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    • 1. 发明授权
    • Display device
    • 显示设备
    • US08373640B2
    • 2013-02-12
    • US11988229
    • 2006-05-19
    • Takashi IshizumiYoshihiro IzumiYasukuni Yamane
    • Takashi IshizumiYoshihiro IzumiYasukuni Yamane
    • G09G3/36
    • G09G3/3426G02F1/133602G02F2001/133625G09G3/22G09G3/3413G09G2300/0426G09G2300/0439G09G2310/0235G09G2360/16
    • In one embodiment of the present invention, a display device is disclosed which performs a divided-screen active driving, and which allows (i) its emitting region to be divided into smaller units, irrespective of the smallest module unit of a light source; and (ii) minimizing increase in costs for a driving system and manufacturing of an area light source, a display device of the present invention includes: a display panel having unit display pixels; an area light source arranged on a back surface of the display panel, the area light source having an emitting region which is divided into divided emitting regions; and a controlling section for controlling luminance of each of the divided emitting regions of the area light source, based on luminance information of video signals input, wherein the area light source includes: unit emitting pixels which controls light emission of the divided emitting regions through a matrix driving; the unit emitting pixels each having an electron emitting element for emitting an electron, and a fluorescent substance which emits light by being excited by the electron emitted from the electron emitting element, the unit emitting pixels each occupying an area which is equivalent to an area of plural pixels out of the unit display pixels.
    • 在本发明的一个实施例中,公开了一种执行分屏幕主动驱动的显示装置,并且其允许(i)其发射区域被划分成更小的单元,而与光源的最小模块单元无关; 本发明的显示装置包括:具有单位显示像素的显示面板;以及(ii)最小化驱动系统的成本增加和面积光源的制造, 所述区域光源布置在所述显示面板的后表面上,所述区域光源具有被划分为分割的发射区域的发射区域; 以及控制部分,用于根据输入的视频信号的亮度信息来控制区域光源的每个划分的发光区域的亮度,其中该区域光源包括:发射通过一个 矩阵驱动 每个具有用于发射电子的电子发射元件的发射单元的单元和通过由从电子发射元件发射的电子激发而发光的荧光物质,每个占据相当于 单位显示像素中的多个像素。
    • 2. 发明申请
    • Display Device
    • 显示设备
    • US20090040171A1
    • 2009-02-12
    • US11988229
    • 2006-05-19
    • Takashi IshizumiYoshihiro IzumiYasukuni Yamane
    • Takashi IshizumiYoshihiro IzumiYasukuni Yamane
    • G09G5/10
    • G09G3/3426G02F1/133602G02F2001/133625G09G3/22G09G3/3413G09G2300/0426G09G2300/0439G09G2310/0235G09G2360/16
    • In one embodiment of the present invention, a display device is disclosed which performs a divided-screen active driving, and which allows (i) its emitting region to be divided into smaller units, irrespective of the smallest module unit of a light source; and (ii) minimizing increase in costs for a driving system and manufacturing of an area light source, a display device of the present invention includes: a display panel having unit display pixels; an area light source arranged on a back surface of the display panel, the area light source having an emitting region which is divided into divided emitting regions; and a controlling section for controlling luminance of each of the divided emitting regions of the area light source, based on luminance information of video signals input, wherein the area light source includes: unit emitting pixels which controls light emission of the divided emitting regions through a matrix driving; the unit emitting pixels each having an electron emitting element for emitting an electron, and a fluorescent substance which emits light by being excited by the electron emitted from the electron emitting element, the unit emitting pixels each occupying an area which is equivalent to an area of plural pixels out of the unit display pixels.
