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    • 3. 发明授权
    • Electrical wiring structure, electro-optical device, and electronic apparatus
    • 电气布线结构,电光装置和电子设备
    • US07212272B2
    • 2007-05-01
    • US10782402
    • 2004-02-19
    • Kazuyoshi SakaiTadashi Watanabe
    • Kazuyoshi SakaiTadashi Watanabe
    • G02F1/1345
    • G02F1/136286G02F1/1345G02F2001/13629
    • An electro-optical device and an electronic apparatus are provided with reduced wiring resistance. A second wiring pattern for connecting an upper wiring connected to a mounting terminal to a first inter-substrate conducting terminal includes a base electrode. An inorganic insulating film is not attached to the sides of the base electrode. As a result, the upper wiring on each side of the base electrode and the first inter-substrate conducting terminal are electrically connected to the base electrode through the sides. The path from the mounting terminal to the first inter-substrate conducting terminal is formed in the order of upper wiring, one side of the base electrode, base electrode, the other side of the base electrode, and then the first inter-substrate conducting terminal. The second wiring pattern uses the base electrode formed of a metal film to sharply reduce wiring resistance.
    • 电光装置和电子设备具有降低的布线电阻。 用于将连接到安装端子的上部布线连接到第一基板间导电端子的第二布线图案包括基极。 无机绝缘膜不附着在基极侧。 结果,基极和第一基板间导电端子的每一侧的上部布线通过侧面电连接到基极。 从安装端子到第一基板间导电端子的路径按照上布线,基极的一侧,基底电极,基极的另一侧的顺序形成,然后形成第一基板间导电端子 。 第二布线图案使用由金属膜形成的基极电极,以显着降低布线电阻。
    • 10. 发明授权
    • Pipetting device and method therefore
    • 因此,移液装置和方法
    • US5499545A
    • 1996-03-19
    • US261117
    • 1994-06-14
    • Akira KimuraTadashi WatanabeTsuyoshi InoueKeiichi Nakamachi
    • Akira KimuraTadashi WatanabeTsuyoshi InoueKeiichi Nakamachi
    • G01F11/06B01L3/02G01N1/00G01N35/10G05D7/06
    • G01N35/1016B01L3/0227G05D7/0676G01N2035/1025
    • Measurement accuracy is improved by eliminating the influence of changes in the atmospheric and internal pressures on the quantity of a liquid absorbed or discharged. A pipetting device inducts a specified quantity of liquid into a tip portion or discharges a specified quantity of liquid from the tip portion by controlling the pressure inside a cylinder portion including a cylinder and a piston. A control target value for the quantity of the liquid to be absorbed or discharged from a command portion and information from an atmospheric pressure measurement portion and a pressure sensor for detecting the internal pressure of the cylinder are sent to a correction calculation portion which in turn performs correction calculation based on measured data on the atmospheric and internal pressures and data on the shapes of the cylinder and tip portion to obtain the distance to be traveled by the piston so that the control target value form the command portion is met. A control portion controls a motor which drives the piston in accordance with information on the distance to be traveled by the piston from the correction calculation portion.
    • 通过消除大气压和内压变化对吸收或排出的液体的量的影响,可以提高测量精度。 吸移装置通过控制包括气缸和活塞的气缸部分内的压力,将指定量的液体引导到尖端部分中或者从尖端部分排出指定量的液体。 从指令部分吸收或排出的液体的量的控制目标值和来自大气压测量部分的信息和用于检测气缸内部压力的压力传感器被发送到校正计算部分,该校正计算部分又执行 基于关于大气压和内部压力的测量数据以及关于气缸和尖端部分的形状的数据的校正计算,以获得由活塞行进的距离,从而满足形成命令部分的控制目标值。 控制部根据来自校正运算部的活塞距离的信息来驱动活塞。