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    • 1. 发明申请
    • METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE
    • 制造半导体器件的方法
    • US20090203175A1
    • 2009-08-13
    • US12424807
    • 2009-04-16
    • Takashi HAMADAYasuyuki ARAI
    • Takashi HAMADAYasuyuki ARAI
    • H01L21/336
    • H01L27/124G02F1/13454H01L27/1214H01L27/127H01L29/42384
    • TFT structures optimal for driving conditions of a pixel portion and driving circuits are obtained using a small number of photo masks. First through third semiconductor films are formed on a first insulating film. First shape first, second, and third electrodes are formed on the first through third semiconductor films. The first shape first, second, third electrodes are used as masks in first doping treatment to form first concentration impurity regions of one conductivity type in the first through third semiconductor films. Second shape first, second, and third electrodes are formed from the first shape first, second, and third electrodes. A second concentration impurity region of the one conductivity type which overlaps the second shape second electrode is formed in the second semiconductor film in second doping treatment. Also formed in the second doping treatment are third concentration impurity regions of the one conductivity type which are placed in the first and second semiconductor films. Fourth and Fifth concentration impurity regions having the other conductivity type that is opposite to the one conductivity type are formed in the third semiconductor film in third doping treatment.
    • 使用少量的光掩模获得对像素部分和驱动电路的驱动条件最佳的TFT结构。 第一至第三半导体膜形成在第一绝缘膜上。 第一形状的第一,第二和第三电极形成在第一至第三半导体膜上。 在第一掺杂处理中,第一形状的第一,第二,第三电极用作掩模,以在第一至第三半导体膜中形成一种导电类型的第一浓度杂质区。 第二形状的第一,第二和第三电极由第一形状的第一,第二和第三电极形成。 在第二掺杂处理中,在第二半导体膜中形成与第二形状的第二电极重叠的一种导电类型的第二浓度杂质区。 在第二掺杂处理中也形成为放置在第一和第二半导体膜中的一种导电类型的第三浓度杂质区。 在第三掺杂处理中,在第三半导体膜中形成具有与一种导电类型相反的另一导电类型的第四和第五浓度杂质区。
    • 2. 发明申请
    • METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE
    • 制造半导体器件的方法
    • US20120007094A1
    • 2012-01-12
    • US13226803
    • 2011-09-07
    • Takashi HAMADAYasuyuki ARAI
    • Takashi HAMADAYasuyuki ARAI
    • H01L33/08
    • H01L27/124G02F1/13454H01L27/1214H01L27/127H01L29/42384
    • A semiconductor device includes a thin film transistor. The thin film transistor includes a semiconductor film over a substrate, in which the semiconductor film includes a pair of first regions, a pair of second regions interposed between the pair of first regions, and a channel formation region interposed between the pair of second regions. A concentration of an impurity in the pair of second regions is smaller than a concentration of the impurity in the pair of first regions. The thin film transistor includes an insulating film, in which a portion of the insulating film is provided over the semiconductor film. The thin film transistor includes a conductive film over the portion, and the conductive film includes a taper shape.
    • 半导体器件包括薄膜晶体管。 薄膜晶体管包括在基板上的半导体膜,其中半导体膜包括一对第一区域,插入在该对第一区域之间的一对第二区域和插入在该对第二区域之间的沟道形成区域。 一对第二区域中的杂质浓度小于该对第一区域中的杂质浓度。 薄膜晶体管包括绝缘膜,其中绝缘膜的一部分设置在半导体膜上。 薄膜晶体管在该部分上包括导电膜,并且导电膜包括锥形。
    • 6. 发明申请
    • POWER STORAGE DEVICE
    • 电源存储设备
    • US20100213893A1
    • 2010-08-26
    • US12773394
    • 2010-05-04
    • Shunpei YAMAZAKIYasuyuki ARAI
    • Shunpei YAMAZAKIYasuyuki ARAI
    • H02J7/00
    • H01L27/0629H01Q1/36H01Q1/38H01Q7/00H01Q9/285H02J7/025H02J17/00H02J50/10H02J50/27H02J50/50
    • In the field of portable electronic devices in the future, portable electronic devices will be desired, which are smaller and more lightweight and can be used for a long time period by one-time charging, as apparent from provision of one-segment partial reception service “1-seg” of terrestrial digital broadcasting that covers the mobile objects such as a cellular phone. Therefore, the need for a power storage device is increased, which is small and lightweight and capable of being charged without receiving power from commercial power. The power storage device includes an antenna for receiving an electromagnetic wave, a capacitor for storing power, and a circuit for controlling store and supply of the power. When the antenna, the capacitor, and the control circuit are integrally formed and thinned, a structural body formed of ceramics or the like is partially used. A circuit for storing power of an electromagnetic wave received at the antenna in a capacitor and a control circuit for arbitrarily discharging the stored power are provided, whereby lifetime of the power storage device can be extended.
