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    • 41. 发明申请
    • MANUFACTURING METHOD OF DISPLAY DEVICE
    • 显示装置的制造方法
    • US20080176351A1
    • 2008-07-24
    • US11843693
    • 2007-08-23
    • Hideaki ShimmotoTakahiro KamoTakeshi NodaTakuo KaitohEiji Oue
    • Hideaki ShimmotoTakahiro KamoTakeshi NodaTakuo KaitohEiji Oue
    • H01L21/00
    • H01L21/02678H01L21/02683H01L21/02686H01L21/02691H01L27/1285H01L29/04
    • The present invention provides a manufacturing method of a display device which can prevent the reduction of a size of a pseudo single-crystalline region having strip-like crystals in forming such a pseudo single-crystalline silicon region on a substrate. A step for forming pseudo single crystals having strip-like crystals on a preset region of a semiconductor film formed on a substrate includes a step for forming the pseudo single crystal by radiating an energy beam to a first region of the semiconductor film while moving a radiation position of the energy beam in a first direction, and a step for forming the pseudo single crystal by radiating the energy beam to a second region of the semiconductor film while moving a radiation position of the energy beam in a second direction opposite to the first direction. The first region and the second region set sizes thereof at a position where the radiation of the energy beam is finished smaller than sizes thereof at a position where the radiation of the energy beam is started. The second region includes a portion where the second region overlaps the first region and a portion where the second region does not overlap the first region.
    • 本发明提供一种显示装置的制造方法,其可以防止在基板上形成这样的假单晶硅区域时具有带状晶体的伪单晶区域的尺寸的减小。 在形成在衬底上的半导体膜的预设区域上形成具有带状晶体的伪单晶的步骤包括:通过在移动辐射的同时将能量束照射到半导体膜的第一区域来形成伪单晶的步骤 能量束在第一方向的位置,以及通过在与第一方向相反的第二方向移动能量束的辐射位置的同时将能量束照射到半导体膜的第二区域来形成伪单晶的步骤 。 第一区域和第二区域在能量束的辐射被完成的位置处的尺寸设定为小于能量束的辐射开始的位置处的尺寸。 第二区域包括第二区域与第一区域重叠的部分和第二区域与第一区域不重叠的部分。
    • 42. 发明申请
    • Manufacturing method of display device
    • 显示装置的制造方法
    • US20080050893A1
    • 2008-02-28
    • US11882828
    • 2007-08-06
    • Hideaki ShimmotoMikio HongoAkio YazakiTakeshi NodaTakuo Kaitoh
    • Hideaki ShimmotoMikio HongoAkio YazakiTakeshi NodaTakuo Kaitoh
    • H01L21/479
    • H01L21/02532H01L21/02683H01L21/02691H01L27/1285
    • A method of manufacturing a display device to improve the quality of a polycrystal silicon upon dehydrogenating and polycrystallizing an amorphous silicon at the outside of a display region of a substrate, by forming a plurality of pixels having TFT devices using an amorphous silicon in the display region of the substrate, and forming a plurality of driving circuits having semiconductor devices using a polycrystal silicon at the outside of the display region, the method including irradiation of a first continuous oscillation laser only to the amorphous silicon in the region for forming the driving circuit and the peripheral region thereof to conduct dehydrogenation and then irradiation of a second continuous oscillation region only to the dehydrogenated region to polycrystallize the amorphous silicon, wherein the region to which the first continuous oscillation laser is irradiated is wider than the region to which the second continuous oscillation laser is irradiated.
