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    • 22. 发明授权
    • Display apparatus
    • 显示装置
    • US07453450B2
    • 2008-11-18
    • US11086653
    • 2005-03-23
    • Yutaka SanoSatoshi Morita
    • Yutaka SanoSatoshi Morita
    • G09G5/00
    • G09G3/3688G09G2320/0223
    • A liquid crystal display apparatus is constituted whereby multiple source driver circuits provided with a driver IC are connected to the periphery of a liquid crystal display panel, and power supply voltages supplied from the outside are sequentially supplied from a specific source driver circuit to an adjacent source driver circuit, and a wire resistance calculation wire is formed for the driver IC in the voltage supply direction upstream, and is approximately equivalent to the signal wires extending from the upstream driver IC to the adjacent driver IC in the voltage supply direction downstream. The driver IC calculates the wire resistance by impressing a certain calculated voltage to one end of the wire resistance calculation wire, and then detects the voltage on the other end, calculates the amounts of the drop in voltage level based on the calculated wire resistance, and outputs the power supply voltages increased by the calculated respective amounts of the voltage drop to the downstream driver IC. Accordingly, a display apparatus is provided for preventing a drop in the power supply voltages sequentially supplied, thereby inhibiting malfunctioning of the driver ICs, resulting in improved display quality.
    • 构成液晶显示装置,其中设置有驱动器IC的多个源极驱动电路连接到液晶显示面板的周围,并且从外部提供的电源电压从特定的源极驱动电路顺序地供给到相邻的源极 驱动电路和线电阻计算线形成为上游的电压供给方向上的驱动器IC,并且与从上游驱动器IC向下游的电压供给方向的相邻驱动器IC延伸的信号线近似相等。 驱动器IC通过将一定的计算电压施加到导线电阻计算线的一端来计算导线电阻,然后检测另一端的电压,基于计算的线电阻计算电压电平的下降量,以及 将计算的各个电压降量的电源电压输出到下游驱动器IC。 因此,提供了一种用于防止顺序提供的电源电压下降的显示装置,从而抑制驱动器IC的故障,从而提高了显示质量。
    • 23. 发明授权
    • Electrochromic display
    • 电致变色显示
    • US07369295B2
    • 2008-05-06
    • US11345435
    • 2006-01-31
    • Satoshi MoritaTakao Yamauchi
    • Satoshi MoritaTakao Yamauchi
    • G02F1/153
    • G02F1/157G02F2001/1635
    • An electrochromic display is disclosed which comprises an array side substrate (10) on which a pixel electrode (15) and an electrochromic layer (30) are formed, a color filter side substrate (50) on which a counter electrode (53) and an electrochromic layer (54) are formed, and an electrolytic layer (80) injected between the array side substrate (10) and the color filter side substrate (50). By forming the pixel electrode (15) of a reflective electrode material, it becomes unnecessary to add a coloring agent in the electrolytic layer (80) for enhancing contrast and therefore the electrolytic layer (80) can be made thin.
    • 公开了一种电致变色显示器,其包括其上形成有像素电极(15)和电致变色层(30)的阵列侧基板(10),其上具有对电极(53)和 形成电致变色层(54),并且在阵列侧基板(10)和滤色器侧基板(50)之间注入电解质层(80)。 通过形成反射电极材料的像素电极(15),不需要在用于增强对比度的电解质层(80)中添加着色剂,因此可以使电解质层(80)变薄。
    • 24. 发明申请
    • Electro-optical device, electronic apparatus, and method of manufacturing electro-optical device
    • 电光装置,电子装置以及电光装置的制造方法
    • US20070252152A1
    • 2007-11-01
    • US11785386
    • 2007-04-17
    • Takashi SatoSatoshi Morita
    • Takashi SatoSatoshi Morita
    • H01L29/786H01L21/84
    • G02F1/136213G02F1/136227G02F2001/13606H01L27/1255H01L29/4908H01L29/7869
    • An electro-optical device includes a thin-film transistor in each of a plurality of pixel regions on an element substrate, the thin film transistor including a gate electrode, a gate insulating layer disposed above the gate electrode, and a semiconductor layer disposed above the gate insulating layer, a pixel electrode that is electrically connected to a drain region of the thin-film transistor, and a storage capacitor including a lower electrode and an upper electrode, the lower electrode and the upper electrode facing each other, the gate insulating layer being disposed between the lower electrode and the upper electrode. The gate insulating layer including a lower gate insulating layer having one or a plurality of insulating films, and an upper gate insulating layer having one or a plurality of insulating films. The lower gate insulating layer having a thickness sufficient to reduce parasitic capacitance of the thin-film transistor, and a portion of the lower gate insulating layer being removed where the lower electrode and the upper electrode overlap each other.
