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    • 3. 发明申请
    • BIOLOGICAL MATERIAL PREPARATION CHIP AND PREPARATION CHIP SYSTEM
    • 生物材料制备芯片和制备芯片系统
    • US20080312104A1
    • 2008-12-18
    • US11763471
    • 2007-06-15
    • Yasuhiko SasakiToru InabaHiroshi KishidaMasaomi Uchida
    • Yasuhiko SasakiToru InabaHiroshi KishidaMasaomi Uchida
    • C40B50/00C40B60/14
    • B01L3/502746B01L2200/0621B01L2300/0816B01L2300/0867B01L2300/0874B01L2400/0487B01L2400/084
    • The present invention is directed to provide a preparation chip system having a simpler configuration and improved reliability while addressing the case where a plurality of reagents have to be fed as in a preparation of extracting DNA from a sample solution. The preparation chip system includes a sample chamber, a dissolving solution chamber, a cleaning solution chamber, an eluting solution chamber, a mixing passage connected to the sample chamber and the dissolving solution chamber and mixing the sample and the dissolving solution with each other, a carrier part connected to the mixing passage, a waste chamber connected to the carrier part via a holding passage, a collection chamber holding the eluting solution passed through the carrier part, and a plurality of resistive materials forming a passage resistor disposed in a first passage connecting the cleaning solution chamber with both the mixing passage and the carrier part. The eluting solution is passed through the carrier part by pressure from a pressure source.
    • 本发明旨在提供一种制备芯片系统,其具有更简单的结构和改善的可靠性,同时解决了在从样品溶液中提取DNA的制备中必须进料多种试剂的情况。 制剂芯片系统包括样品室,溶解溶液室,清洗溶液室,洗脱溶液室,连接到样品室的混合通道和溶解溶液室,并将样品和溶解溶液彼此混合, 连接到混合通道的载体部分,经由保持通道连接到载体部分的废物室,保持通过载体部分的洗脱溶液的收集室,以及形成通道电阻器的多个电阻材料,设置在第一通道中,连接 所述清洁溶液室具有所述混合通道和所述载体部分。 洗脱溶液通过压力源通过载体部分。
    • 9. 发明授权
    • Semiconductor device
    • 半导体器件
    • US4928163A
    • 1990-05-22
    • US315196
    • 1989-02-27
    • Toshihiko YoshidaToru Inaba
    • Toshihiko YoshidaToru Inaba
    • H01L29/94H01L21/265H01L21/336H01L29/78
    • H01L29/6659H01L29/7836Y10S257/90Y10S257/913
    • A semiconductor device formed in a semiconductor substrate and having a gate electrode formed on the semiconductor substrate, source and drain regions are formed in said the semiconductor substrate. The source and drain regions are made of a first impurity region doped with impurities of an opposite conductivity type to that of a semiconductor substrate formed at portions adjacent to the edge of the gate electrode, a second impurity region doped with impurities of an opposite conductivity type to that of a semiconductor substrate formed at portions under the first impurity region, and a third impurity region doped with impurities of opposite conductivity type to that of a semiconductor substrate formed at portions spaced apart from the edge of the gate electrode. The impurities of the second impurity region have a diffusion coefficient larger than that of the impurities of the first impurity region. The third impurity region has a higher concentration than that of the first and the second impurity regions and in addition the impurities of the third impurity region have a diffusion coefficient smaller than that of the second impurity region.
    • 半导体衬底中形成半导体衬底中形成有半导体衬底,源极和漏极区的栅电极的半导体器件。 源极和漏极区域由掺杂有与在栅电极的边缘附近形成的部分形成的半导体衬底的导电类型相反的杂质掺杂的第一杂质区域,掺杂有相反导电类型的杂质的第二杂质区域 与形成在第一杂质区域下方的部分的半导体衬底的第一杂质区以及掺杂有相反导电类型的杂质的第三杂质区域形成在与栅电极的边缘间隔开的部分的半导体衬底的杂质区域。 第二杂质区域的杂质的扩散系数大于第一杂质区域的杂质。 第三杂质区域具有比第一和第二杂质区域更高的浓度,另外第三杂质区域的杂质的扩散系数小于第二杂质区域的扩散系数。
    • 10. 发明授权
    • Network, network fault recovery method, and node device
    • 网络,网络故障恢复方法和节点设备
    • US09246793B2
    • 2016-01-26
    • US13424726
    • 2012-03-20
    • Toru Inaba
    • Toru Inaba
    • G01R31/08H04L12/761H04L12/707H04L12/703H04L12/723H04L12/26
    • H04L45/16H04L43/10H04L45/22H04L45/28H04L45/50
    • A ring network of a multicast label switch path scheme includes a plurality of nodes connected to form a ring. Further, a signal input to a first one of the nodes is branched to be transmitted in first and second different directions to a second and a third one of the nodes through a first working path and a second working path, respectively, in the ring network, the second one and the third one of the nodes defining end points of the first working path and the second working path, respectively, from the first one of the nodes, and a first backup path is set from the second one of the nodes to the first one of the nodes in the first direction, and a second back up path is set from the third one of the nodes to the first one of the nodes in the second direction.
    • 组播标签交换路径方案的环形网络包括连接形成环的多个节点。 此外,输入到第一个节点的信号被分支以在第一和第二不同方向上分别通过环形网络中的第一工作路径和第二工作路径发送到第二和第三节点 ,分别从所述第一节点定义所述第一工作路径和所述第二工作路径的端点的所述节点中的第二和第三节点,并且从所述节点中的第二节点设置第一备份路径 在第一方向上的第一个节点和第二备份路径被设置为从第三个节点到第二个方向上的第一个节点。