    • 一种制造显示装置的方法,通过在显示区域中形成具有使用非晶硅的TFT器件的多个像素,从而在衬底的显示区域的外侧使非晶硅脱氢和多晶化时提高多晶硅的质量 并且在显示区域的外部形成具有使用多晶硅的半导体器件的多个驱动电路,该方法包括仅在用于形成驱动电路的区域中的非晶硅上照射第一连续振荡激光,以及 其周边区域进行脱氢,然后仅将第二连续振荡区域照射到脱氢区域以将非晶硅多晶化,其中第一连续振荡激光器照射的区域比第二连续振荡区域 激光被照射。
    • 43. 发明申请
    • Manufacturing method of a display device
    • 显示装置的制造方法
    • US20070072349A1
    • 2007-03-29
    • US11509739
    • 2006-08-25
    • Takuo KaitohEiji OueToshihiko Itoga
    • Takuo KaitohEiji OueToshihiko Itoga
    • H01L21/84H01L21/00
    • H01L21/02675H01L21/2026H01L27/1285H01L27/1296H01L29/04
    • The present invention provides a manufacturing method of a display device which can decrease the lowering of a yield rate of the display device attributed to the aggregations generated by pseudo single crystallization of a silicon film. A manufacturing method of a display device includes a semiconductor film reforming step which reforms a semiconductor film into a second state in which the semiconductor film possesses elongated crystalline particles by radiating a laser beam to the semiconductor film in a first state, an aggregation detecting step which detects the aggregation of the semiconductor film which is generated in the semiconductor film reforming step, and a defect determination step which determines a product as a defective product when a position of the aggregation is present in the inside of the predetermined region and determines the product as a good product when the position of the aggregation is present outside the predetermined region.
    • 本发明提供一种显示装置的制造方法,其能够降低归因于硅膜的伪单晶化产生的聚集的显示装置的成品率的降低。 显示装置的制造方法包括:半导体膜重整工序,其将第一状态下的半导体膜照射激光,将半导体膜改性为半导体膜具有细长结晶粒子的第二状态,聚集检测步骤, 检测在半导体膜重整步骤中产生的半导体膜的聚集,以及缺陷确定步骤,当聚集的位置存在于预定区域的内部时,将产品确定为不合格品,并将产品确定为 当聚集的位置存在于预定区域之外时,产品是良好的。
    • 44. 发明授权
    • Display device and manufacturing method thereof
    • 显示装置及其制造方法
    • US07180095B2
    • 2007-02-20
    • US10780724
    • 2004-02-19
    • Takahiro KamoToshihiko ItogaTakuo KaitohMakoto Ohkura
    • Takahiro KamoToshihiko ItogaTakuo KaitohMakoto Ohkura
    • H01L29/15
    • H01L29/4908H01L27/12H01L27/1214
    • In a display device including thin film transistors formed on an insulation substrate, the thin film transistor includes a semiconductor layer, a gate electrode and a gate insulation film which is interposed between the semiconductor layer and the gate electrode. The gate insulation film includes at least one layer of deposition film which is deposited by a deposition method, and the carbon concentration of the gate insulation film which is formed without interposing other deposition film deposited by a deposition method between the one deposition film and the semiconductor layer has the distribution in which the carbon concentration is smaller at a side close to the semiconductor layer than at a side remote from the semiconductor layer. Due to such a constitution, it is possible to obviate the elevation of a level of an interface of the insulation film with respect to a poly silicon layer and it is also possible to obviate an increase of fixed charges in the inside of the insulation film in the thin film transistor.
    • 在包括形成在绝缘基板上的薄膜晶体管的显示装置中,薄膜晶体管包括半导体层,栅电极和栅极绝缘膜,其夹在半导体层和栅电极之间。 栅极绝缘膜包括通过沉积方法沉积的至少一层沉积膜,并且形成栅极绝缘膜的碳浓度,而不将其通过沉积方法沉积的其它沉积膜沉积在一个沉积膜和半导体之间 在半导体层附近的一侧的碳浓度比远离半导体层的一侧具有更小的分布。 由于这样的结构,可以避免绝缘膜相对于多晶硅层的界面的高度的上升,并且还可以避免绝缘膜内部的固定电荷的增加 薄膜晶体管。
    • 45. 发明授权
    • Display device and method of manufacturing the display device
    • 显示装置及其制造方法
    • US08958138B2
    • 2015-02-17
    • US13483095
    • 2012-05-30
    • Hidekazu NittaMakoto OhkuraTakuo KaitohKatsumi Matsumoto
    • Hidekazu NittaMakoto OhkuraTakuo KaitohKatsumi Matsumoto
    • G02B26/02G02B26/08B81B3/00
    • G02B26/085B81B3/0072B81B2201/045B81C2201/0167
    • In a movable shutter-system display device, a movable shutter includes an amorphous silicon film material which has a low residual stress and thus is stable. A display device includes a display panel comprising a first substrate and a second substrate. The display panel includes a plurality of pixels; each of the plurality of pixels includes a movable shutter including amorphous silicon and a driving circuit for driving the movable shutter; and the amorphous silicon included in the movable shutter is formed of at least two amorphous silicon films, and where any two amorphous silicon films adjacent to each other among the at least two amorphous silicon films are a first amorphous silicon film and a second amorphous silicon film stacked on the first amorphous silicon film, the first amorphous silicon film and the second amorphous silicon film have different characteristic values.