    • 电光装置包括在元件基板上的多个像素区域中的每一个中的薄膜晶体管,薄膜晶体管包括栅极电极,栅极绝缘层设置在栅电极上方,半导体层设置在 栅极绝缘层,电连接到薄膜晶体管的漏极区域的像素电极和包括下部电极和上部电极的存储电容器,所述下部电极和上部电极彼此面对,所述栅极绝缘层 设置在下电极和上电极之间。 该栅极绝缘层包括具有一个或多个绝缘膜的下部栅极绝缘层和具有一个或多个绝缘膜的上部栅极绝缘层。 所述下栅极绝缘层的厚度足以减小所述薄膜晶体管的寄生电容,并且所述下栅绝缘层的一部分被去除,其中所述下电极和所述上电极彼此重叠。
    • 25. 发明申请
    • Liquid crystal display device and method for manufacturing the same
    • 液晶显示装置及其制造方法
    • US20070058097A1
    • 2007-03-15
    • US11519032
    • 2006-09-12
    • Takayuki KatoHiroki SugiyamaShinichiro NomuraTakao AtarashiyaSatoshi MoritaTakashi Sato
    • Takayuki KatoHiroki SugiyamaShinichiro NomuraTakao AtarashiyaSatoshi MoritaTakashi Sato
    • G02F1/1343
    • G02F1/136213G02F1/136286G02F2001/136295
    • A liquid crystal display device 10 includes: a transparent substrate 11; a plurality of signal lines 17 and scan lines 16 arranged on the transparent substrate 11 in a matrix; a plurality of auxiliary capacitor lines 18 provided between the scan lines 16 so as to be in parallel with the scan lines 16; thin film transistors (TFTs) each provided in a vicinity of an intersection of the signal lines 17 and scan lines 16; and pixel electrodes 20 arranged in respective positions defined by the signal lines 17 and the scan lines 16 and each electrically connected to a drain electrode D of the thin film transistor (TFT); in which the thin film transistor (TFT)'s gate electrode G and the scan line 16 are covered by a gate insulating film formed by an insulating film (a first layer) 25 and an insulating layer (a second layer) 26, and the drain electrode D of the thin film transistor (TFT) extends to overlie an auxiliary capacitor electrode 18a, with the insulating layer (the second layer) 26 interposed between the drain electrode D and the auxiliary capacitor electrode 18a. As a result, it will be possible to provide a liquid crystal display device and a method for manufacturing the same are provided, in which the capacitance of an auxiliary capacitor electrode is increased without reducing the aperture ratio of each pixel and which is suitable to realize a relatively small pixel area and high definition.
    • 液晶显示装置10包括:透明基板11; 以矩阵形式布置在透明基板11上的多条信号线17和扫描线16; 设置在扫描线16之间以与扫描线16平行的多个辅助电容线18; 每个设置在信号线17和扫描线16的交叉点附近的薄膜晶体管(TFT); 以及排列在由信号线17和扫描线16限定的各个位置并且各自电连接到薄膜晶体管(TFT)的漏电极D的像素电极20; 其中薄膜晶体管(TFT)的栅电极G和扫描线16被由绝缘膜(第一层)25和绝缘层(第二层)26形成的栅极绝缘膜覆盖,并且 薄膜晶体管(TFT)的漏电极D延伸以覆盖辅助电容器电极18a,绝缘层(第二层)26介于漏电极D和辅助电容电极18a之间。 结果,可以提供一种液晶显示装置及其制造方法,其中辅助电容器电极的电容增加而不降低每个像素的开口率并且适合于实现 相对较小的像素区域和高清晰度。
    • 26. 发明授权
    • Photosensitive material processing apparatus
    • 感光材料加工设备
    • US5523817A
    • 1996-06-04
    • US474752
    • 1995-06-07
    • Satoshi Morita
    • Satoshi Morita
    • G03D3/08G03D3/13
    • G03D3/13G03D3/132
    • A photosensitive material processing apparatus is provided in which the structure thereof is simple, a plurality of types of photosensitive materials can be reliably guided in accordance with the width of the photosensitive material to be conveyed, and the guide width changing operation can be easily effected. A wide film F1 can receive driving force in a state in which the film F1 is nipped between a collar portion 50 having a larger diameter and a circumferential surface of a roller 26. Because side plates 20, 22 serve as width guides of the film F1, the film F1 is stably conveyed. In a case in which a narrow film F2 is processed, a bearing 32 is moved so that a protruding portion 46 of the bearing 32 is inserted through a concave portions 48 which is located closer to the roller 26. Accordingly, the collar portion 50 is accommodated within a groove portion 54, and a collar portion 52 having a smaller diameter contacts the circumferential surface of the roller 26 so that the narrow film F2 is nipped between the circumferential surface of the collar portion 52 and the roller 26. Further, the end surface of the collar portion 50 having a larger diameter serves as a guide. Therefore, the narrow film F2 can also be stably conveyed.
