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    • 1. 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
    • US20110141419A1
    • 2011-06-16
    • US13057367
    • 2009-08-03
    • Hisashi NagataJunichi Yamada
    • Hisashi NagataJunichi Yamada
    • G02F1/1337H01J9/20
    • G02F1/133788G02F1/133707G02F1/1362G02F1/1393
    • The present invention provides a liquid crystal display device, which can minimize display non-uniformity even when driven by capacitive coupling, and also provides a method for fabricating such a device. A method for fabricating a liquid crystal display device according to the present invention includes the steps of: providing an LCD panel that includes a photopolymerizable compound in its liquid crystal layer; and forming alignment sustaining layers by polymerizing the photopolymerizable compound in the liquid crystal layer of the LCD panel with the liquid crystal layer irradiated with light and supplied with a voltage simultaneously. The step of forming the alignment sustaining layers includes the steps of: i) applying a predetermined voltage between a pixel electrode and a counter electrode while a switching element is in ON state; and ii) changing the voltage at a storage capacitor counter electrode into a voltage, of which the polarity is opposite to a voltage at the storage capacitor counter electrode in the step i), after the switching element in ON state has been turned OFF.
    • 本发明提供一种液晶显示装置,即使在通过电容耦合驱动时也能使显示不均匀化最小化,并且还提供了制造这种装置的方法。 根据本发明的液晶显示装置的制造方法包括以下步骤:在其液晶层中提供包含可光聚合化合物的LCD面板; 以及通过在LCD面板的液晶层中聚合可光致聚合化合物并用同时照射光并被提供电压的液晶层来形成取向维持层。 形成取向维持层的步骤包括以下步骤:i)当开关元件处于导通状态时,在像素电极和对电极之间施加预定电压; 以及ii)在开关元件处于导通状态的开关状态之后,将存储电容器对置电极处的电压改变为与步骤i)中的存储电容器对电极处的电压极性相反的电压。
    • 2. 发明授权
    • Method of driving data lines, and display device and liquid crystal display device using method
    • 驱动数据线的方法,显示装置和液晶显示装置的使用方法
    • US07196968B2
    • 2007-03-27
    • US10986033
    • 2004-11-12
    • Harumi OkunoJunichi YamadaHisashi Nagata
    • Harumi OkunoJunichi YamadaHisashi Nagata
    • G11C8/00
    • G09G3/3685G09G3/3614G09G2310/0297G09G2310/06G09G2320/0219
    • A method of driving source lines is arranged as follows: One output signal line S61 of a source driver is connected to a plurality of lines corresponding to respective source lines SR7 through SB12, and these source lines from SR7 (starting data line) to SB12 (terminating data line) are grouped as one block (group). In each block, a signal voltage of a divided output is supplied to the source lines during a first horizontal period T, while a signal voltage whose polarity is opposite to that of the aforesaid output is supplied to the source lines in a second horizontal period that is after the first horizontal period. In each of the horizontal periods, the source lines SR7 through SB12 are subjected to sequential selection. In addition to this, the source line SB12 is selected before turning the source line SR7 off. With this, a method of driving source lines, which can restrain (eliminate) the voltage variation on each source line and pixel electrode on account parasitic capacities between source lines, can be realized.