    • 在将来的便携式电子设备领域中,期望便携式电子设备更小,更轻便,并且可以通过一次性充电长时间使用,从提供单段部分接收服务 涵盖诸如蜂窝电话的移动物体的地面数字广播的“1-seg”。 因此,增加对电力存储装置的需求,其小而轻,并且能够在不从商业电力接收电力的情况下进行充电。 蓄电装置包括用于接收电磁波的天线,用于存储电力的电容器和用于控制电力的存储和供给的电路。 当天线,电容器和控制电路整体形成和变薄时,部分地使用由陶瓷等构成的结构体。 提供一种用于存储电容器中的天线接收的电磁波的电力的电路和用于任意放电所存储的电力的控制电路,从而能够延长蓄电装置的寿命。
    • 7. 发明申请
    • LIGHT EMITTING DEVICE
    • 发光装置
    • US20100156287A1
    • 2010-06-24
    • US12715658
    • 2010-03-02
    • Shunpei YAMAZAKIYasuyuki ARAI
    • Shunpei YAMAZAKIYasuyuki ARAI
    • H01L51/52
    • H01L51/0545B82Y10/00H01L27/3244H01L27/3274H01L27/3281H01L27/3288H01L51/0036H01L51/0541H01L51/5012H01L51/52H01L51/5253H01L51/5256H01L51/5262H01L51/5271H01L2251/5338
    • A light emitting device having a plastic substrate is capable of preventing the substrate from deterioration with the transmission of oxygen or moisture content can be obtained. The light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer. Alternatively, the light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is to constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer, wherein the inorganic compound layer is formed so as to cover the end face of the lamination layer. In the present invention, the lamination layer is formed on the primary surface of the plastic substrate, so that a flexible substrate structure can be obtained while preventing the substrate from deterioration with the transmission of oxygen or moisture content.
    • 具有塑料基板的发光装置能够防止由于氧气或水分含量的传递而使基板变质。 发光器件具有形成在层叠层和透射视觉的无机化合物层之间的发光元件,其中层压层由一个或多个单元构成,并且每个单元是金属层和 有机化合物层。 或者,发光装置具有形成在层叠层和透射视觉光的无机化合物层之间的发光元件,其中层压层由一个单元或两个或更多个单元构成,并且每个单元是层叠结构 金属层和有机化合物层,其中形成无机化合物层以覆盖层压层的端面。 在本发明中,在塑料基板的主表面上形成层压层,从而可以在防止基板由于氧气或水分含量的变化而劣化的同时获得柔性基板结构。
    • 9. 发明申请
    • METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE
    • 制造光电转换装置的方法
    • US20090117680A1
    • 2009-05-07
    • US12260302
    • 2008-10-29
    • Shunpei YAMAZAKIYasuyuki ARAI
    • Shunpei YAMAZAKIYasuyuki ARAI
    • H01L31/036
    • H01L31/1804H01L21/76254H01L31/1892Y02E10/547Y02P70/521
    • A photoelectric conversion device which is excellent in photoelectric conversion characteristics is provided by effectively utilizing silicon semiconductor materials. The present invention relates to a method for manufacturing a photoelectric conversion device using a solar cell, in which a plurality of single crystal semiconductor substrates in each of which a damaged layer is formed at a predetermined depth is arranged over a supporting substrate having an insulating surface; a surface layer part of the single crystal semiconductor substrate is separated thinly using the damaged layer as a boundary so as to form a single crystal semiconductor layer over one surface of the supporting substrate; and the single crystal semiconductor layer is irradiated with a laser beam from a surface side which is exposed by separation of the single crystal semiconductor layer to planarize the surface of the single crystal semiconductor layer.
    • 通过有效利用硅半导体材料提供光电转换特性优异的光电转换装置。 本发明涉及一种使用太阳能电池的光电转换装置的制造方法,其中在预定深度上形成损伤层的多个单晶半导体基板布置在具有绝缘表面的支撑基板上 ; 使用损伤层作为边界将单晶半导体衬底的表面层部分薄薄地分离,以在支撑衬底的一个表面上形成单晶半导体层; 并且通过分离单晶半导体层而暴露的表面侧的激光束照射单晶半导体层,使单晶半导体层的表面平坦化。
    • 10. 发明申请
    • DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME
    • 显示装置及其制造方法
    • US20080248609A1
    • 2008-10-09
    • US12122815
    • 2008-05-19
    • Shunpei YAMAZAKIYasuyuki ARAI
    • Shunpei YAMAZAKIYasuyuki ARAI
    • H01L51/40
    • G02F1/167G02B26/026G02F1/133305G02F1/1368G02F1/1676G02F1/1681G02F2001/1678G02F2201/123G09F9/372G09G3/344H01L51/0097H01L51/0545
    • A constitution of the display device of the invention is shown in the following. The display device includes a pixel unit including TFTs of which the active layer contains an organic semiconductor material for forming channel portions in the opening portions in an insulating layer arranged to meet the gate electrodes. The pixel unit further includes a contrast media formed on the electrodes connected to the TFTs for changing the reflectivity upon the application of an electric field, or microcapsules containing electrically charged particles that change the reflectivity upon the application of an electric field. The pixel unit is sandwiched by plastic substrates, and barrier layers including an inorganic insulating material are provided between the plastic substrates and the pixel unit. The purpose of the present invention is to supply display devices which are excellent in productivity, light in weight and flexible.
    • 以下示出本发明的显示装置的结构。 显示装置包括像素单元,其包括TFT,其中有源层包含有机半导体材料,用于在布置成与栅电极相遇的绝缘层中的开口部分中形成沟道部分。 像素单元还包括形成在连接到TFT上的电极上用于改变施加电场时的反射率的造影剂,或者包含在施加电场时改变反射率的带电粒子的微胶囊。 像素单元被塑料基板夹持,并且在塑料基板和像素单元之间设置包括无机绝缘材料的阻挡层。 本发明的目的是提供生产率优良,重量轻且柔软的显示装置。