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    • 71. 发明授权
    • Display device
    • 显示设备
    • US07760314B2
    • 2010-07-20
    • US11585801
    • 2006-10-25
    • Hirofumi IwanagaShigeaki NoumiHitoshi MorishitaHiroshi Ueda
    • Hirofumi IwanagaShigeaki NoumiHitoshi MorishitaHiroshi Ueda
    • F02F1/1345
    • G02F1/13452H01L2924/0002H01L2924/00
    • The present invention provides a display device which has a narrow screen border, and excellent display equality. The display device according to the present invention comprises a display panel comprising a glass substrate and a source driver IC which is provided along the edge of the glass substrate. The FPC is connected between the source driver ICs. At the substrate end side of the source driver IC, a bump for GND, a bump for analog power supply, a bump for digital power supply, a bump for reference voltage at the positive polarity side, and a bump for reference voltage at the negative polarity side are formed sequentially from the outer side along the flow of current. These bumps for input and the FPC are connected with the lines for input on the glass substrate. The logic signal lines and are formed along the short side of the source driver IC and along the long side at the display area side.
    • 本发明提供了一种具有窄屏幕边界和优异的显示等同性的显示装置。 根据本发明的显示装置包括:显示面板,包括玻璃基板和沿着玻璃基板的边缘设置的源极驱动器IC。 FPC连接在源极驱动器IC之间。 在源极驱动器IC的基板端侧,用于GND的突起,模拟电源的突起,数字电源的突起,正极侧的基准电压的凸块以及负极的基准电压的凸点 极性侧沿着电流流动从外侧依次形成。 这些用于输入的凸起和FPC与用于在玻璃基板上输入的线连接。 逻辑信号线沿着源极驱动器IC的短边沿着显示区域侧的长边形成。
    • 74. 发明授权
    • Analysis method using reporter (label) intermolecular interaction
    • 分析方法采用报告(标记)分子间相互作用
    • US07595202B2
    • 2009-09-29
    • US10475540
    • 2002-04-23
    • Teruyuki NagamuneHiroshi UedaYoshiyuki OhiroNorio Shibata
    • Teruyuki NagamuneHiroshi UedaYoshiyuki OhiroNorio Shibata
    • G01N33/541G01N21/76G01N33/533G01N33/566G01N33/53G01N33/542
    • G01N33/54306G01N33/533G01N33/542G01N33/582
    • The present invention provides a method for controlling the spatial arrangement of an energy donor and an energy acceptor in a reaction complex in order to carry out the measurement with good precision and high sensitivity, and a measurement system using the method. Two types of material having affinity for the subject material to be measured are respectively labeled with a combination of reporters that give rise to energy transfer; those that have been thus obtained by labeling these materials are each further labeled with materials that have weak affinity for each other to give reagents, which are then mixed with a sample to give the reaction complex. Each of the materials is brought into spatial proximity by binding based on the affinity among the materials having weak affinity for each other in the reaction complex, and since that condition is stably maintained, a more efficient energy transfer occurs.
    • 本发明提供了一种用于控制反应复合物中能量供体和能量受体的空间排列的方法,以便以高精度和高灵敏度进行测量,以及使用该方法的测量系统。 分别用引起能量转移的记者的组合来标示对被测量物质具有亲和性的两种类型的材料; 通过标记这些材料得到的那些物质每个进一步用彼此具有弱亲和力的材料进行标记,得到试剂,然后将其与样品混合以得到反应络合物。 通过基于在反应络合物中彼此之间具有弱亲和力的材料之间的亲和力,通过结合使每种材料变得空间接近,并且由于稳定地保持该条件,因此发生更有效的能量转移。