    • 提供了一种光敏材料处理装置,其结构简单,可以根据要传送的感光材料的宽度可靠地引导多种类型的感光材料,并且可以容易地实现引导宽度改变操作。 宽膜F1可以在胶片F1被夹在具有较大直径的轴环部分50和辊26的周向表面之间的状态下接收驱动力。由于侧板20,22用作胶片F1的宽度导轨 胶片F1稳定地传送。 在加工薄膜F2的情况下,轴承32移动,使得轴承32的突出部分46通过位于更靠近辊26的凹部48插入。因此,套环部分50是 容纳在凹槽部分54中,并且具有较小直径的凸缘部分52接触辊26的圆周表面,使得窄的薄膜F2夹在凸缘部分52的圆周表面和辊26之间。此外,端部 具有较大直径的套环部分50的表面用作引导件。 因此,也可以稳定地输送窄膜F2。
    • 28. 发明授权
    • Liquid crystal display device including a light-blocking member
    • 含有遮光部件的液晶显示装置
    • US08553182B2
    • 2013-10-08
    • US11523629
    • 2006-09-20
    • Hiroki SugiyamaShinichiro NomuraTakayuki KatoSatoshi Morita
    • Hiroki SugiyamaShinichiro NomuraTakayuki KatoSatoshi Morita
    • G02F1/1333G02F1/1343
    • G02F1/133514G02F1/134336G02F1/136209G02F2001/13606
    • A liquid crystal display device of the present invention comprises an array substrate 11 equipped with signal lines 33 and scan lines 32 deployed in a matrix arrangement, thin film transistors (TFTs) 34 provided near the intersections of the signal lines 33 and scan lines 32, and pixel electrodes 40 of which one is provided in each of the pixel domains delimited by the signal lines 33 and scan lines 32; a color filter substrate 12 on which are formed color filters 22R to 22B and common electrodes 23; and a liquid crystal layer 13 placed between said two substrates; wherein the pixel electrodes 40 are positioned so as not to overlap the signal lines 33, or not to overlap the scan lines 32, or not to overlap either, when viewed from above, and below the spaces between adjacent pixel electrodes 40, resin black matrices 45 are deployed so as to overlap the pixel electrodes 40 when viewed from above.
    • 本发明的液晶显示装置包括:阵列基板11,配置有以矩阵状布置的信号线33和扫描线32;设置在信号线33和扫描线32的交叉点附近的薄膜晶体管(TFT) 并且其中一个被设置在由信号线33和扫描线32限定的每个像素域中的像素电极40; 滤色器基板12,其上形成滤色器22R至22B和公共电极23; 和位于所述两个基板之间的液晶层13; 其中像素电极40被定位成不与信号线33重叠,或者不与扫描线32重叠,或者当从上方观察时,并且在相邻的像素电极40之间的空间下方,树脂黑矩阵 当从上方观察时,它们被配置成与像素电极40重叠。
    • 29. 发明授权
    • Liquid crystal display device and method for manufacturing the same
    • 液晶显示装置及其制造方法
    • US07602452B2
    • 2009-10-13
    • US11519032
    • 2006-09-12
    • Takayuki KatoHiroki SugiyamaShinichiro NomuraTakao AtarashiyaSatoshi MoritaTakashi Sato
    • Takayuki KatoHiroki SugiyamaShinichiro NomuraTakao AtarashiyaSatoshi MoritaTakashi Sato
    • G02F1/1343
    • G02F1/136213G02F1/136286G02F2001/136295
    • A liquid crystal display device 10 includes: a transparent substrate 11; a plurality of signal lines 17 and scan lines 16 arranged on the transparent substrate 11 in a matrix; a plurality of auxiliary capacitor lines 18 provided between the scan lines 16 so as to be in parallel with the scan lines 16; thin film transistors (TFTs) each provided in a vicinity of an intersection of the signal lines 17 and scan lines 16; and pixel electrodes 20 arranged in respective positions defined by the signal lines 17 and the scan lines 16 and each electrically connected to a drain electrode D of the thin film transistor (TFT); in which the thin film transistor (TFT)'s gate electrode G and the scan line 16 are covered by a gate insulating film formed by an insulating film (a first layer) 25 and an insulating layer (a second layer) 26, and the drain electrode D of the thin film transistor (TFT) extends to overlie an auxiliary capacitor electrode 18a, with the insulating layer (the second layer) 26 interposed between the drain electrode D and the auxiliary capacitor electrode 18a. As a result, it will be possible to provide a liquid crystal display device and a method for manufacturing the same are provided, in which the capacitance of an auxiliary capacitor electrode is increased without reducing the aperture ratio of each pixel and which is suitable to realize a relatively small pixel area and high definition.
