eye and an image for right eye, thereby improving image quality in stereoscopic display.
    • 提供了根据排列顺序将“3m”视频信号线划分成三行的液晶显示装置10,并且以时分方式在一个水平周期内驱动该组中的视频信号线。 像素阵列17被配置为使得包括沿着显示屏幕的垂直方向布置的左眼21的像素电路和每个包括沿着显示屏幕的垂直方向布置的用于右眼22的像素电路的列的列沿着水平布置 方向显示屏幕。 当以时分方式驱动视频信号线时,每两个扫描信号线改变对一个水平周期内的像素电路18的写入顺序和要施加到像素电路18的电压的极性。 这提高了左眼图像和右眼图像的图像质量,从而提高立体显示中的图像质量。
    • 2. 发明授权
    • Stereoscopic display device
    • 立体显示装置
    • US09083965B2
    • 2015-07-14
    • US13254028
    • 2010-04-16
    • Masahiro ImaiNoriyuki Nakane
    • Masahiro ImaiNoriyuki Nakane
    • H04N13/04H04N9/47G02B27/22G09G3/36G09G3/00G09G3/20G02F1/1345G02F1/1347
    • H04N13/312G02B27/2214G02B27/2264G02F1/13454G02F1/1347G02F2203/12G09G3/004G09G3/2018G09G3/3614G09G2310/0218H04N13/324H04N13/356H04N13/398
    • Provided is a liquid crystal display device 10 that divides “3m” video signal lines into groups of three lines according to an order of arrangement, and drives the video signal lines in the group within one horizontal period in a time-division manner. A pixel array 17 is configured such that columns each including pixel circuits for left eye 21 arranged along a vertical direction of a display screen and columns each including pixel circuits for right eye 22 arranged along the vertical direction of the display screen are arranged along a horizontal direction of the display screen. When driving the video signal lines in a time-division manner, a writing order to pixel circuits 18 within one horizontal period and a polarity of a voltage to be applied to the pixel circuits 18 are changed every two scanning signal lines. This improves image quality of both an image for left eye and an image for right eye, thereby improving image quality in stereoscopic display.
    • 提供了根据排列顺序将“3m”视频信号线划分成三行的液晶显示装置10,并且以时分方式在一个水平周期内驱动该组中的视频信号线。 像素阵列17被配置为使得包括沿着显示屏幕的垂直方向布置的左眼21的像素电路和每个包括沿着显示屏幕的垂直方向布置的用于右眼22的像素电路的列的列沿着水平布置 方向显示屏幕。 当以时分方式驱动视频信号线时,每两个扫描信号线改变对一个水平周期内的像素电路18的写入顺序和要施加到像素电路18的电压的极性。 这提高了左眼图像和右眼图像的图像质量,从而提高立体显示中的图像质量。
    • 4. 发明授权
    • Display device, its driving circuit, and driving method
    • 显示装置,其驱动电路和驱动方法
    • US08284146B2
    • 2012-10-09
    • US12312783
    • 2007-11-20
    • Masahiro ImaiNoriyuki Nakane
    • Masahiro ImaiNoriyuki Nakane
    • G09G3/36
    • G09G3/3648G09G3/3614G09G2310/0248G09G2320/0214G09G2320/0219G09G2320/0233G09G2360/16
    • The present invention relates to a display device and, more particularly, to an active matrix-type display device employing a line inversion drive scheme as a drive scheme.In a liquid crystal display device employing the line inversion drive scheme as a drive scheme, a predetermined video signals are applied to video signal lines in a predetermined period after start of a vertical blanking period. When a vertical scanning period starts in an even-numbered frame, a source potential (VS) decreases by ½ of amplitude in an effective video period. After the decreased source potential (VS) is maintained only for one horizontal scanning period, source bus lines are set to a high-impedance state. When a vertical scanning period starts in an odd-numbered frame, the source potential (VS) rises by ½ of amplitude in the effective video period. After the risen source potential VS is maintained only in one horizontal scanning period, the source bus lines are set to a high-impedance state.
