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    • 12. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20100213442A1
    • 2010-08-26
    • US12159485
    • 2007-12-14
    • Hidehiro YoshidaHisao NagaiYoshiro Kitamura
    • Hidehiro YoshidaHisao NagaiYoshiro Kitamura
    • H01L51/10H01L51/52
    • H01L51/0003H01L51/0545
    • Provided is a semiconductor device comprising an organic semiconductor element A and an organic semiconductor element B, wherein the organic semiconductor element A has a source electrode and a drain electrode disposed on a surface of a substrate; a channel gap disconnecting the source electrode and the drain electrode; an organic semiconductor layer disposed on the source electrode, the drain electrode and the channel gap; an insulating film disposed on the organic semiconductor layer; a gate electrode disposed on the insulating film; a bank defining the organic semiconductor layer; a and groove through the bank, a distance between the apex of the bank and the surface of a substrate is greater than a distance between the apex of the channel gap and the surface of the substrate, and the organic semiconductor element B has a source electrode or a drain electrode connected with the gate electrode of the organic semiconductor element A via the groove through the bank of the organic semiconductor element A.
    • 提供一种包含有机半导体元件A和有机半导体元件B的半导体器件,其中有机半导体元件A具有设置在基板的表面上的源电极和漏电极; 沟道间隙切断源电极和漏电极; 设置在源电极,漏电极和沟道间隙上的有机半导体层; 设置在有机半导体层上的绝缘膜; 设置在所述绝缘膜上的栅电极; 限定有机半导体层的堤; a和沟槽穿过堤岸,堤岸的顶点和基底表面之间的距离大于沟道间隙的顶点与基底的表面之间的距离,有机半导体元件B具有源电极 或通过有机半导体元件A的堤经由沟槽与有机半导体元件A的栅电极连接的漏电极。
    • 14. 发明申请
    • Powder Spray System For Printing
    • 喷粉系统用于印刷
    • US20120275805A1
    • 2012-11-01
    • US13384892
    • 2010-08-10
    • Hisao Nagai
    • Hisao Nagai
    • G03G15/00
    • B41M7/02B05B5/032B05B5/081B05B5/10B05B5/14B41F23/06
    • A powder spray system for printing 10 is an apparatus for spraying an offset-preventing powder 3 on the surface of a piece of printed paper 1 while the paper was moving. The powder spray system for printing 10 includes a printed-paper charger 11 for positively or negatively charging the paper 1, a powder charger 12 for electrically charging the powder 3 with an opposite polarity to that of the charged paper 1, a powder spraying device 13 for spraying the charged powder 3 on the paper 1 at a downstream of the printed paper charger 11 in the moving direction of the paper 1, a humidity measuring device 14 for measuring humidity in a space around the moving paper 1, and a controller 15 for controlling at least one of a voltage for charging the paper 1 in the printed paper charger 11 and a voltage for charging the powder 3 in the powder charger 12 depending on the measured humidity. The powder spray system 10 for printing can suppress variations in the adhesion amount of the powder 3 caused by the difference in humidity or the electric charging of the powder-sprayed paper.
    • 用于印刷的粉末喷射系统10是用于在纸张移动时在打印纸1的表面上喷射防偏移粉末3的装置。 用于打印的粉末喷射系统10包括用于对纸张1进行正或负充电的打印纸充电器11,用于对与充电纸1的极性相反的极性的粉末3充电的粉末充电器12,粉末喷射装置13 用于在打印纸充电器11的纸张1的移动方向的下游将带电粉末3喷射在纸张1上,用于测量移动纸1周围的空间中的湿度的湿度测量装置14,以及用于 控制用于对打印的纸张充电器11中的纸张1充电的电压和根据测量的湿度对粉末充电器12中的粉末3充电的电压中的至少一个。 用于印刷的粉末喷射系统10可以抑制粉末3的附着量的变化,这是由于湿度差或粉末喷涂纸的电荷引起的。
    • 16. 发明授权
    • Semiconductor device
    • 半导体器件
    • US07888671B2
    • 2011-02-15
    • US12159485
    • 2007-12-14
    • Hidehiro YoshidaHisao NagaiYoshiro Kitamura
    • Hidehiro YoshidaHisao NagaiYoshiro Kitamura
    • H01L29/08
    • H01L51/0003H01L51/0545
    • Provided is a semiconductor device comprising an organic semiconductor element A and an organic semiconductor element B, wherein the organic semiconductor element A has a source electrode and a drain electrode disposed on a surface of a substrate; a channel gap disconnecting the source electrode and the drain electrode; an organic semiconductor layer disposed on the source electrode, the drain electrode and the channel gap; an insulating film disposed on the organic semiconductor layer; a gate electrode disposed on the insulating film; a bank defining the organic semiconductor layer; a and groove through the bank, a distance between the apex of the bank and the surface of a substrate is greater than a distance between the apex of the channel gap and the surface of the substrate, and the organic semiconductor element B has a source electrode or a drain electrode connected with the gate electrode of the organic semiconductor element A via the groove through the bank of the organic semiconductor element A.
