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    • 3. 发明授权
    • Solid-state image pickup device having a signal separation part for separating and providing vertical and horizontal signals and drive method thereof
    • 具有用于分离和提供垂直和水平信号的信号分离部分的固态图像拾取装置及其驱动方法
    • US08054365B2
    • 2011-11-08
    • US12269408
    • 2008-11-12
    • Yuji Matsuda
    • Yuji Matsuda
    • H04N3/14H04N5/335G06F1/00
    • H04N5/335H04N5/372
    • A solid-state image pickup device relating to the present invention comprises a pixel area where multiple pixels used for photoelectric conversion of incident light are two-dimensionally arranged. Vertical signal input lines to which vertical transfer signals for transferring signal charges generated at the pixels vertically in the pixel area are applied are connected to the pixel area. Furthermore, horizontal signal input lines to which horizontal transfer signals for horizontally transferring the signal charges are applied are connected to a horizontal transfer part for horizontally transferring the signal charges transferred vertically in the pixel area. A signal separation part separates vertical and horizontal transfer signals from a pulse signal supplied via a complex signal input terminal and supplies the separated signals to the vertical signal input line and the horizontal signal input line, respectively.
    • 本发明的固体摄像装置具有二维排列有入射光的光电转换用的多个像素的像素区域。 垂直信号输入线被连接到像素区域,垂直信号输入线被施加到垂直信号输入线,垂直传输信号用于传送在像素区域中垂直的像素产生的信号电荷。 此外,施加用于水平传送信号电荷的水平传送信号的水平信号输入线连接到水平传送部分,用于水平传送在像素区域中垂直传送的信号电荷。 信号分离部分将经由复信号输入端提供的脉冲信号的垂直和水平传送信号分离,并将分离的信号分别提供给垂直信号输入线和水平信号输入线。
    • 6. 发明授权
    • Solid state imaging device
    • 固态成像装置
    • US07326958B2
    • 2008-02-05
    • US11406288
    • 2006-04-19
    • Yuji Matsuda
    • Yuji Matsuda
    • H01L29/04
    • H01L27/14818H01L24/05H01L27/14831
    • A solid state imaging device includes: a plurality of photoelectric conversion elements which are arranged in a two-dimensional matrix on a semiconductor chip; vertical transfer registers including a vertical transfer channel and vertical transfer electrodes, respectively, for transferring signal charge read out of the photoelectric conversion elements in the vertical direction; a horizontal transfer register including a horizontal transfer channel and horizontal transfer electrodes for transferring the signal charge transferred from the vertical transfer registers in the horizontal direction; bus interconnects which are electrically connected to the vertical transfer electrodes and the horizontal transfer electrodes; and pads for external connection which are electrically connected to the bus interconnects. The pads are formed above the bus interconnects and the horizontal transfer electrodes.
    • 固态成像装置包括:在半导体芯片上以二维矩阵排列的多个光电转换元件; 垂直传送寄存器,分别包括垂直传送通道和垂直传输电极,用于传送沿垂直方向从光电转换元件读出的信号电荷; 水平传送寄存器,包括水平传送通道和水平传送电极,用于传送从垂直传送寄存器在水平方向上传送的信号电荷; 电连接到垂直传输电极和水平传输电极的总线互连; 以及电连接到总线互连的用于外部连接的焊盘。 焊盘形成在总线互连和水平传输电极之上。
    • 8. 发明授权
    • Super microfibrillated cellulose, process for producing the same, and coated paper and tinted paper using the same
    • 超微纤化纤维素,其制造方法,以及使用其的涂布纸和着色纸
    • US06183596B2
    • 2001-02-06
    • US08886262
    • 1997-07-01
    • Yuji MatsudaMariko HiroseKatsuhiko Ueno
    • Yuji MatsudaMariko HiroseKatsuhiko Ueno
    • D21H1116
    • D21H27/38D21C9/007D21D1/36D21H11/18D21H21/28
    • A super microfibrillated cellulose having an arithmetic average fiber length of 0.05 to 0.1 mm, a water retention value of at least 350%, a rate of the number of fibers not longer than 0.25 mm of at least 95% based on the total number of the fibers as calculated by adding up, and an axial ratio of the fibers of at least 50. The super microfibrillated cellulose is produced by passing a slurry of a previously beaten pulp through a rubbing apparatus having two or more grinders which are arranged so that they can be rub together to microfibrillate the pulp to obtain microfibrillated cellulose and further super microfibrillate the obtained microfibrillated cellulose with a high-pressure homogenizer to obtain the super microfibrillated cellulose. A coated paper produced with a coating material containing the super microfibrillated cellulose, and a tinted paper produced from a paper stock containing the super microfibrillated cellulose as a carrier carrying a dye or pigment are also provided.
    • 将具有0.05至0.1mm的算术平均纤维长度,至少350%的保水值,不超过0.25mm的纤维数不超过95%的超微纤化纤维素基于总数 通过相加计算的纤维和纤维的轴比至少为50.超微纤化纤维素通过使预先捣碎的纸浆的浆料通过具有两个或更多个研磨机的摩擦装置来制备,所述磨碎装置被布置成使得它们可以 一起摩擦纸浆以获得微纤化纤维素,并用高压均化器将所得微纤化纤维素进一步超微原纤化,得到超微纤化纤维素。 还提供了由含有超微纤化纤维素的涂层材料制成的涂布纸和由含有超微纤化纤维素作为携带染料或颜料的载体的纸料制成的着色纸。
    • 9. 发明授权
    • Solid-state imaging device and method of manufacturing the same
    • 固态成像装置及其制造方法
    • US6025210A
    • 2000-02-15
    • US900846
    • 1997-07-25
    • Yuji MatsudaMasahiko Niwayama
    • Yuji MatsudaMasahiko Niwayama
    • H01L27/148H01L21/00
    • H01L27/14887
    • A solid-state imaging device provided here comprises a p-type semiconductor substrate, a p-type impurity layer formed thereon, a light-intercepting part formed inside said impurity layer for storing signal charges produced through incident light, and a n-type drain part formed in a region of the substrate excluding the light-intercepting part for discharging excess charges of the light-intercepting part. As a result, sensitivity characteristics on the long wavelength side can be improved, and miniaturization can be facilitated. An n-type buried drain part for discharging charges is formed under a transfer part via a p-type impurity layer. The readout side between the light-intercepting part and the transfer part is separated by a p-type readout control part which is installed to control threshold voltage (Vt), and the non-readout side is separated by a channel stopper. An insulating film is formed on the light-intercepting part and on the transfer part, and charges of the light-intercepting part are read out to the transfer part by the conductive-type electrode. For preventing dark current from arising, a p-type buried diffusion layer is formed at the interface of the light-intercepting part and the insulating film.
    • 这里提供的固态成像装置包括p型半导体衬底,形成在其上的p型杂质层,形成在所述杂质层内部的用于存储通过入射光产生的信号电荷的遮光部分,以及n型漏极 部分形成在除了遮光部分之外的基板的区域中,用于排出遮光部分的多余电荷。 结果,能够提高长波长侧的灵敏度特性,能够实现小型化。 用于放电的n型埋漏部分经由p型杂质层形成在转印部分下面。 被遮光部分和转印部分之间的读出侧被安装成用于控制阈值电压(Vt)的p型读出控制部分分开,非读出侧被通道阻挡器分开。 在遮光部分和转印部分上形成绝缘膜,并且通过导电型电极将受光部分的电荷读出到转印部分。 为了防止产生暗电流,在遮光部分和绝缘膜的界面处形成p型掩埋扩散层。