    • 液晶显示装置10包括:透明基板11; 以矩阵形式布置在透明基板11上的多条信号线17和扫描线16; 设置在扫描线16之间以与扫描线16平行的多个辅助电容线18; 每个设置在信号线17和扫描线16的交叉点附近的薄膜晶体管(TFT); 以及排列在由信号线17和扫描线16限定的各个位置并且各自电连接到薄膜晶体管(TFT)的漏电极D的像素电极20; 其中薄膜晶体管(TFT)的栅电极G和扫描线16被由绝缘膜(第一层)25和绝缘层(第二层)26形成的栅极绝缘膜覆盖,并且 薄膜晶体管(TFT)的漏电极D延伸以覆盖辅助电容器电极18a,绝缘层(第二层)26介于漏电极D和辅助电容电极18a之间。 结果,可以提供一种液晶显示装置及其制造方法,其中辅助电容器电极的电容增加而不降低每个像素的开口率并且适合于实现 相对较小的像素区域和高清晰度。
    • 30. 发明申请
    • Active matrix liquid crystal display device
    • 有源矩阵液晶显示装置
    • US20060221288A1
    • 2006-10-05
    • US11374137
    • 2006-03-14
    • Akio OtaSatoshi MoritaMakoto MurakamiOsamu Kobayashi
    • Akio OtaSatoshi MoritaMakoto MurakamiOsamu Kobayashi
    • G02F1/1343
    • G02F1/136204G02F2201/123
    • An active matrix liquid crystal display device 10 of the present invention includes: a plurality of signal lines Y1, . . . Ym and scanning lines X1, . . . Xn, Xn+1, Xn+2 which are arranged in a matrix state on a substrate; switching transistors 14 arranged near the intersection of each of the signal lines and the scanning lines; and pixel electrodes that are severally arranged in positions surrounded by the signal lines and the scanning lines and connected to the switching transistors, in which the pixel electrode is made up of a pixel electrode for display 12(25) that contributes to display, which is provided in an effective display region, and a dummy pixel electrode 27 that does not contribute to display, which is provided in a non-effective display region, and the dummy pixel electrode has a smaller area than the area of the pixel electrode for display and a plurality of the dummy pixel electrodes are parallelly provided for each signal line. Consequently, it is possible to provide an active matrix liquid crystal display device in which a large number of dummy pixel electrodes are provided without increasing the area of the non-effective display region and which is capable of dealing with multiple entries of static electricity from terminals.
    • 本发明的有源矩阵液晶显示装置10包括:多条信号线Y 1,...。 。 。 Ym和扫描线X 1,。 。 。 Xn,Xn + 1,Xn + 2,其在基板上以矩阵状排列; 开关晶体管14布置在每个信号线和扫描线的交点附近; 以及像素电极,其分别设置在由信号线和扫描线包围的位置上,并连接到开关晶体管,其中像素电极由有助于显示的显示器12(25)的像素电极构成,这是有助于显示的 设置在有效显示区域中的虚拟像素电极27和设置在非有效显示区域中的无助于显示的虚拟像素电极27,并且虚拟像素电极具有比用于显示的像素电极的面积小的面积, 为每个信号线平行地设置多个虚拟像素电极。 因此,可以提供一种有源矩阵液晶显示装置,其中提供大量虚拟像素电极,而不增加非有效显示区域的面积,并且能够处理来自端子的多个静电条目 。