    • 提供一种包含有机半导体元件A和有机半导体元件B的半导体器件,其中有机半导体元件A具有设置在基板的表面上的源电极和漏电极; 沟道间隙切断源电极和漏电极; 设置在源电极,漏电极和沟道间隙上的有机半导体层; 设置在所述有机半导体层上的绝缘膜; 设置在所述绝缘膜上的栅电极; 限定有机半导体层的堤; a和沟槽穿过堤岸,堤岸的顶点和基底表面之间的距离大于沟道间隙的顶点与基底的表面之间的距离,有机半导体元件B具有源电极 或通过有机半导体元件A的堤经由沟槽与有机半导体元件A的栅电极连接的漏电极。
    • 19. 发明授权
    • Laser marking resin composition
    • 激光打标树脂组成
    • US5760120A
    • 1998-06-02
    • US544481
    • 1995-10-18
    • Hiroyuki ItohYukiko ItoMasaaki MawatariHisao NagaiKazuo MiyamotoMitsuru Kawakita
    • Hiroyuki ItohYukiko ItoMasaaki MawatariHisao NagaiKazuo MiyamotoMitsuru Kawakita
    • C08K3/22B41M5/26C08K3/00C08L25/00C08L33/00C08L33/02C08L33/04C08L33/10C08L33/18C08L33/24C08L35/00C08L51/00C08L51/04C08L55/02C08J5/10C08K3/18
    • C08K3/0075B41M5/267C08L55/02
    • A laser marking resin composition excellent in appearance of molded article and impact resistance which comprises: (A) 100 parts by weight of a rubber-reinforced vinyl resin consisting of: (A-1) 1 to 100% by weight of a rubber-reinforced resin having a grafting degree of 5 to 150% by weight obtained by polymerizing, in the presence of (a) 5 to 70% by weight of a rubbery polymer, (b) 95 to 30% by weight of at least one monomer selected from the group consisting of an aromatic vinyl compound, a vinyl cyanide compound, a (meth)acrylic acid ester, maleic anhydride and a maleimide compound, provided that (a)+(b)=100% by weight, and (A-2) 99 to 0% by weight of a polymer obtained by polymerizing at least one monomer selected from the group consisting of an aromatic vinyl compound, a vinyl cyanide compound, a (meth)acrylic acid ester, maleic anhydride and a maleimide compound, provided that (A-1)+(A-2)=100% by weight, the matrix resin in the component (A) having an intrinsic viscosity �.eta.! of 0.1 to 1.5 dl/g as measured in methyl ethyl ketone at 30.degree. C., and (B) 0.01 to 30 parts by weight of at least one compound selected from the group consisting of (B-1) titanium black, (B-2) black iron oxide, (B-3) yellow iron oxide and (B-4) carbon black.
    • 一种模塑制品的外观和耐冲击性优异的激光标记树脂组合物,包括:(A)100重量份由以下组成的橡胶增强乙烯基树脂组成:(A-1)1至100重量%的橡胶增强 在(a)5〜70重量%的橡胶状聚合物的存在下,通过聚合得到的接枝度为5〜150重量%的树脂,(b)95〜30重量%的至少一种选自 由(a)+(b)= 100重量%和(A-2)组成的组成的芳香族乙烯基化合物,乙烯基氰化合物,(甲基)丙烯酸酯,马来酸酐和马来酰亚胺化合物, 通过聚合至少一种选自芳族乙烯基化合物,乙烯基氰化合物,(甲基)丙烯酸酯,马来酸酐和马来酰亚胺化合物的单体而获得的聚合物的99至0重量%,条件是( A-1)+(A-2)= 100重量%时,成分(A)中的基质树脂的特性粘度η 在甲基乙基酮中在30℃下测量为0.1至1.5dl / g,和(B)0.01至30重量份的至少一种选自(B-1)钛黑,(B -2)黑色氧化铁,(B-3)黄色氧化铁和(B-4)炭黑。