    • 在可移动快门系统显示装置中,可移动遮板包括具有低残余应力并因此是稳定的非晶硅膜材料。 显示装置包括:显示面板,包括第一基板和第二基板。 显示面板包括多个像素; 所述多个像素中的每一个包括可移动快门,其包括非晶硅和用于驱动所述活动快门的驱动电路; 并且包括在可移动快门中的非晶硅由至少两个非晶硅膜形成,并且其中在所述至少两个非晶硅膜中彼此相邻的两个非晶硅膜是第一非晶硅膜和第二非晶硅膜 堆叠在第一非晶硅膜上,第一非晶硅膜和第二非晶硅膜具有不同的特性值。
    • 46. 发明授权
    • Display device and manufacturing method thereof
    • 显示装置及其制造方法
    • US08648976B2
    • 2014-02-11
    • US12700815
    • 2010-02-05
    • Takeshi SakaiTakuo Kaitoh
    • Takeshi SakaiTakuo Kaitoh
    • G02F1/136
    • G02F1/136204H01L27/0248H01L27/124
    • A technique that can prevent breakdown of a thin film transistor due to static electricity is provided. A manufacturing method of a display device includes, in forming a plurality of thin film transistors constituting a drive circuit outside a display region as an assembly of pixels, forming a first wiring that is connected to gate electrodes of the thin film transistors to cause the thin film transistors to perform generating operation of a drive signal and a second wiring that connects gate electrodes of the thin film transistors adjacent to one another in the forming region of the drive unit in the same layer as the first wiring, and cutting the second wiring after forming the connected thin film transistors.
    • 提供了可以防止由于静电引起的薄膜晶体管的击穿的技术。 一种显示装置的制造方法,在形成构成作为像素的组合的显示区域外的驱动电路的多个薄膜晶体管时,形成与薄膜晶体管的栅电极连接的第一布线, 薄膜晶体管,用于执行驱动信号的产生操作;以及第二布线,其将所述薄膜晶体管的栅极彼此相邻地连接在与所述第一布线相同的层中的所述驱动单元的形成区域中,并且在所述第一布线之后切割所述第二布线 形成连接的薄膜晶体管。
    • 47. 发明申请
    • DISPLAY DEVICE AND METHOD OF MANUFACTURING THE DISPLAY DEVICE
    • 显示装置和制造显示装置的方法
    • US20120307334A1
    • 2012-12-06
    • US13483095
    • 2012-05-30
    • Hidekazu NITTAMakoto OhkuraTakuo KaitohKatsumi Matsumoto
    • Hidekazu NITTAMakoto OhkuraTakuo KaitohKatsumi Matsumoto
    • G02B26/02H01L33/08
    • G02B26/085B81B3/0072B81B2201/045B81C2201/0167
    • In a movable shutter-system display device, a movable shutter includes an amorphous silicon film material which has a low residual stress and thus is stable. A display device includes a display panel comprising a first substrate and a second substrate. The display panel includes a plurality of pixels; each of the plurality of pixels includes a movable shutter including amorphous silicon and a driving circuit for driving the movable shutter; and the amorphous silicon included in the movable shutter is formed of at least two amorphous silicon films, and where any two amorphous silicon films adjacent to each other among the at least two amorphous silicon films are a first amorphous silicon film and a second amorphous silicon film stacked on the first amorphous silicon film, the first amorphous silicon film and the second amorphous silicon film have different characteristic values.
