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    • 91. 发明申请
    • TANDEM SOLAR CELL
    • TANDEM太阳能电池
    • US20110174367A1
    • 2011-07-21
    • US13119833
    • 2009-09-28
    • Shinya HayashiSouichi UchidaTsutomu Nakamura
    • Shinya HayashiSouichi UchidaTsutomu Nakamura
    • H01L31/02
    • H01L27/302B82Y10/00H01L51/0036H01L51/0037H01L51/0046H01L51/0047H01L51/0053H01L51/0078H01L51/4253H01L51/4273H01L2251/308Y02E10/549
    • The present invention provides a tandem solar cell constituted for the purpose of hole blocking or electron blocking so that holes are not injected from a front subcell or electrons are not injected from a rear subcell, into an intermediate layer arranged between these subcells. The tandem solar cell comprises a pair of electrodes, at least two or more subcells, and intermediate layers each arranged between two adjacent subcells, where at least one of the intermediate layers has a hole blocking layer or an electron blocking layer. In particular, holes or electrons can be blocked more completely by adjusting the thickness of the hole blocking layer or electron blocking layer to be equal to or greater than the maximum value of surface irregularity height of the subcell immediately before the hole or electron blocking layer so that the tandem solar cell can exhibit its performances sufficiently.
    • 本发明提供一种串联太阳能电池,其构造为空穴阻挡或电子阻挡,使得空穴不从前部子电池注入,或者电子不从后部子电池注入到布置在这些子电池之间的中间层。 串联太阳能电池包括一对电极,至少两个或更多个子电池和中间层,每个子电池和中间层各自布置在两个相邻的子电池之间,其中至少一个中间层具有空穴阻挡层或电子阻挡层。 特别地,通过将​​空穴阻挡层或电子阻挡层的厚度调整为等于或大于在空穴或电子阻挡层之前的子电池的表面不规则高度的最大值,可以更完全地阻挡空穴或电子,因此 串联太阳能电池可以充分展现其性能。
    • 95. 发明申请
    • Optical module device
    • 光模块设备
    • US20080253720A1
    • 2008-10-16
    • US12068896
    • 2008-02-13
    • Takahiro YamaguchiYoshihiko KobayashiTsutomu Nakamura
    • Takahiro YamaguchiYoshihiko KobayashiTsutomu Nakamura
    • G02B6/26
    • G02B6/4201G02B6/4281G02B6/4283
    • An optical module device includes an optical module having leads, a print substrate and a flexible substrate including a first region having a center and a peripheral areas, a second and a third region, the flexible substrate including first through-holes corresponding to the leads in the center area, a terminal and a metalized trace formed in the second and third regions respectively, and a protection layer formed on its surface at the peripheral area and in the third region, wherein the flexible substrate further includes two second through-holes in the peripheral area, which is a location close to the third region, wherein the flexible substrate is bent along a line coupling the two second through-holes, and wherein the flexible substrate at it first region is fixed to the second end member by adhesive material injected into the second through-holes.
    • 光学模块装置包括具有引线,印刷基板和柔性基板的光学模块,该基板包括具有中心和周边区域的第一区域,第二和第三区域,柔性基板包括与引线对应的第一通孔 分别形成在第二和第三区域的中心区域,端子和金属化迹线,以及在其周边区域和第三区域的其表面上形成的保护层,其中柔性基板还包括在第二区域中的两个第二通孔 周边区域,其是靠近第三区域的位置,其中柔性基板沿着连接两个第二通孔的线弯曲,并且其中在其第一区域处的柔性基板通过注入的粘合材料固定到第二端部构件 进入第二个通孔。
    • 96. 发明授权
    • Accessing device
    • 访问设备
    • US07404029B2
    • 2008-07-22
    • US11366944
    • 2006-03-02
    • Tsutomu NakamuraYamagata Hiroshi
    • Tsutomu NakamuraYamagata Hiroshi
    • G06F12/00G06F13/00G06F13/28G06F9/26G06F9/34G11C11/34G11C16/04
    • G06F12/1433G06F21/78G06F2212/2022
    • To provide an accessing device which allows reliable protection of important data. A memory accessing device has a file system device which manages a logical memory space and a driver device which maintains a correlation information between the logical memory space and a physical memory space and which physically accesses a flash memory based on the correlation information. The flash memory is physically divided into a plurality of strings. The file system device manages the memory space by dividing the memory space into a plurality of partitions each of which is set to one of RO and RW. The driver device specifies a permission type to write the data in a string by correlating each string to a single logical partition.
    • 提供允许可靠保护重要数据的访问设备。 存储器访问设备具有管理逻辑存储器空间的文件系统设备和维护逻辑存储器空间和物理存储器空间之间的相关信息并且基于相关信息物理地访问快闪存储器的驱动器设备。 闪存被物理地分成多个字符串。 文件系统装置通过将存储空间划分成多个分区来管理存储器空间,每个分区被设置为RO和RW之一。 驱动程序设备通过将每个字符串与单个逻辑分区相关联来指定将数据写入字符串的许可类型。
    • 100. 发明授权
    • X-ray tube control apparatus and x-ray tube control method
    • X射线管控制装置和X射线管控制方法
    • US07286642B2
    • 2007-10-23
    • US10510212
    • 2003-04-04
    • Masayoshi IshikawaTakane YokoiTsutomu NakamuraYutaka OchiaiKinji Takase
    • Masayoshi IshikawaTakane YokoiTsutomu NakamuraYutaka OchiaiKinji Takase
    • H05G1/54
    • H05G1/46
    • A maximum tube voltage value setting module 240a, a warming-up module 240b, a limit tube voltage control module 240c, a limit tube current control module 240d and a focus grid electrode control module 240e of an operation program 240 which respectively correspond to different maximum tube voltage values are stored in storage sections 32a-e of an X-ray tube control apparatus 3. When the maximum tube voltage value of an X-ray tube 1 is changed, an extraction section 34 extracts each module of the operation program 240 which corresponds to the maximum tube voltage value after being changed from the storage sections 32a-e. A communications section 36 sends the operation program 240 comprised of each extracted module to an X-ray tube controller 2 and overwrites it in a memory section 24.
    • 操作程序240的最大管电压值设定模块240a,预热模块240b,极限管电压控制模块240c,极限管电流控制模块240d和焦点栅极电极控制模块240e 分别对应于不同的最大管电压值存储在X射线管控制装置3的存储部分32e中。 当X射线管1的最大管电压值改变时,提取部分34从存储部分32a-e中提取与改变后的最大管电压值相对应的操作程序240的每个模块。 通信部分36将由每个提取的模块组成的操作程序240发送到X射线管控制器2,并将其重写在存储器部分24中。