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    • 2. 发明申请
    • ELECTROPHORESIS DISPLAY DEVICE
    • 电泳显示装置
    • US20100164903A1
    • 2010-07-01
    • US12629460
    • 2009-12-02
    • Jong Kwon LeeSeung Seok NamSang Soo Kim
    • Jong Kwon LeeSeung Seok NamSang Soo Kim
    • G06F3/045G06F3/041G02F1/167
    • G02F1/167G02F1/13338G06F3/0412
    • An electrophoresis display device adapted to prevent sensing errors and to reduce electric power consumption is disclosed. The electrophoresis display device includes a thin film transistor array substrate and an ink film. The thin film transistor array substrate includes a sensor configured to generate a sensing signal, and an output transistor configured to be connected to the sensor and to control the output of the sensing signal. The ink film includes a common electrode and an ink layer, which are formed on one side surface of a base film, and a floating electrode formed on the other side surface of the base film. The output transistor outputs the sensing signal when a touch current is generated on the floating electrode. The electrophoresis display device only outputs the sensing signal when a substantial touch occurs. Therefore, the electrophoresis display device can prevent sensing errors and reduce electric power consumption.
    • 公开了一种适于防止感测误差和降低电力消耗的电泳显示装置。 电泳显示装置包括薄膜晶体管阵列基板和墨膜。 薄膜晶体管阵列基板包括被配置为产生感测信号的传感器和被配置为连接到传感器并且控制感测信号的输出的输出晶体管。 油墨膜包括形成在基膜的一个侧表面上的公共电极和油墨层,以及形成在基膜的另一个侧表面上的浮动电极。 当在浮动电极上产生触摸电流时,输出晶体管输出感测信号。 电泳显示装置仅在发生实质触摸时输出感测信号。 因此,电泳显示装置可以防止感测误差,降低电力消耗。
    • 3. 发明申请
    • TOUCH TYPE ELECTROPHORETIC DISPLAY DEVICE
    • US20100123673A1
    • 2010-05-20
    • US12556689
    • 2009-09-10
    • Seung-Seok Nam
    • Seung-Seok Nam
    • G09G3/34G06F3/041G06F3/038
    • G09G3/344G06F3/0412G09G2300/08G09G2360/148
    • A touch type electrophoretic display device includes: a first substrate on which a plurality of gate lines and a plurality of data lines cross to define a plurality of pixels; a plurality of sensing signal lines formed to be parallel to the data lines on the first substrate; a plurality of first touch driving voltage lines formed to be parallel to the gate lines; a driving thin film transistor (TFT) formed at each pixel so as to be connected to the gate lines and the data lines; a pixel electrode formed at each pixel so as to be connected to the driving TFT; a switching TFT formed at each pixel so as to be connected to the sensing signal lines and the gate lines; a lo photo TFT formed in each pixel so as to be connected to the first touch driving voltage lines and the switching TFT and serving to recognize an applied touch; a second substrate attached to the first substrate in a facing manner; a common electrode formed on the second substrate; an electrophoretic film formed between the first and second substrates; a lead-out driver for detecting a position of the photo TFT when a sensing signal is transferred via the switching TFT in a corresponding pixel and the sensing signal lines according to an operation of the photo TFT, and outputting touch data; a gate control signal generating unit for outputting a second gate control signal indicating a touch mode operation when touch data is not inputted from the lead-out driver, and outputting a first gate control signal indicating a driving mode operation for converting an image if it is determined that a touch has been applied upon receiving touch data from the lead-out driver; and a gate driver for driving the gate lines upon receiving the first or second gate control signal from the gate control signal generating unit, wherein a timing at which each gate line is turned on and off when the gate driver receives the first gate control signal and a timing at which each gate line is turned on and off when the second gate control signal is received are different.
    • 4. 发明授权
    • Device and method of compressing image for display device
    • 用于显示设备压缩图像的设备和方法
    • US08824788B2
    • 2014-09-02
    • US13219150
    • 2011-08-26
    • Seung-Seok NamYoun-Jin Jung
    • Seung-Seok NamYoun-Jin Jung
    • G06K9/36
    • H04N19/137H04N19/103H04N19/115H04N19/176
    • A mode coding unit for an image compression device includes a submode determination unit, a variable bit determination unit, and a coding unit. The submode determination unit is configured to determine a submode of an image block. The submode indicates a matching degree between an upper bit of the image block and an upper bit of a reference block. The variable bit determination unit is configured to determine a size of primary color compression information fields corresponding to primary colors in a reference pixel in the image block based on a relational size of color information of the primary colors. The coding unit is configured to generate compressed image data by coding the image block based on the submode and the size of the primary color compression information fields.