    • 在可移动快门系统显示装置中,可移动遮板包括具有低残余应力并因此是稳定的非晶硅膜材料。 显示装置包括:显示面板,包括第一基板和第二基板。 显示面板包括多个像素; 所述多个像素中的每一个包括可移动快门,其包括非晶硅和用于驱动所述活动快门的驱动电路; 并且包括在可移动快门中的非晶硅由至少两个非晶硅膜形成,并且其中在至少两个非晶硅膜中彼此相邻的两个非晶硅膜是第一非晶硅膜和第二非晶硅膜 堆叠在第一非晶硅膜上,第一非晶硅膜和第二非晶硅膜具有不同的特性值。
    • 49. 发明授权
    • Manufacturing method of display device
    • 显示装置的制造方法
    • US07732268B2
    • 2010-06-08
    • US11882828
    • 2007-08-06
    • Hideaki ShimmotoMikio HongoAkio YazakiTakeshi NodaTakuo Kaitoh
    • Hideaki ShimmotoMikio HongoAkio YazakiTakeshi NodaTakuo Kaitoh
    • H01L21/00
    • H01L21/02532H01L21/02683H01L21/02691H01L27/1285
    • A method of manufacturing a display device to improve the quality of a polycrystal silicon upon dehydrogenating and polycrystallizing an amorphous silicon at the outside of a display region of a substrate, by forming a plurality of pixels having TFT devices using an amorphous silicon in the display region of the substrate, and forming a plurality of driving circuits having semiconductor devices using a polycrystal silicon at the outside of the display region, the method including irradiation of a first continuous oscillation laser only to the amorphous silicon in the region for forming the driving circuit and the peripheral region thereof to conduct dehydrogenation and then irradiation of a second continuous oscillation region only to the dehydrogenated region to polycrystallize the amorphous silicon, wherein the region to which the first continuous oscillation laser is irradiated is wider than the region to which the second continuous oscillation laser is irradiated.
    • 一种制造显示装置的方法,通过在显示区域中形成具有使用非晶硅的TFT器件的多个像素,从而在衬底的显示区域的外侧使非晶硅脱氢和多晶化时提高多晶硅的质量 并且在显示区域的外部形成具有使用多晶硅的半导体器件的多个驱动电路,该方法包括仅在用于形成驱动电路的区域中的非晶硅上照射第一连续振荡激光,以及 其周边区域进行脱氢,然后仅将第二连续振荡区域照射到脱氢区域以将非晶硅多晶化,其中第一连续振荡激光器照射的区域比第二连续振荡区域 激光被照射。
    • 50. 发明授权
    • Display device and fabrication method thereof
    • 显示装置及其制造方法
    • US07727784B2
    • 2010-06-01
    • US12285997
    • 2008-10-17
    • Takuo KaitohTakahiro KamoToshihiko Itoga
    • Takuo KaitohTakahiro KamoToshihiko Itoga
    • H01L21/00
    • H01L27/1285G02F1/13454
    • The present invention provides a display device which forms thin film transistor circuits differing in characteristics from each other on a substrate in mixture and a fabrication method of the display device. On a glass substrate having a background layer which is formed by stacking an SiN film and an SiO2 film, a precursor film which is constituted of an a-Si layer or a fine particle crystalline p-Si layer is formed and the implantation is applied to the precursor film. Here, an acceleration voltage and a dose quantity are adjusted such that a proper quantity of dopant is dosed in the inside of the precursor film. When the precursor film is melted by laser radiation, the dopant dosed in the precursor film is activated and taken into the precursor.
    • 本发明提供一种显示装置,其在混合物的基板上形成彼此不同的薄膜晶体管电路和显示装置的制造方法。 在具有通过层叠SiN膜和SiO 2膜形成的背景层的玻璃基板上形成由a-Si层或微粒结晶性p-Si层构成的前体膜,并将其注入 前体膜。 这里,调整加速电压和剂量,使得在前体膜的内部配入适量的掺杂剂。 当前体膜通过激光辐射熔化时,投入到前体膜中的掺杂剂被激活并被吸收到前体中。