    • 在本发明的一个实施例中,公开了一种执行分屏幕主动驱动的显示装置,并且其允许(i)其发射区域被划分成更小的单元,而与光源的最小模块单元无关; 本发明的显示装置包括:具有单位显示像素的显示面板;以及(ii)最小化驱动系统的成本增加和面积光源的制造, 所述区域光源布置在所述显示面板的后表面上,所述区域光源具有被划分为分割的发射区域的发射区域; 以及控制部分,用于根据输入的视频信号的亮度信息来控制区域光源的每个划分的发光区域的亮度,其中该区域光源包括:发射通过一个 矩阵驱动 每个具有用于发射电子的电子发射元件的发射单元的单元和通过由从电子发射元件发射的电子激发而发光的荧光物质,每个占据相当于 单位显示像素中的多个像素。
    • 5. 发明申请
    • Two-Dimensional Image Detecting Apparatus and Method for Manufacturing the Same
    • 二维图像检测装置及其制造方法
    • US20080099869A1
    • 2008-05-01
    • US11666008
    • 2005-10-18
    • Yoshihiro Izumi
    • Yoshihiro Izumi
    • H01L31/101H01L21/782
    • G01T1/2928H01L27/14618H01L27/14632H01L27/14676H01L27/14692H01L31/0203H01L2924/0002H01L2924/00
    • The present invention provides a two-dimensional image detecting apparatus including a mold structure which apparatus can be applied to mammography, and a manufacturing method thereof. The manufacturing method includes: a conversion layer formation step of forming a conversion layer (3) on an active matrix substrate (2); a counter substrate formation step of disposing a spacer material (5) and disposing the counter substrate (6) so as to be opposite to the active matrix substrate (2) via the spacer material (5); a mold resin layer formation step of forming a mold structure layer (8) in a space surrounded by the conversion layer (3), the spacer material (5), and the counter substrate (6); and a cutting step of cutting at least the active matrix substrate (2) so that cut surfaces of the constituent members are flush with each other; and a sealing step of securing a sealing material (7) to the cut surface.
    • 本发明提供了一种二维图像检测装置及其制造方法,该二维图像检测装置包括可用于乳房X线照相术的装置的模具结构。 制造方法包括:在有源矩阵基板(2)上形成转换层(3)的转换层形成步骤; 相对基板形成步骤,通过间隔材料(5)设置间隔材料(5)并将相对基板(6)设置成与有源矩阵基板(2)相对; 在由所述转换层(3),所述间隔材料(5)和所述对向基板(6)包围的空间中形成模具结构层(8)的模具树脂层形成步骤; 以及切割步骤,至少切割所述有源矩阵基板(2),使得所述构成部件的切割表面彼此齐平; 以及将密封材料(7)固定到切割表面的密封步骤。
    • 6. 发明授权
    • Image input/output device and image information reading method therefor
    • 图像输入/输出设备及其图像信息读取方法
    • US07256764B2
    • 2007-08-14
    • US10679372
    • 2003-10-07
    • Yoshihiro Izumi
    • Yoshihiro Izumi
    • G09G3/36
    • H01L27/3234G09G3/3208G09G2300/08H01L27/14678H01L27/32H04N1/00129H04N1/028H04N1/02805
    • An image input/output device 100 includes an image information detection section 130 for detecting image information of an image information object 200 by receiving reflected light L from the image information object 200, and a self-luminous image display section 120 for displaying an image based on the image information detected by the image information detection section 130. The image information detection section 130 and the self-luminous image display section 120 are attached together in a back-to-back arrangement. The self-luminous image display section 120 functions as an image-information-detecting light source for irradiating the image information object 200 with light L through the image information detection section 130.
    • 图像输入/输出装置100包括用于通过从图像信息对象200接收反射光L来检测图像信息对象200的图像信息的图像信息检测部分130,以及用于显示基于图像的自发光图像显示部分120 关于由图像信息检测部分130检测的图像信息。 图像信息检测部130和自发光图像显示部120以背对背的方式安装在一起。 自发光图像显示部分120用作通过图像信息检测部分130用光L照射图像信息对象200的图像信息检测光源。
    • 7. 发明授权
    • Active matrix substrate, method of manufacturing the same, and image sensor incorporating the same
    • 有源矩阵基板及其制造方法以及包含该基板的图像传感器
    • US07250991B2
    • 2007-07-31
    • US10795981
    • 2004-03-10
    • Hisashi NagataYoshihiro IzumiTakayuki Shimada
    • Hisashi NagataYoshihiro IzumiTakayuki Shimada
    • G02F1/1343
    • G02F1/136213H01L27/14609
    • A signal line and a pixel capacitor wire that doubles as a pixel capacitor electrode are fabricated parallel to each other from the same electrode layer through patterning thereof. Therefore, no additional steps are required to form the pixel capacitor wire. In such an arrangement, the pixel capacitor wire and the signal line are disposed parallel to each other; therefore, delays of signal transmission in the signal line and crosstalk between pixels are prevented from occurring. The active matrix substrate incorporating this arrangement is suitably used in liquid crystal display devices, image sensors, and the like. Similar advantages are available with an arrangement in which the signal line and the pixel capacitor wire are disposed parallel to each other, and the storage capacitor electrode, which will constitute a storage capacitor with the pixel electrode therebetween, and the scanning line are fabricated from the same electrode layer through patterning thereof.