    • 图像压缩装置的模式编码单元包括子模式确定单元,可变比特确定单元和编码单元。 子模式确定单元被配置为确定图像块的子模式。 子模式表示图像块的高位与参考块的高位之间的匹配度。 可变比特确定单元被配置为基于原色的颜色信息的关系大小来确定与图像块中的参考像素中的原色相对应的原色压缩信息字段的大小。 编码单元被配置为通过基于子模式和原色压缩信息字段的大小对图像块进行编码来生成压缩图像数据。
    • 6. 发明申请
    • DEVICE AND METHOD OF COMPRESSING IMAGE FOR DISPLAY DEVICE
    • 用于显示装置压缩图像的装置和方法
    • US20120257823A1
    • 2012-10-11
    • US13219150
    • 2011-08-26
    • Seung-Seok NAMYoun-Jin Jung
    • Seung-Seok NAMYoun-Jin Jung
    • G06K9/36
    • H04N19/137H04N19/103H04N19/115H04N19/176
    • A mode coding unit for an image compression device includes a submode determination unit, a variable bit determination unit, and a coding unit. The submode determination unit is configured to determine a submode of an image block. The submode indicates a matching degree between an upper bit of the image block and an upper bit of a reference block. The variable bit determination unit is configured to determine a size of primary color compression information fields corresponding to primary colors in a reference pixel in the image block based on a relational size of color information of the primary colors. The coding unit is configured to generate compressed image data by coding the image block based on the submode and the size of the primary color compression information fields.
    • 图像压缩装置的模式编码单元包括子模式确定单元,可变比特确定单元和编码单元。 子模式确定单元被配置为确定图像块的子模式。 子模式表示图像块的高位与参考块的高位之间的匹配度。 可变比特确定单元被配置为基于原色的颜色信息的关系大小来确定与图像块中的参考像素中的原色相对应的原色压缩信息字段的大小。 编码单元被配置为通过基于子模式和原色压缩信息字段的大小对图像块进行编码来生成压缩图像数据。
    • 9. 发明授权
    • Touch type electrophoretic display device
    • 触摸式电泳显示装置
    • US08325130B2
    • 2012-12-04
    • US12556689
    • 2009-09-10
    • Seung-Seok Nam
    • Seung-Seok Nam
    • G09G3/34
    • G09G3/344G06F3/0412G09G2300/08G09G2360/148
    • A touch-type electrophoretic display device, including: a first substrate with crossing gate and data lines, defining pixels, sensing signal lines parallel to the data lines, first touch driving voltage lines parallel to the gate lines, at each pixel: a driving thin film transistor (TFT) connected to the gate and data lines, a pixel electrode connected to the driving TFT, a switching TFT connected to the sensing signal and gate lines, and a photo TFT connected to the first touch driving voltage lines and the switching TFT and recognizing an applied touch, a lead-out driver detecting a position of the photo TFT when a sensing signal is transferred and the sensing signal lines, and outputting touch data, a gate control signal (GCS) generating unit outputting: a touch mode gate control signal when touch data is not inputted, and a driving mode GCS for converting an image if a touch is applied.
    • 一种触摸式电泳显示装置,包括:具有交叉栅极和数据线的第一基板,限定像素,与数据线平行的感测信号线,在每个像素处平行于栅极线的第一触摸驱动电压线:驱动薄膜 连接到栅极和数据线的薄膜晶体管(TFT),连接到驱动TFT的像素电极,连接到感测信号和栅极线的开关TFT,以及连接到第一触摸驱动电压线和开关TFT 并且识别所施加的触摸,当检测到感测信号被传送时检测到所述光TFT的位置的导出驱动器和所述感测信号线,并且输出触摸数据;门控制信号(GCS)产生单元,其输出:触摸模式门 当没有输入触摸数据时的控制信号,以及用于在应用触摸时转换图像的驱动模式GCS。