    • 显示装置技术领域本发明涉及显示装置,更具体地,涉及采用线路反转驱动方案作为驱动方案的有源矩阵型显示装置。 在采用线路反转驱动方案作为驱动方案的液晶显示装置中,在垂直消隐期间开始之后的预定时段内,对视频信号线施加预定的视频信号。 当垂直扫描期间以偶数帧开始时,源极电位(VS)在有效视频周期内减小振幅的1/2。 在仅在一个水平扫描周期内维持降低的源极电位(VS)之后,源极总线被设置为高阻抗状态。 当在奇数帧中开始垂直扫描期间时,源电位(VS)在有效视频周期中上升幅度的1/2。 在上升的源极电位VS仅保持在一个水平扫描周期之后,源极总线被设置为高阻抗状态。
    • 6. 发明申请
    • DISPLAY DEVICE, ITS DRIVING CIRCUIT, AND DRIVING METHOD
    • 显示设备,其驱动电路和驱动方法
    • US20100066923A1
    • 2010-03-18
    • US12312783
    • 2007-11-20
    • Masahiro ImaiNoriyuki Nakane
    • Masahiro ImaiNoriyuki Nakane
    • H04N3/14G09G5/00
    • G09G3/3648G09G3/3614G09G2310/0248G09G2320/0214G09G2320/0219G09G2320/0233G09G2360/16
    • The present invention relates to a display device and, more particularly, to an active matrix-type display device employing a line inversion drive scheme as a drive scheme.In a liquid crystal display device employing the line inversion drive scheme as a drive scheme, a predetermined video signals are applied to video signal lines in a predetermined period after start of a vertical blanking period. When a vertical scanning period starts in an even-numbered frame, a source potential (VS) decreases by ½ of amplitude in an effective video period. After the decreased source potential (VS) is maintained only for one horizontal scanning period, source bus lines are set to a high-impedance state. When a vertical scanning period starts in an odd-numbered frame, the source potential (VS) rises by ½ of amplitude in the effective video period. After the risen source potential VS is maintained only in one horizontal scanning period, the source bus lines are set to a high-impedance state.
    • 显示装置技术领域本发明涉及显示装置,更具体地,涉及采用线路反转驱动方案作为驱动方案的有源矩阵型显示装置。 在采用线路反转驱动方案作为驱动方案的液晶显示装置中,在垂直消隐期间开始之后的预定时段内,对视频信号线施加预定的视频信号。 当垂直扫描期间以偶数帧开始时,源极电位(VS)在有效视频周期内减小振幅的1/2。 在仅在一个水平扫描周期内维持降低的源极电位(VS)之后,源极总线被设置为高阻抗状态。 当在奇数帧中开始垂直扫描期间时,源电位(VS)在有效视频周期中上升幅度的1/2。 在上升的源极电位VS仅保持在一个水平扫描周期之后,源极总线被设置为高阻抗状态。
    • 7. 发明申请
    • DISPLAY DEVICE WITH LOCATION DETECTION FUNCTION AND INPUT LOCATION DETECTION SYSTEM
    • 具有位置检测功能和输入位置检测系统的显示设备
    • US20120229384A1
    • 2012-09-13
    • US13513165
    • 2010-11-12
    • Noriyuki NakaneNobuaki Takahashi
    • Noriyuki NakaneNobuaki Takahashi
    • G06F3/033
    • G06F3/0386G06F3/03545G06F3/0412G06F3/0416
    • An input position detection system (1) according to the present invention includes a laser pointer (50) that emits infrared light, and a liquid crystal display device (10) that detects a position of an input from the input pointer (50) by detecting the infrared light. The liquid crystal display device (10) includes optical sensor elements (30), a received light intensity calculation circuit (31), a coordinate extracting circuit (32), a combining and calculating circuit (33), an input signal calculation circuit (35), and the like. The combining and calculating circuit (33) calculates the intensities of received light at respective coordinate positions on the basis of the information obtained by the coordinate extracting circuit (32) and the received light intensity calculation circuit (31). The input signal calculation circuit (35) calculates a distance of the laser pointer (50) from an image display surface, and detects the three-dimensional position of the laser pointer on the basis of the received light intensity information. The input position detection system thus handles three-dimensional pointing with a higher degree of accuracy.
    • 根据本发明的输入位置检测系统(1)包括发射红外光的激光指示器(50)和液晶显示装置(10),其通过检测来自输入指针(50)的输入位置来检测 红外灯。 液晶显示装置(10)包括光学传感器元件(30),接收光强度计算电路(31),坐标提取电路(32),组合计算电路(33),输入信号计算电路 )等。 组合计算电路(33)根据坐标提取电路(32)和接收光强度计算电路(31)得到的信息,算出各坐标位置的接收光强度。 输入信号计算电路(35)计算激光指示器(50)与图像显示面的距离,并且根据所接收的光强度信息检测激光指示器的三维位置。 因此,输入位置检测系统以更高的准确度处理三维指向。