    • 兼作像素电容电极的信号线和像素电容器线通过其图案化从相同的电极层彼此平行地制造。 因此,不需要额外的步骤来形成像素电容器线。 在这种布置中,像素电容布线和信号线彼此平行设置; 因此,防止信号线中的信号传输的延迟和像素之间的串扰发生。 结合这种布置的有源矩阵基板适用于液晶显示装置,图像传感器等。 信号线和像素电容配线彼此平行配置的结构也可以获得类似的优点,并且将由它们之间的像素电极构成存储电容器的辅助电容器电极和扫描线由 通过图案化相同的电极层。
    • 8. 发明授权
    • Self-luminescence image display unit
    • 自发光图像显示单元
    • US07176619B2
    • 2007-02-13
    • US10487296
    • 2002-07-18
    • Koichi MiyachiMotohiro YamaharaYoshihiro Izumi
    • Koichi MiyachiMotohiro YamaharaYoshihiro Izumi
    • H01J1/62
    • H01L51/5281G02B5/30G02B5/3083H01L27/32
    • A self-luminous image display apparatus of the present invention includes an output section for displaying an image, a reflection section provided on a rear side of the output section with a reflective surface thereof facing the output section, and a light-emitting section provided on a rear side of the output section. The output section includes a linear polarization device provided so as to cover a display surface for transmitting only predetermined linearly-polarized light of ambient light, and a retardation film provided closer to the light-emitting section than the linear polarization device for turning the linearly-polarized light transmitted through the linear polarization device into circularly-polarized light. The linear polarization device has a degree of polarization greater than 70.0%.
    • 本发明的自发光图像显示装置包括用于显示图像的输出部分,设置在输出部分的后侧上的反射部分,其反射表面面向输出部分,并且发光部分设置在 输出部分的后侧。 输出部分包括线性极化装置,其被设置为覆盖仅用于传输环境光的预定线性偏振光的显示表面;以及比线性偏振装置更靠近发光部分设置的延迟膜, 透过线偏振器的偏振光成圆偏振光。 线偏振器件的极化度大于70.0%。
    • 10. 发明授权
    • Uneven pattern detector and uneven pattern detecting method
    • 不均匀图案检测器和不均匀图案检测方法
    • US06980008B2
    • 2005-12-27
    • US10190801
    • 2002-07-08
    • Osamu TeranumaYoshihiro Izumi
    • Osamu TeranumaYoshihiro Izumi
    • G01B7/28A61B5/117G06K9/00G06T1/00G01R27/26
    • G06K19/0718G06K9/0002
    • An uneven pattern detector has a structure wherein (a) detecting elements, each being provided with a TFT which is a switching element and a detecting electrode, are arranged in a matrix manner, and (b) a CSA connected to each data line detects charged or discharged electric charges at the respective detecting elements on respective rows sequentially selected by a gate line, whereby a capacitance (a coupled capacitance of Cf and Cx) reflecting fingerprint unevenness on a finger as a detection object can be detected. In the uneven pattern detector, each of the detecting elements is provided with an auxiliary capacitor electrode located so as to face the detecting electrode. This forms an auxiliary capacitor Cs between the auxiliary capacitor electrode and the detecting electrode. Further, a positive-phase input terminal of an operational amplifier of the CSA is connected with the auxiliary capacitor electrode so as to hold the positive-phase input terminal of the operational amplifier of the CSA and the auxiliary capacitor electrode at an identical potential. As a result, the electric charges can be detected by the CSA without being affected by the auxiliary capacitor Cs.
    • 不均匀图案检测器具有这样的结构,其中(a)检测元件(每个被设置有开关元件和检测电极的TFT)以矩阵方式布置,并且(b)连接到每个数据线的CSA检测到充电 或在由栅极线顺序选择的各行上的各检测元件上放电电荷,由此可以检测反映作为检测对象的手指上的指纹不均匀性的电容(Cf和Cx的耦合电容)。 在不均匀图案检测器中,每个检测元件设置有面对检测电极的辅助电容电极。 这在辅助电容电极和检测电极之间形成辅助电容器Cs。 此外,CSA的运算放大器的正相输入端子与辅助电容电极连接,以将CSA的运算放大器的正相输入端子和辅助电容器电极保持在相同的电位。 结果,可以由CSA检测电荷,而不受辅助电容器Cs的影响。