    • 驱动源极线的方法如下:源极驱动器的一个输出信号线S 61连接到对应于各个源极线SR 7至SB 12的多条线,并且来自SR 7(起始数据线 )到SB 12(终止数据线)被分组为一个块(组)。 在每个块中,分割输出的信号电压在第一水平周期T期间被提供给源极线,而极性与上述输出的极性相反的信号电压在第二水平周期中被提供给源极线, 是在第一个水平时期之后。 在每个水平周期中,对源极线SR7至SB12进行顺序选择。 除此之外,在将源极线SR7截止之前选择源极线SB 12。 由此,可以实现一种驱动源极线的方法,其可以考虑到源极线之间的寄生电容来抑制(消除)每个源极线和像素电极上的电压变化。
    • 3. 发明授权
    • Method for manufacturing liquid crystal display device including forming alignment sustaining layers
    • 一种制造液晶显示装置的方法,包括形成取向维持层
    • US08654288B2
    • 2014-02-18
    • US13057367
    • 2009-08-03
    • Hisashi NagataJunichi Yamada
    • Hisashi NagataJunichi Yamada
    • G02F1/1337G02F1/141G02F1/1333
    • G02F1/133788G02F1/133707G02F1/1362G02F1/1393
    • A method for fabricating a liquid crystal display device includes providing an LCD panel that includes a photopolymerizable compound in its liquid crystal layer; and forming alignment sustaining layers by polymerizing the photopolymerizable compound in the liquid crystal layer of the LCD panel with the liquid crystal layer irradiated with light and supplied with a voltage simultaneously. The forming the alignment sustaining layers includes the steps of: i) applying a predetermined voltage between a pixel electrode and a counter electrode while a switching element is in ON state; and ii) changing the voltage at a storage capacitor counter electrode into a voltage, of which the polarity is opposite to a voltage at the storage capacitor counter electrode in the step i), after the switching element in ON state has been turned OFF.
    • 一种液晶显示装置的制造方法,其特征在于,在其液晶层中设置包含光聚合性化合物的LCD面板, 以及通过在LCD面板的液晶层中聚合可光致聚合化合物并用同时照射光并被提供电压的液晶层来形成取向维持层。 形成取向维持层包括以下步骤:i)当开关元件处于导通状态时,在像素电极和对电极之间施加预定电压; 以及ii)在开关元件处于导通状态的开关状态之后,将存储电容器对置电极处的电压改变为与步骤i)中的存储电容器对电极处的电压极性相反的电压。
    • 4. 发明申请
    • Method of driving data lines, and display device and liquid crystal display device using method
    • 驱动数据线的方法,显示装置和液晶显示装置的使用方法
    • US20050281127A1
    • 2005-12-22
    • US10986033
    • 2004-11-12
    • Harumi OkunoJunichi YamadaHisashi Nagata
    • Harumi OkunoJunichi YamadaHisashi Nagata
    • G02F1/133G09G3/20G09G3/36G11C8/00
    • G09G3/3685G09G3/3614G09G2310/0297G09G2310/06G09G2320/0219
    • A method of driving source lines is arranged as follows: One output signal line S61 of a source driver is connected to a plurality of lines corresponding to respective source lines SR7 through SB12, and these source lines from SR7 (starting data line) to SB12 (terminating data line) are grouped as one block (group). In each block, a signal voltage of a divided output is supplied to the source lines during a first horizontal period T, while a signal voltage whose polarity is opposite to that of the aforesaid output is supplied to the source lines in a second horizontal period that is after the first horizontal period. In each of the horizontal periods, the source lines SR7 through SB12 are subjected to sequential selection. In addition to this, the source line SB12 is selected before turning the source line SR7 off. With this, a method of driving source lines, which can restrain (eliminate) the voltage variation on each source line and pixel electrode on account parasitic capacities between source lines, can be realized.
    • 驱动源极线的方法如下:源极驱动器的一个输出信号线S 61连接到对应于各个源极线SR 7至SB 12的多条线,并且来自SR 7(起始数据线 )到SB 12(终止数据线)被分组为一个块(组)。 在每个块中,分割输出的信号电压在第一水平周期T期间被提供给源极线,而极性与上述输出的极性相反的信号电压在第二水平周期中被提供给源极线, 是在第一个水平时期之后。 在每个水平周期中,对源极线SR7至SB12进行顺序选择。 除此之外,在将源极线SR7截止之前选择源极线SB 12。 由此,可以实现一种驱动源极线的方法,其可以考虑到源极线之间的寄生电容来抑制(消除)每个源极线和像素电极上的电压变化。
    • 6. 发明授权
    • Active-matrix-type liquid crystal display panel and method of inspecting the same
    • 有源矩阵型液晶显示面板及其检查方法
    • US06882378B2
    • 2005-04-19
    • US10621559
    • 2003-07-18
    • Hisashi NagataTakayuki ShimadaYasunobu Akebi
    • Hisashi NagataTakayuki ShimadaYasunobu Akebi
    • G09F9/00G02F1/1345G02F1/136G02F1/1362G02F1/1368G09G3/00G02F1/1333G02F1/1343
    • G09G3/006G02F1/1309G02F1/1345G02F1/136259G02F2001/136254G02F2001/136263G02F2203/69
    • Data-line inspection-use switching elements for switching the supply of inspection-use display signals are individually connected to a plurality of data lines, and scanning-line inspection-use switching elements for switching the supply of inspection-use scanning signals are individually connected to a plurality of scanning lines. The data-line inspection-use switching elements connected to the data lines are connected to an inspection-use display signal line for supplying the inspection-use display signals to the data-line inspection-use switching elements. Meanwhile, three data-line inspection-use control signal lines for inputting control signals for switching on/off the data-line inspection-use switching elements are provided in correspondence with the display colors. It is thus possible to provide an active-matrix-type liquid crystal display panel which enables an inspection with higher accuracy by performing a monochromatic display, without increasing unnecessary regions and increasing processes and defective units by cutting such regions, and enables the prevention of the outflow of the defective units and the reduction of the production cost.
    • 用于切换检查用显示信号的供给的数据线检查用开关元件分别连接到多条数据线,并且用于切换检查用扫描信号的供给的扫描线检查用开关元件分别连接 到多条扫描线。 连接到数据线的数据线检查用开关元件连接到用于将检查用显示信号提供给数据线检查用开关元件的检查用显示信号线。 同时,与显示颜色相对应地提供用于输入用于切换数据线检查用开关元件的开/关的控制信号的三条数据线检查用控制信号线。 因此,可以提供一种有源矩阵型液晶显示面板,其通过进行单色显示,能够以更高的精度进行检查,而不会通过切割这些区域而增加不必要的区域和增加的处理以及有缺陷的单元,并且能够防止 有缺陷的单位流出和生产成本的降低。
    • 7. 发明授权
    • Image sensor and method of manufacturing the same
    • 图像传感器及其制造方法
    • US06858868B2
    • 2005-02-22
    • US10458282
    • 2003-06-11
    • Hisashi NagataYoshihiro Izumi
    • Hisashi NagataYoshihiro Izumi
    • H01L27/12H01L27/146H01L29/417H01L29/786H01L29/04
    • H01L27/14609H01L27/12H01L27/14676H01L29/41733
    • On a transparent electrically insulating substrate, formed are a scanning line, and a gate electrode of a switching element, further formed are a gate insulating film, a semiconductor layer, an n+-Si layer to be formed into a source electrode and a drain electrode. After the patterning of the foregoing structure, the dielectric film is formed, and the portion corresponding to the contact hole is removed by etching, and photosensitive resin is applied to form the interlayer insulating film. Then, the transparent electrode is extended from the pixel electrode over the switching element, whereon a conversion layer and a gold layer for use in electrode are vapor-deposited. In this structure, an increase in capacitor between the pixel electrode and the signal line can be suppressed by the interlayer insulating film, and the transparent electrode functions as a top gate and release excessive electric charge. As a result, excessive electric charge can be released effectively in the double gate structure while suppressing an increase in capacitor between the pixel electrode and the signal line.
    • 在形成为扫描线的透明电绝缘基板上,还形成有栅极绝缘膜,半导体层,形成源电极的n + Si层,开关元件的栅电极, 漏电极。 在上述结构的图案化之后,形成电介质膜,通过蚀刻除去与接触孔对应的部分,并施加感光性树脂以形成层间绝缘膜。 然后,透明电极从开关元件上的像素电极延伸,在电极上使用用于电极的转换层和金层。 在这种结构中,可以通过层间绝缘膜来抑制像素电极和信号线之间的电容器的增加,并且透明电极用作顶栅并释放过多的电荷。 结果,可以在抑制像素电极与信号线之间的电容器的增加的同时,在双栅极结构中有效释放过多的电荷。